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Carefully built, great cruising catamaran.
Canoe Body to knuckle Edge glued strip cedar encased in glass cloth and epoxy resin Topsides/Deck/Coachroof Glass cloth and epoxy resin over marine ply
Stern cockpit with linked twin tillers Autopilot Repeat instruments Steering compass Speakers for VHF and Radio/CD player Connection for shore power Goalpost davits for dinghy Bracket for outboard stowage Halyard/sheet winches and stoppers mounted on coach roof (Coach roof designed as rain water catchment area} Spinnaker winches mounted on cockpit coamings Seat lockers give access to engine mounted athwartships Seat lockers for outboard fuel tank,warps, boathook etc Underfloor storage for kedge anchor (has been used for diving tanks) Cockpit cushions Boom hung covers for sun shade Stepped sterns one with swimming ladder Forward self draining deck lockers Port Anchor chain/rope warps fenders Stbd Ventilated for gas bottles x 3 Spinnaker Trampoline
Lobby Hanging locker/stowage for liferaft to port Navigation area with main switch panel/instruments and space for laptop to strd (Navigation on screen linked to GPS etc) Domestic batteries x 2 Underseat storage
Sliding door to Bridgedeck saloon with escape hatch in floor Forward opening hatch and roof hatches x 2 Table with folding leaves and upholstered seating for 7/8 (Occasional bunks for 2) 2 x 100L fresh water tanks/water pump Underseat and behind seat storage for tools/lifejackets/bosuns store/ documents/food/wine etc Bookshelf and set of drawers Radio/CD player with twin speakers Free standing fridge Access to calorifier Shore power socket and Sterling battery charger and immersion heater
Steps down to galley area with ventilation hatch Gas oven/grill Gas 4 burner hob /grill replaced 2012 Twin sinks with hand pump for fresh water and tap for pressurised hot water Sea water pump Storage for crockery/cutlery/pans etc Storage cupboards and drawers for food Vegetable rack Space for waste bag Access to rear of main switch panel Door to forward single cabin with lobby area, under bunk storage and stowage shelf Access to log and depth sounder fittings Hatch to foredeck Door to aft double cabin with lobby area, under bunk storage and stowage shelf Access to hydraulic drive leg Hatch to aft deck and ventilation hatch
Steps down to lobby with hanging locker and secondary switch panel Door to toilet/basin compartment with ventilation hatch Door to aft cabin as per strd hull Hot and cold taps Lavac sea toilet with holding tank and deck pump outlet Walkway from saloon to forward single cabin as Strd (no door) Access to shower compartment
Beta Marine 28HP diesel driving hydraulic pump (Spare hydraulic port available) Twin hydraulic drives with Gori folding propellors 200L fuel Calorifier for hot water Starter battery x 1 Domestic battteries X 2 Engine removed and overhauled 2012 Aluminum mast and boom Eurospars 2002 Forestay renewed and A frame re-bedded 2013 Lower shrouds renewed 2011/12 Mast rewired and running rigging replaced 2012/13 Radar reflector Lightning conductor/groundplate Fully battened mainsail slab reefing Lazyjacks Roller reefing genoa Storm jib Spinnaker All by Kemp 2002 Main and Genoa valeted 2012 Sailcover new 2012 Fenders warps etc Delta anchor with chain and rope Fisherman anchor Parachute sea anchor Drogue Bilge pump 4 Man Liferaft 3M aluminum hull RIB in stern davits with 6HP Evinrude outboard Autopilot Windspeed/log/depth GPS VHF Navtex Steering compasses x 2 Hand bearing Compass Fire extinguishers
The Eclipse 99 was developed by Richard Woods from his earlier Sagitta design. The extra length gave the opportunity to provide accommodation better suited to spending long periods aboard. His designs all feature wide beam and high bridge deck clearance The trampoline forward keeps weight away from the bow Catalyst was built to provide comfortable and safe cruising and the layout, construction, and engine installation all reflect this aim. This has resulted in a boat which is heavier than the design anticipated and therefore cannot be considered a ‘racing’ catamaran. Catalyst has sailed from England to Gibraltar, to Sardinia via Majorca, to Italy and Greece as far as Kos, and back. The twin propellers give excellent manoeuvrability enabling the boat to be turned almost in her own length. Engine controls are mounted on the coach roof to give maximum visibility
production Strider 24
plywood Romany 34
lightweight 14ft Zeta mainhull
Strike 15 trimaran at speed
28ft Skoota in British Columbia
10ft 2 sheet ply Duo dinghy
24ft Strider sailing fast
36ft Mirage open deck catamaran
Welcome to this, the Woods Designs web site which we hope you will find is an interesting and useful introduction to our range of boat designs.
Based in the UK, Woods Designs is run by Richard Woods and specialises in the design of multihulls for both home and professional builders. Founded in 1981 we now boast possibly the most comprehensive range of catamaran designs in the world.
Click here for stock designs, which range in size from 8' to 38' and types include beach catamarans, open deck cruising catamaran, bridgedeck cabin cruisers, racing catamarans and trailable boats. We also have six small trimaran designs, eight power cats and a few dinghies. Over the years we have designed a number of one-offs, up to 70ft, so if you don't see your ideal boat here please contact us with your requirements and we may be able to help you with an unlisted design.
Click on the photo, right, or use the link in the heading menu, to see the complete list.
Boats can be built in a range of materials of which the most popular include sheet ply, cold moulded ply, strip plank cedar and foam sandwich. Like most designers we do not offer plans for catamarans built in steel or aluminium.
Nearly 3000 plans and over 200 production catamarans have now been sold. Boats are sailing all over the world. Cruisers have made many comfortable ocean crossings in complete safety while the number of trophies won is testament to the speed of the racing designs.
This site is now very large, so please use the Search Button top left to help you navigate round the site.
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Ethical dilemmas for engineers charged with certifying and overseeing product safety.
All employees are expected to act according to their organization's Code of Ethics or Conduct, based upon the values of the organization.
Furthermore, product safety engineers are asked to: (a) Determine "safety" of products (b) Obtain various non-governmental agency certifications for products (c) Confirm that products comply with government regulations (d) Examine and test products according to various standards
They are required to do this using the minimum time, money, and number of product samples - usually at the end of the product development process, when changes are more difficult and everyone wants to ship products.
Scenario 1:
Some agencies authorize companies to test products, provide the data to the agency, and ship the product bearing the agency mark. The company's capability has been evaluated by the agency and a contract signed to allow this.
A new high-end computer is ready to ship - except for one test that you will not complete for another three weeks. The probability of failure is low - and even if the test fails, corrections can be made and sent out later to customers. Marketing is VERY anxious to ship because the end of the fiscal quarter is next week.
Should you put on the agency mark and ship while finishing the test?
Your boss tells you that this has occurred before; the company shipped the product, and there was no problem. He also says that if you do not want to sign off, then he will do so.
What should you do?
Products were shipped before this test was completed - but it happened when you were on a business trip. The production manager apologizes, but doesn't want to take any action.
Scenario 2:
The company records-retention policy instructs employees to discard development records and test results for products five years after End of Life is declared. This policy is in compliance with local legal requirements.
Because of the press of work you have not disposed of some old records, and they are a couple of years over the limit for the company policy. You finally get time to clean out your files, but you receive a legal request for any information about the old product that is involved in an injury case. Your records may or may not be applicable to the case.
Should you destroy the records?
Scenario 3:
You have just discovered that a country in the Far East has new regulations that apply to your product. The requirement is to submit a report and get a file number to apply to your product - after the government department has given its OK. However, you know from industry contacts that there is no enforcement of the law at this time.
Should you delay shipping products until they are compliant or take other action?
Products have been held at customs in this country, and you ask a local agent to investigate. Later you hear the products were released without any changes and without certification.
Should you look further into this event? Why or why not?
You make the identical product at two factories, but only one is authorized to apply a certain certification mark. Unfortunately, the wrong factory shipped the product to the country that requires the certification mark. Returning the product and shipping out the identical product with a different mark on the label would be very expensive and time-consuming, and your customer would be very unhappy.
What are your options?
Scenario 4:
Your company's product uses some supplementary circuit protection in larger units. While visiting the factory for another reason, you tour the production line and notice that the protectors are different from the ones you originally evaluated. They seem to have the same ratings, but you suspect they may not be suitable as a substitute.
This product is not your responsibility, and you would have to do some research to figure out if there is a problem.
What course(s) of action should you take to investigate the potential problem?
The production line supervisor tells you the substitution has been approved by the factory safety engineer, but you are positive these protectors are not suitable.
What should or could you do?
Scenario 5:
The latest edition of the standard that applies to your products now has three pages of "safety" markings and warnings specified. So many warnings about very unlikely situations greatly reduce the impact of warnings that might prevent dangerous events. You have actually surveyed customers and found that to be true.
Should you reduce the warning labels to only to the important ones or just follow the standards of the certification agencies?
Your marketing department wants you to color-coordinate and reduce in size the warning labels. The new version still would comply with the standard, but it would not stand out on the machine.
Should you resist the change?
The factory has a lot of old inventory with silk-screened markings that do not comply with the new requirements, although they did comply with the previous edition. To change them would cost thousands of dollars.
Should you let the company use up the old stock, although it is technically not in compliance?
John McBain is program coordinator for the Institute of Electrical and Electronics Engineers, Silicon Valley Chapter. James Balassone is executive-in-residence at the Markkula Center for Applied Ethics at Santa Clara University.
Let's talk..
The uneasy case for product liability.
In this Article we compare the benefits of product liability to its costs and conclude that the case for product liability is weak for a wide range of products. One benefit of product liability is that it can induce firms to improve product safety. Even in the absence of product liability, however, firms would often be motivated by market forces to enhance product safety because their sales may fall if their products harm consumers. Moreover, products must frequently conform to safety regulations. Consequently, product liability might not exert a significant additional influence on product safety for many products – and empirical studies of several widely sold products lend support to this hypothesis. A second benefit of product liability is that it can improve consumer purchase decisions by causing product prices to increase to reflect product risks. But because of litigation costs and other factors, product liability may raise prices excessively and undesirably chill purchases. A third benefit of product liability is that it compensates victims of product-related accidents for their losses. Yet this benefit is only partial, for accident victims are frequently compensated by insurers for some or all of their losses. Furthermore, the award of damages for pain and suffering tends to reduce the welfare of individuals because it effectively forces them to purchase insurance for a type of loss for which they ordinarily do not wish to be covered. Opposing the benefits of product liability are its costs, which are great. Notably, the transfer of a dollar to a victim of a product accident through the liability system requires more than a dollar on average in legal expenses. Given the limited nature of the benefits and the high costs of product liability, we come to the judgment that its use is often unwarranted. This is especially likely for products for which market forces and regulation are relatively strong, which includes many widely sold products. Our generally skeptical assessment of product liability for such products is in tension with the broad social endorsement of this form of liability.
April 20, 2010
The best of a bad lot: compromise and hybrid religious exemptions, strauss v. horton.
California Supreme Court Classifies Proposition 8 as "Amendment" Rather than "Revision."
Ninth Circuit Holds that Retroactive Application of SORNA to Juvenile Violates Ex Post Facto Clause.
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Bischofszell Food Limited (BINA) process agricultural products and preserve them, creating delicious food that is ready to cook, ready to eat, tasty and fresh. The keys to BINA's success – the best raw materials and efficient production, combined with a commitment to product safety and quality.
As a supplier to the MIGROS retail group, restaurant and catering sector, BINA must maximize its productivity and maintain consistent product quality. A sharp increase in demand for fresh salads in its home market drove BINA's recent decision to add a new production line for a range of 30 salad products within their Bischofszell factory.
Product Safety for Harsh Environments BINA's top priority is ensuring products are safe for consumers to eat. With the new line, the ability to comply with strict food safety standards was essential, as was product inspection equipment that could withstand harsh washdown conditions. With the new line needing to be integrated into the existing production facility a compact footprint was also highly desirable.
Click on the green button below to download the full case study.
"METTLER TOLEDO was able to provide a CombiChecker unit that could inspect products for metal contamination, but also check overfill levels at the same time. Our experience of previous CombiChecker systems from METTLER TOLEDO gave us confidence that the XS3 CombiChecker was the ideal solution for us for our new fresh line", commented Joachim Gründing Team Leader QM Food Safety.
Department Manager Thomas Buff praised the CombiChecker's ease of use commenting, "The touch panel interface is simple to operate and the reporting functionality is great for analysing product weight. Data is available on-screen, but can also be exported for further reporting and analyzis. Our systems are all SAPdriven, and the CombiChecker's internal software integrates with our Factory Information Systems to help us maximize productivity."
Complying with International Standards Compliance with international food safety standards, including International Featured Standards (IFS), is essential for global food processors like BINA. The visual signals provided by the system reassure operators that the system is operating to specified standards, and that products are safe for consumers.
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Case studies play a pivotal role in product management, serving as valuable tools to understand real-world scenarios, learn from past successes and failures, and shape future strategies. 🎯💡
In this article, we explore the significance of case studies in product management and how they provide actionable insights, inspire innovation, and drive effective decision-making. So, let's dive in and discover why case studies are an indispensable asset for product managers! 🕵️♂️💼💡
Case studies offer a glimpse into real-life product management experiences, showcasing the challenges faced, strategies implemented, and outcomes achieved. They provide an opportunity to learn from industry leaders and understand how they tackled complex problems, made critical decisions, and achieved success. 💡🎓📊
By analyzing case studies, product managers can uncover innovative approaches and creative solutions implemented by successful companies. These success stories can serve as a catalyst for fresh ideas, spark creativity, and inspire new ways of thinking. 🚀💡💭
Case studies not only highlight success stories but also shed light on failures and pitfalls encountered by organizations. By studying these failures, product managers can identify common pitfalls, avoid costly mistakes, and make informed decisions based on lessons learned from others' experiences. 🚫💸🚧
Each case study presents a unique context, market dynamics, and customer segments. By examining a range of case studies, product managers can gain insights into how strategies and approaches differ based on industry, company size, target audience, and other factors. This adaptability is crucial in developing customized strategies for their own products and markets. 📊🌍🔀
Case studies serve as concrete evidence to validate product decisions and gain stakeholder buy-in. By referencing successful case studies, product managers can showcase the effectiveness of their strategies and build confidence in their decision-making process. This can be particularly valuable when navigating complex organizational structures or addressing skeptics. 💪✅🗣️
Through case studies, product managers can identify areas of improvement, spot trends, and drive continuous innovation. By analyzing successful case studies, they can identify best practices to emulate and incorporate into their own product management processes. This constant quest for improvement ensures staying ahead in an ever-evolving market. 🔄📈💡
So, whether you are a seasoned product manager or just starting your journey, embracing case studies as a valuable resource can unlock invaluable insights, inspire innovation, and guide your product management decisions. 🎓🔍🚀
Now, let's delve into some captivating case studies and extract the pearls of wisdom they offer! 💎📚✨
Netflix is a global streaming service that offers a wide range of movies, TV shows, and original content. One of the key challenges for Netflix's product management team was to enhance personalization and content recommendation to improve user engagement and retention.
Spotify is a leading music streaming platform with millions of users worldwide. One of the key challenges for Spotify's product management team was to improve personalization and discoverability to enhance the user experience and increase user engagement.
Airbnb is a global online marketplace that connects travelers with hosts offering unique accommodations. As the platform grew in popularity, ensuring trust and safety became a critical focus for Airbnb's product management team.
Slack is a widely popular collaboration and communication platform used by teams worldwide. As it gained traction in the market, Slack faced challenges in user onboarding and adoption.
In product management, case studies serve as valuable resources for gaining insights, inspiring innovation, and driving effective decision-making. By analyzing real-world scenarios, product managers can learn from successes and failures, adapt strategies to different contexts, and validate and communicate product decisions. Case studies provide actionable insights, guide product management practices, and ultimately contribute to the success of products and businesses.
So, whether you're a seasoned product manager or aspiring to be one, embracing case studies as a source of inspiration and learning will help you navigate the dynamic landscape of product management and drive impactful outcomes.
Remember, each case study provides a unique perspective and set of lessons, so explore a diverse range of case studies to expand your knowledge and sharpen your product management skills.
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50 Product Management Case Studies
We often wonder what kind of process other product teams have created, planned, and most importantly, how they have implemented it. That is why we at Producter have compiled 50 different case studies for you.
2 years ago • 4 min read
We often wonder what kind of process other product teams have created, planned, and most importantly, how they have implemented it.
That is why we at Producter have compiled 50 different case studies for you.
Brought to you by Roadmape
“Engagement” is a term that is so overused in product management that it has almost lost its meaning. So often I’ve heard from teams, “We’ll measure the success of this test with engagement,” which could mean anything from feature click-through to bounce to we-aren’t-really-sure-this-will-drive-conversion-so-we’re-hedging-our-bet. Underneath, the reason this term has been co-opted and jargonized is that genuine, productive engagement can be ramped toward long-term customer loyalty. And loyalty pays off: a loyalty increase of 7% can boost lifetime profits per customer by as much as 85%, and a loyalty increase of 3% can correlate to a 10% cost reduction ( Brand Keys ).
As a data analyst supporting a mobile subscription business , Netflix’s Q1 ’21 subscriber growth miss is a classic example of when I would get called for recommendations to prevent a miss in the future. I thought this would make an interesting case study to discuss my approach to finding insights to drive subscriber growth. Sadly I’m not a Netflix employee and will be limited to publicly available data but the wealth of information on the Internet about Netflix is sufficient to generate insights for this case study.
As part of the Design Challenge from productdesign.tips, our team came together to find ways for Amazon to encourage more sustainability on their e-commerce platform. As with any unsolicited design project, the challenge comes with a lack of access to application analytics and technical feasibilities. Nonetheless, the question remains: How might we design checkout screens for an e-commerce app to help people recycle the goods they buy?
Quora has become a substantive resource for millions of entrepreneurs and one of the best sources for Business to Business market. Majorly used by writers, scholars, bloggers, investors, consultants, students this Q/A site has much to offer in terms of knowledge sharing, connection building and information gathering.
Jambb is an emerging social platform where creators grow their communities by recognizing and rewarding fans for their support. Currently, creators monetize fan engagement through advertisements, merchandise, and subscriptions, to name a few. However, this only represents 1% of fans, leaving the other 99% (who contribute in non-monetary ways) without the same content, access, and recognition that they deserve.
Summary: The project was done as a part of a user experience design challenge given to me by a company. I was given the brief by them to work on a feature of Spotify and I spent around 25–30 hours on the challenge in which I went through the entire process, from the research to testing.
Quick-fire question; what is the single most important and widely used feature in a phone — asides from texting and instant messaging friends, coworkers and family? Maybe you guessed right, perhaps this feature is so integrated into your life that you didn’t even think about it — either way, it is your phone’s GPS. It is reasonable to say that GPS technology has changed society’s lives in ways we never could’ve imagined. Gone are the days of using physically printed maps and almanacks, when we now have smartphones with navigation apps. Since the launch of the iPhone and the App Store, consumers have been able to use different apps for their personal navigation needs. Everyone has a preference, and apps have come out to try and address every need.
In 2018, Miro was hardly a blip on the radar in the Design world. Fast forward two years, and suddenly Miro is solidly the number one tool for brainstorming and ideation.
Click below to see the complete list 👇
Producter is a product management tool designed to become customer-driven.
It helps you collect feedback , manage tasks , sharing product updates , creating product docs , and tracking roadmap .
What is customer segmentation, learnings about product development strategy in 2022, keep reading, boost product management with slack: a comprehensive guide to producter's slack integration, mastering the art of product management: 10 essential strategies for success, what is user research.
In today’s fast-paced and highly competitive business environment, effective product management has never been more crucial. It is a strategic catalyst that drives innovation and shapes how companies respond to evolving market demands and consumer preferences. This article delves into product management by examining 20 diverse global case studies, each showcasing the profound impact and key learnings derived from some of the world’s most influential companies. From Apple’s groundbreaking entry into the smartphone market to Spotify’s transformation of music consumption, and Toyota’s efficiency-driven Lean Production Model, these case studies offer a panoramic view of how strategic product management can lead to revolutionary changes in various industries. The article aims to provide valuable insights into the challenges faced, solutions implemented, and the overarching effects of these strategies, revealing how companies like Airbnb, Tesla, Zoom, Slack, Samsung, Netflix, and Patagonia have not only achieved market success but also set new benchmarks and trends in their respective domains. Through this exploration, we aim to equip current and aspiring product managers and business leaders with practical knowledge and inspiration to navigate the complex landscape of product management, driving innovation and success in their ventures.
Related: How to Build a Career in Product Management?
Task/Conflict:
Apple’s entry into the already crowded mobile phone market was a bold move, particularly with the objective of introducing a product that wasn’t just another addition but a complete redefinition of what a mobile phone could be. The challenge was to innovate in a way that would not only capture the market’s attention but also set a new standard for user interaction, functionality, and design in the smartphone industry.
The solution lay in the development of the iPhone, a device that combined a phone, an iPod, and an internet communicator. This integration, coupled with a pioneering touchscreen interface and a focus on user experience, positioned the iPhone not just as a product but as an ecosystem. Apple’s emphasis on design, functionality, and user interface created a product that stood out from its competitors.
Overall Impact:
Key Learnings:
In an era dominated by music piracy and declining physical album sales, Spotify faced the daunting task of reshaping how people accessed and paid for music. The challenge was not only technological but also cultural, requiring a shift in consumer habits and a rethinking of the existing music industry’s business model.
Spotify’s approach was to introduce a user-friendly music streaming service, offering a vast library of tracks with both a free, ad-supported model and a premium subscription option. This strategy addressed the issues of accessibility and affordability while respecting the rights of artists and producers, thus presenting an attractive alternative to illegal downloads.
Toyota was confronted with the challenge of enhancing efficiency and reducing waste in their production processes. The automotive industry, characterized by intense competition and high operational costs, demanded a strategy that not only improved production efficiency but also maintained high quality.
Toyota implemented the Lean Production Model, a revolutionary approach focusing on ‘Kaizen’ or continuous improvement. This methodology involved streamlining the manufacturing process, reducing waste, and empowering workers to contribute to ongoing improvements. The Lean Model emphasized efficiency, flexibility, and a relentless pursuit of quality in production.
Airbnb aimed to carve out a new niche in the hospitality industry, which was traditionally dominated by hotels. The challenge was multifaceted, involving regulatory hurdles, building trust among users, and creating a reliable and scalable platform that connected homeowners with travelers seeking unique lodging experiences.
The solution was the creation of a user-friendly online platform that enabled homeowners to list their properties for short-term rental. This platform not only provided an alternative to traditional hotels but also fostered a sense of community and unique travel experiences. Airbnb focused on building a robust review system and transparent policies to overcome trust and safety concerns.
Related: History & Origin of Product Management
Tesla embarked on the ambitious goal of popularizing electric vehicles (EVs) as a sustainable and viable alternative to gasoline-powered cars. This task involved overcoming preconceptions about the performance, range, and practicality of EVs, as well as establishing the necessary infrastructure for their adoption.
Tesla’s approach was to develop high-performance, luxury electric vehicles that combined environmental friendliness with cutting-edge technology and stylish design. This strategy helped to change the perception of EVs from being seen as inferior alternatives to gasoline cars to desirable, high-tech vehicles. Tesla also invested in building a network of charging stations, further facilitating the practicality of EV ownership.
In a market crowded with various communication tools, Zoom faced the challenge of differentiating itself and proving its value. The goal was to provide a solution that was not only reliable and easy to use but also superior in terms of video and audio quality compared to existing offerings.
Zoom focused on creating a user-friendly platform that offered high-definition video and clear audio, even in low-bandwidth situations. This commitment to quality and reliability, combined with features like screen sharing, virtual backgrounds, and easy integration with other tools, made Zoom a preferred choice for businesses and individuals alike, especially during the COVID-19 pandemic.
Slack was developed with the vision of transforming the cluttered and inefficient landscape of workplace communication, dominated by email. The challenge was to create a platform that not only streamlined communication but also integrated various work tools to enhance productivity and collaboration.
The solution was an intuitive, chat-based platform that allowed for real-time messaging, file sharing, and integration with a wide range of work tools and applications. Slack’s focus on reducing the reliance on emails and consolidating communication into a single, searchable platform revolutionized team collaboration and internal communication in businesses.
Samsung’s challenge was to establish itself as a leader in the highly competitive and rapidly evolving consumer electronics market. This required keeping up with technological advancements and differentiating its products in terms of quality, innovation, and user experience.
Samsung’s strategy involved substantial investment in research and development, focusing on bringing innovative and high-quality products to the market. Their innovation commitment spanned various product categories, including smartphones, televisions, and home appliances. This focus on quality and technological advancement helped Samsung achieve a leading position in the global electronics market.
Related: Top Product Management Tools
Netflix’s journey began with the goal of transforming the traditional movie rental business. The challenge was to transition from a DVD rental service to an online streaming platform, requiring a technological shift and a change in consumer viewing habits and content distribution models.
The solution was a gradual but determined shift to an online streaming model, offering customers an extensive and ever-growing library of movies and TV shows. Netflix’s investment in original content and exclusive deals with production studios further enhanced their appeal. This strategic pivot catered to the growing demand for on-demand entertainment, free from physical media and broadcast schedules constraints.
In a clothing industry often criticized for environmental and ethical issues, Patagonia aimed to differentiate itself by committing to sustainability and ethical practices. The challenge was not only to maintain profitability but also to influence consumer behavior and industry standards towards more responsible practices.
Patagonia’s approach included using sustainable materials, ensuring transparency in their supply chain, and advocating for environmental causes. Their commitment extended to initiatives like repairing products to extend their lifespan and encouraging responsible consumption. This strategy appealed to environmentally conscious consumers and set a new standard for corporate responsibility in the clothing industry.
Microsoft faced significant challenges in adapting to the rapidly evolving technology landscape. The traditional software model of boxed products had grown increasingly obsolete due to a surge in cloud computing. Emerging competitors like Amazon Web Services and Google’s cloud platform gained momentum, providing flexible, scalable solutions that shifted the market’s preference away from on-premise software to on-demand, subscription-based models. Microsoft needed to transform its business approach and product portfolio to align with these market trends
Under CEO Satya Nadella’s leadership, Microsoft shifted focus to cloud computing, developing Azure as an end-to-end platform providing comprehensive infrastructure and software services. The company also transitioned its flagship Office suite to a cloud-based subscription model with Office 365. They emphasized flexibility, scalability, and security while ensuring seamless integration with existing Microsoft products. Investments in data centers globally and new pricing models enabled Microsoft to compete directly with other leading cloud providers.
Lego was at a crossroads in the early 2000s. The company had overextended its product lines, ventured into unrelated business areas, and faced fierce competition from digital entertainment sources like video games. The result was a decline in sales and profitability, jeopardizing the company’s future and threatening the iconic brand with irrelevance.
To rebuild its brand, Lego implemented a back-to-basics approach, refocusing on its core product, the Lego brick. It also streamlined its product lines and improved internal operations. Partnering with entertainment franchises such as Star Wars and Harry Potter, they launched themed Lego sets that resonated with younger generations. Lego expanded its reach into digital media with video games and movies like The Lego Movie, engaging customers through multiple channels and breathing new life into the brand.
Related: Inspirational Product Management Quotes
Dropbox faced the challenge of competing with tech giants including Google and Microsoft in the nascent cloud storage market. While these companies offered vast storage solutions integrated with their productivity suites, Dropbox needed to carve out a niche by appealing to users with an easy-to-use, reliable platform. They aimed to provide seamless file synchronization, security, and accessibility across devices.
Dropbox placed simplicity at the forefront, developing a cross-platform application that allowed users to sync files effortlessly across multiple devices. The system’s seamless synchronization and ease of use differentiated it from other cloud storage providers. They employed a freemium model that offered free storage with the option to upgrade for more capacity and features, attracting millions of users globally and enabling them to monetize their growing user base.
Nike, already a leader in sports apparel, faced stiff competition from rivals like Adidas and Under Armour. The company needed a unique strategy to differentiate its products and capture the loyalty of a diverse, increasingly demanding customer base. Customers wanted personalized experiences, and Nike aimed to address this by providing a solution that matched their specific preferences in athletic wear.
Nike launched the NikeID program, which allowed customers to personalize their athletic gear online, choosing colors, patterns, and custom text. This innovation expanded the company’s appeal to athletes and fashion-conscious consumers alike, helping them express their individuality while boosting engagement. By streamlining the customization process and leveraging digital technology, NikeID created an experience that could be replicated globally, resulting in increased brand loyalty and revenues.
Procter & Gamble (P&G), known for a vast portfolio of consumer goods, recognized that the traditional R&D process was becoming slower and costlier, hampering the company’s ability to innovate. With the proliferation of specialized knowledge worldwide, P&G realized that internal expertise alone wouldn’t suffice fulfill the increasing demand for new products across its various brands. They needed to find a way to tap into external innovation to stay ahead of the competition.
P&G launched the Connect + Develop platform, an open innovation initiative that invited inventors, academics, and other companies to submit ideas and collaborate on new products. This platform enabled P&G to access global expertise and accelerate the product development process by integrating external solutions with their own internal capabilities. The platform generated new partnerships that broadened P&G’s R&D reach and enhanced the product pipelines for various brands, significantly improving efficiency and innovation.
Adobe faced challenges with its traditional perpetual software licensing model, which was becoming outdated due to issues like piracy and inconsistent revenue streams. As competitors moved towards more dynamic, subscription-based models, Adobe needed to reinvent its business strategy to stay competitive and relevant in the digital content creation industry.
With the introduction of Adobe Creative Cloud, Adobe shifted from selling boxed software to a subscription-based model. This move provided customers with constant updates, cloud storage, and access to a suite of creative tools for a monthly fee. The transition addressed piracy issues and allowed Adobe to offer a scalable and continually improving product experience, leading to a more predictable and stable revenue stream.
Related: Reasons to Study Product Management
GoPro aimed to dominate the action camera market but faced the challenge of distinguishing itself from larger electronics manufacturers with broader product lines. The company needed to innovate continuously while fostering a strong brand identity that resonated with extreme sports enthusiasts and casual users alike.
GoPro focused on developing durable, high-quality cameras with unique features such as waterproofing and compact design tailored to capture extreme sports and adventure. They also built a robust community by leveraging user-generated content and social media, turning their customers into brand ambassadors. This strategy solidified their market position and expanded their customer base.
IBM recognized the potential of artificial intelligence early on but faced the dual challenge of developing cutting-edge technology and finding practical applications for AI in business. They needed to create a platform that could demonstrate AI’s capabilities and be applicable and beneficial across various industries.
IBM developed Watson, an AI system capable of understanding natural language and generating data-based hypotheses. Watson was first introduced to the public by participating in the quiz show Jeopardy!, where it challenged humans. Following this, IBM expanded Watson’s capabilities to serve industries like healthcare, finance, and customer service, showcasing its versatility and practical utility.
Facing increasing consumer awareness and demand for sustainable and ethical products, Unilever needed to integrate sustainability deeply into its business model without compromising on profitability and market competitiveness.
Unilever launched the Sustainable Living Plan, committing to halve its environmental footprint, improve health and well-being for more than a billion people, and sustainably sourcing 100% of its agricultural raw materials. This comprehensive strategy helped Unilever strengthen its brand loyalty among conscious consumers and drove long-term growth by reducing costs and innovating in product development.
Zara, part of the Inditex group, needed to maintain its edge in the highly competitive and fast-paced fashion industry. The challenge was to continually offer the latest fashion trends faster than traditional retailers, addressing the consumers’ desire for immediate gratification.
Zara implemented a unique business model, fast fashion, which involves rapid prototyping, small batch production, and an extremely efficient supply chain that can bring designs from the runway to store shelves in weeks. This approach kept inventory costs low and ensured that Zara’s offerings were always fresh, appealing, and aligned with current trends.
Related: Product Management Failure Examples
In conclusion, these case studies exemplify the transformative power of effective product management. They highlight the importance of understanding market needs, embracing innovation, focusing on user experience, and the value of ethical practices. Aspiring business leaders can draw valuable lessons from these examples to navigate challenges and drive success in their endeavors.
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This case study is based on the 2014 Citizenship and Sustainability Report by Johnson & Johnson pu blished on the Global Reporting Initiative Sustainability Disclosure Database that can be found at this link . Through all case studies we aim to demonstrate that CSR/ sustainability reporting done responsibly is achieved by identifying a company’s most important impacts on the environment and stakeholders and by measuring, managing and changing.
In keeping with its credo commitment that everything it does must be of high quality, Johnson & Johnson continues to take steps to ensure consistent and sustained high-quality, safe and effective products. After measuring and setting targets, Johnson & Johnson took action to promote the standardization and implementation of Johnson & Johnson’s Quality Policy across its family of companies, promote compliance through a closed-loop, independent audit approach, achieve an integrated and proactive approach to quality, safety and continuous improvement – for example, a Management Review Process requires each of Johnson & Johnson’s operating company’s executive management to continuously improve quality by reviewing its Quality System every six months – and, also, use its expertise to influence and shape regulations.
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What are the material issues the company has identified?
In its 2014 Citizenship and Sustainability Report Johnson & Johnson identified a range of material issues, such as access to and affordability of health care, global health, ethical performance, compliance, product pipeline. Among these, given the expanse of its product portfolio, its global presence and the highly regulated environment in which it operates, [tweetthis] promoting product quality and safety stands out as Johnson & Johnson’s top material issue [/tweetthis].
Stakeholder engagement in accordance with the GRI Standards
The Global Reporting Initiative (GRI) defines the Principle of Stakeholder Inclusiveness when identifying material issues (or a company’s most important impacts) as follows:
“The organization should identify its stakeholders, and explain how it has responded to their reasonable expectations.”
Stakeholders must be consulted in the process of identifying a company’s most important impacts and their reasonable expectations and interests must be taken into account. This is an important cornerstone for CSR / sustainability reporting done responsibly.
Key stakeholder groups Johnson & Johnson engages with:
Patients and others who use Johnson & Johnson’s products and services
| · Product packaging, labeling and package inserts · Customer call centers · Websites · Clinical trials · Email and conventional mail · Market research · Brochures · Product labeling and inserts |
Doctors/nurses/hospitals/health care providers | · Sales representatives · Continuing medical education liaisons · Education initiatives · Clinical researchers · Advisory boards · Support and education programs for caregivers · Email and conventional mail |
Communities
| · Interactions with civic organizations, business groups, schools · Community action panels · Open houses · Facility transparency pages posted to Johnson & Johnson’s Responsibility website · Community liaison · Annual report |
Employees
| · Credo survey · Intranet · Newsletters · Company webcasts · Town hall meetings · Company meetings · Government Affairs & Policy legislative update meetings · Quarterly business updates · Health Policy Excellence · Legislative position and external policy information via the Government Affairs & Policy website · Training sessions · Employee surveys · Work councils and union interactions |
External manufacturers, contractors, suppliers
| · Supplier website · Workshops · Trainings · Contract negotiations · Performance reviews · Webinars · Dialogue · Auditing |
Governments and regulators | · Government Affairs liaisons · Annual report · Direct contact · Lobbying · Johnson & Johnson Legislative Day in Washington, D.C., and similar events at U.S. state and national capitols worldwide · Visits to Johnson & Johnson facilities by state and national policy makers |
Industry organizations | · Participation in work groups, meetings, research efforts |
Shareholders and the investment community | · Annual report · Annual shareholders meeting · Investor updates · Press releases · Quarterly results presentations · Road shows · Broker conferences · Site visits · Dialogue · Direct contact |
NGOs and charitable organizations | · Direct contact · Dialogue · Collaborative partnerships · Annual reports |
Customers | · Direct contact through sales, customer relationship managers and members of management as required and/or appropriate |
Scientific Community | · Medical and scientific meetings · Training programs and facilities · Collaborative research efforts · Position paper development |
How stakeholder engagement was made to identify material issues
Stakeholder engagement at Johnson & Johnson is a constant, ongoing activity occurring at all levels of the organization. On any given day, Johnson & Johnson employees around the world engage with many different stakeholder groups that share Johnson & Johnson’s interests in advancing human health and well-being, stewarding a healthy environment and leading a dynamic and growing business responsibly.
Johnson & Johnson considers a variety of factors before engaging with stakeholders to ensure the most optimal outcome. Some of these factors include:
In 2013, Johnson & Johnson conducted a Citizenship & Sustainability materiality assessment to identify those topics of greatest interest to both Johnson & Johnson and its stakeholders; specifically, those reflecting Johnson & Johnson‘s significant economic, environmental and social impacts and those that could substantively influence the assessments and decisions of stakeholders. In 2014, the materiality assessment conducted in 2013 was expanded to include input from a larger group of external stakeholders. Over 200 geographically diverse customers/healthcare providers, universities, suppliers, NGOs and investors were invited to provide input to the process. Responses received were aggregated with the external stakeholder responses received in 2013 and a revised ranking of the material issues was generated.
In its 2014 Citizenship and Sustainability Report Johnson & Johnson set the following targets for promoting product quality and safety, based on the company’s approach to materiality – on taking action on what matters, where it matters:
True to its decentralized business model, each member of the Johnson & Johnson Family of Companies maintains its autonomy to best serve its customers at the local level. However, Johnson & Johnson has integrated its total approach to Quality so that it can speak as one company to all its stakeholders, including health authorities, customers and healthcare professionals worldwide. Four years ago Johnson & Johnson formed the Johnson & Johnson Quality & Compliance (J&J Q&C) organization to ensure the standardization and consistent implementation of its Quality Policy and Quality Policy Standards across the Johnson & Johnson Family of Companies. The Johnson & Johnson Quality Policy governs Johnson & Johnson’s operating companies to help ensure they design, make and deliver Johnson & Johnson’s products in a consistent way. A three-phased approach to deploy a common set of Quality Policy Standards was two-thirds complete. Phase 1 deployment completed December 2013; phase 2 completed December 2014; phase 3 was on track for completion by December 2015.
A closed-loop, independent audit approach is in place to help ensure facilities and external manufacturing sites operate in compliance to Johnson & Johnson’s Quality Policy and Quality Policy Standards, as well as health authority requirements. Johnson & Johnson has a clear and systematic process in place to remediate compliance gaps and minimize their impact on the customer experience. Results, current status and progress are all reported to business leaders and Johnson & Johnson company governing bodies to help them support their sites’ efforts to achieve compliance in a timely manner. In the first three-year cycle, all of Johnson & Johnson’s facilities have been audited. As part of the closed-loop audit program, all findings are tracked to successful completion. In 2015 the audit program was expanded to include external manufacturing sites, using a phased approach.
Johnson & Johnson is exploring new ways to continue to foster its proactive quality culture and use its expertise to engage in leadership roles with external stakeholders to influence and shape regulations, ensuring the Company continues to deliver safe and effective products to improve the lives of its patients and customers. In one example, Johnson & Johnson’s Pharmaceutical segment is piloting segment-wide metrics related to new leading indicators that the U.S. Food and Drug Administration (FDA) is considering to make requirements.
Which GRI indicators/Standards have been addressed?
The GRI indicator addressed in this case is: G4-PR1: Percentage of significant product and service categories for which health and safety impacts are assessed for improvement and the updated GRI Standard is: Disclosure 416-1 Assessment of the health and safety impacts of product and service categories
References:
1) This case study is based on published information by Johnson & Johnson, located at the link below. For the sake of readability, we did not use brackets or ellipses. However, we made sure that the extra or missing words did not change the report’s meaning. If you would like to quote these written sources from the original, please revert to the original on the Global Reporting Initiative’s Sustainability Disclosure Database at the link:
http://database.globalreporting.org/
2) http://www.fbrh.co.uk/en/global-reporting-initiative-gri-g4-guidelines-download-page
3) https://g4.globalreporting.org/Pages/default.aspx
4) https://www.globalreporting.org/standards/gri-standards-download-center/
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Home > Books > Solvents - Dilute, Dissolve, and Disperse - Insights on Green Solvents and Distillation
Submitted: 13 October 2023 Reviewed: 13 October 2023 Published: 01 February 2024
DOI: 10.5772/intechopen.1003801
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Nonylphenol is a very important product for the chemical industry due to its widespread use as a base for several other chemical products. Among the major industrial sectors that use nonylphenol is the production of non-ionic surfactants, which are used from the home and personal care industry to the agrochemical industry. This study aims to define the optimal or quasi-optimal operating conditions for the separation system, which is composed of packed columns. Using simulation tools, the best operating conditions are attained, and the dinonylphenol subproduct generation is minimized. The commercial simulator Aspen Plus ® was used for this study as the analysis tool for the mentioned objectives. The developed model is validated with technical data, measures are taken in a nonylphenol plant, and parameters are used in the same plant. From the obtained data from the plant, the best process performance is evaluated regarding cost-benefit analysis and safety concerns. The study shows a potential to reduce the subproduct production by 30% and the reboilers’ heat loads by 2%.
Julio cesar ribeiro nunes.
Fabio rodolfo miguel batista.
*Address all correspondence to: [email protected]
Nonylphenol is a very important reactant in the surfactant industry, and its main application is in ethoxylated non-ionic surfactants, which use about 80% of the produced nonylphenol [ 1 ]. Nonylphenol is produced by a reaction between phenol, nonene, and a basic catalyst. The various nonylphenol applications range from the home and personal care industry to the agrochemical industry.
In chemical terms, nonylphenol is an alkylphenol, hence a phenol derivative where one more hydrogen atom in the aromatic ring is replaced by alkyl radicals. The most important alkylphenols are composed of alkyl radicals that have 2–12 carbon atoms. Besides their use as non-ionic surfactants, alkylphenols are also used as phenolic resins, polymeric additives, and agrochemicals. Nonylphenol is produced from an alkene (nonene) by acid catalysis (Lewis acid or ion-exchange resin), ensuring the replacement of hydrogen by the alkyl radical in the aromatic ring [ 1 , 2 ]. The overall reaction is highly exothermic (−23.7 kcal/gmol) and reversible as presented in Figure 1 .
Nonylphenol synthesis overall reaction.
The overall reaction process synthesizes the isomers ortho-nonylphenol and para-nonylphenol, and the latter is the major product. Besides the main product, the process also produces dinonylphenol as a subproduct, and this occurs by the reaction between one nonylphenol molecule with one nonene molecule. Dinonylphenol is much less used in the chemical industry compared to nonylphenol. Hence, an optimal operating point must be defined to reduce the dinonylphenol production to the minimum possible value because if this subproduct is produced in relatively large quantities, then the plant profit is reduced.
A productive process understanding is required to achieve nonylphenol synthesis optimization. Such understanding is done by theoretical studies that allow technical analysis and plant operation planning. Simulation software is used to evaluate the process under several different conditions without interfering in the plant operation. Moreover, by using simulation software, the optimization studies can be better directed saving time and resources that would be spent if the studies were directed toward a non-optimal configuration.
Figure 2 presents the nonylphenol productive process used by a major chemical plant in southeastern Brazil. This particular process consists of the following three major unit operations: reaction, phenol recovery, and nonylphenol purification.
Process flowchart for the nonylphenol production process.
The phenol alkylation reaction occurs in two serial mixture atmospheric reactors and is filled with an acid ionic exchange resin bed. Reactor 1 (R-1) operates within an 80–130°C range, and Reactor 2 (R-2) operates within an 85–135°C range. The temperature increase is gradual and based on the accumulated production of 1°C for each 300 ton of produced nonylphenol [ 3 ]. The reaction feed stream contains a phenol excess. The major raw material cost comes from the nonene purchase; hence nonene is the limiting reactant. The feed stream contains trace amounts of water from the phenol and nonane. The overall formation selectivity is 96.3% nonylphenol, 2.7% dinonylphenol, and 1% heavier compounds [ 2 ].
The process is catalyzed by an acid ionic exchange resin that replaces a Lewis acid. The use of the resin catalyst reduces the raw material demand, yields less subproduct production, and allows better control of mixing parameters. On the other hand, using resin catalyst requires increased capital costs, and the catalyst activity decreases with time. Therefore, reaction control must account for the activity reduction to ensure efficient reactors’ operation.
As the name suggests, this stage aims for the recovery of the unreacted phenol. Distillation is the used separation method. A column (D-1) with structured packing (SULZER BX 50) separates phenol from the heavier compounds in the Reactor 2 (R-2) effluent. The column operating pressure ranges from 0.240 to 0.267 bar. The estimated maximum pressure drop from the bottom to the top is about 0.027 bar. Column D-1 temperature profile lies within the 135°C (top) to 256°C (bottom) range.
Column D-1 feed stream is composed of nonylphenol, dinonylphenol, phenol, nonene, nonane, and traces of water. Since nonane lowers the nonylphenol yield in the reaction process, Column D-1 operates with a partial condenser to separate nonane from the unreacted phenol. The vapor distillate stream is mostly composed of nonane, nonene, and water, while the liquid distillate stream is phenol-rich. The vapor distillate stream is condensed in the Nonane Condenser (E-2), and the outgoing condensed stream goes to storage. The liquid distillate stream is recycled to Tank TK-4 at the beginning of the process, so the recovered phenol is reused in the reaction.
Column D-1 bottom stream is composed of heavier compounds, mainly nonylphenol, and dinonylphenol. As the bottom stream does not meet commercial purity requirements for nonylphenol product, the bottom stream goes to Column D-2 to separate nonylphenol from dinonylphenol.
The final stage aims, as previously mentioned, the attainment of nonylphenol products complying with market specifications (minimum 95% purity). The purification is done in Column D-2, which uses structured packing (SULZER BX 50). This column operates at a high vacuum (0.067–0.073 bar). Therefore, the pressure drop in the column must be limited to a maximum of 0.007 bar. Column D-2 operating temperature range is from 216°C (top) to 277°C (bottom).
Nonylphenol at market specification is produced at Column D-2 distillate stream. The purified nonylphenol is then cooled in Exchanger E-6 and stored in Tank TK-7. Therefore, the bottom stream is mainly composed of dinonylphenol, which is also cooled (Exchanger E-7) and stored (Tank TK-8).
In the 1950s, chemical industries used more frequently packed columns as distillation equipment [ 4 ]. Usually, packed columns are used for the separation of mixtures with high relative volatility difference, hence mixtures that are relatively easy to separate [ 5 ].
Packed column interiors are basically completely filled with a packing, which is either packed or random. Unlike a plate column, there is no space between stages, and the only empty spaces in the column are at the top, the bottom, and around the feed stream inlet(s).
Random packing is made up of small components such as Rasching and pall rings. These components have defined dimensions and geometric shapes. The column interior is filled with packing but in a random manner. Hence, the packing distribution varies randomly with the column height.
While random packing does not have a definite design, structured packing is designed to be the same throughout the stage height. Structured packing is usually formed by perforated metallic sheets that have corrugated sections, in order to create multiple parallel channels in the packing. The structured packing design forces the liquid and vapor streams to flow in countercurrent through the channels forming a liquid film in the packing surface. In this manner, contact between the liquid and vapor is maximized in the structured packing [ 6 ].
The main downside of structured packing is the need for a high feed stream flow rate, otherwise, the liquid film formation throughout the column transversal area is compromised. Consequently, low feed stream flow rates can reduce the interphase contact in the column resulting in low-efficiency stages [ 7 ].
Compared to structured packing, random packing has a lower capital cost and is installed more easily. However, structured packing is more efficient regarding distillation and imposes a lower head loss. Moreover, depending on the random packing component distribution, a preferential path can be formed, short-circuiting the column, and drastically reducing column efficiency [ 8 , 9 ].
In packed columns, other internals are essential to avoid a non-uniform distribution, a preferential path formation, or even liquid flowing through the column’s internal wall. Among these internals, the main ones are the distributors and re-distributors [ 8 ].
Considering the nonylphenol production process, packed columns are fundamental for safe and large-scale production as shown in Figure 1 . However, as many thorough locus studies, process optimization finds problems due to plant operation requirements. To perform any study test, plant production can be seriously reduced or even halted, yielding a profit loss. Additionally, relatively drastic alterations in process conditions can compromise the ability of the plant to return to its original operating conditions. Consequently, process simulators can provide tools to investigate different operating conditions, and these simulators are nowadays widely used in chemical industries.
Many process simulators are only able to evaluate a process under a steady state. However, some process simulators can predict the system behavior in a transient state, and this means that the simulator can predict the system behavior when a perturbation occurs. For plants that have different operating regimes, meaning that the process must migrate from one steady state condition to a different one, some transient state process simulators can perform real-time optimization. Such resources enable simulated studies a greater versatility, and a more rigorous evaluation and closer to the system’s actual response. This is crucial for the financial assessment of the productive process [ 10 ].
However, the results attained by a process simulator are only as good as the process model built by the engineers responsible for the process simulation. Therefore, the simulation engineers must have a thorough technical knowledge of the process. This means selecting an accurate thermodynamic model must be selected, the adequate unit operations involved in the process, and also arranging these unit operations to create a coherent productive process. Simulation engineers must also correctly interpret the simulation results, in order to ensure that the simulated model predicts the actual operation with precision.
Nowadays, several chemical process simulators are commercially available or even available for free. Aspen Plus® software from Aspen Tech is one of the main available process simulators. This software has an extensive data bank that includes component parameters and unit operations. Hence, this data bank allows Aspen Plus® to achieve accurate simulation results for many processes, specifically for distillation.
The case study focuses on the nonylphenol-production separation system. Therefore, the study encompasses both the phenol recovery-packed column (D-1) and the nonylphenol purification-packed column (D-2). The system was simulated using Aspen Plus® and is shown in Figure 2 .
For the study development, technical data was obtained from an actual nonylphenol production unit. The data contains information related to the equipment, process operating parameters, and stream composition data, including feed streams’ composition and flow rate. With this information, the flowsheet is built in the Aspen Plus® software. For all the different evaluated conditions, optimization is performed to minimize the dinonylphenol production.
The first step in building the simulation model involved obtaining actual stream data, specifically Column D-1 feed stream and Column D-2 distillate stream. Additionally, the operating parameters for both columns were investigated. A 3-year time interval for data gathering was established from March 2016 to March 2019. The historical data was supplied by the nonylphenol plant. From the data, the average and the standard deviation were calculated, in addition to assessing superior and inferior limits. Only steady-state operation data was considered, so plant startup and shutdown operation data were disregarded. Table 1 presents the maximum and minimum values for Column D-1 feed stream and Column D-2 distillate stream.
Component | D-1 feed stream | D-2 distillate stream |
---|---|---|
Nonylphenol, %p | 50–70 | 95–100 |
Dinonylphenol, %p | 0–5 | 0–3 |
Phenol, %p | 20–40 | 0–1 |
Nonene, %p | 0–15 | 0–1.5 |
Water, %p | 0–0.5 | 0–0.2 |
Specification limits for separation system sampling points.
The ideal stream composition is defined to attain the case study objective. This is done by evaluating the periods when dinonylphenol was minimum. The plant production data is available in monthly intervals; thus 3 months were selected as the minimum dinonylphenol-production periods.
The definition of the selected thermodynamic model for the nonylphenol production system simulation is a crucial step for attaining accurate simulation results. The component’s thermodynamic, kinetic, and transport properties are evaluated using the adequate thermodynamic model [ 11 ]. In this manner, the component mixture thermodynamic relations and liquid-vapor equilibrium condition in the columns are precisely calculated, hence yielding accurate outgoing stream calculations.
Considering that the compounds present in the process are majorly very polar, that no electrolytes are present, and that the operating pressure is lower than 10 bar, the NRTL model was selected. Besides being the appropriate model in the decision tree given by the simulator, previous studies performed by the plant also used the NRTL model, and the results from these previous studies were deemed accurate.
With the selection of the NRTL thermodynamic model, simulations were performed with Aspen Plus® using the columns’ operating date from the unit process flow diagrams (PFD) and equipment data sheet. As these documents also contain the unit material balance for the design condition, this means that the simulation results can be compared with the material balance results.
The packed columns are controlled by the bottom temperature as specified by design. Therefore, this variable was defined as a parameter that must be met by the simulation results. Another important validation point is compliance with the expected outgoing stream composition. In this manner, the nonylphenol in Column D-2 distillate stream must also be met by the simulation results.
For the simulation validation, two situations were considered: comparative evaluation with design conditions and with actual operating conditions obtained from plant instrumentation. For the design scenario, Column D-2 feed and distillate stream compositions are obtained by using the unit material balance, the packed columns’ top and bottom temperatures, the reboilers’ heat loads, and the hot utility flow rate used in these reboilers. For the actual operating scenario, the distillate stream composition is compared with the stream analytical composition measurements, and also by the actual column top and bottom temperature, as well as the measured column temperature profile.
Two operating strategies are feasible to achieve dinonylphenol reduction, which is the study optimization objective. The first strategy consists in reducing the dinonylphenol in the reaction stage. The second strategy is for Column D-2 to produce a distillate stream (nonylphenol product) with the maximum allowable dinonylphenol content. This strategy can be interpreted as contaminating the nonylphenol product to the limit established by market specifications.
Using the 3-month low dinonylphenol yield, the average operating condition values were used as simulation input parameter values. In this manner, it is possible to compare the simulation results of the product outgoing streams for different flow rates. The results define the feed flow rate range that complies with the required production targets, and also the results show how dinonylphenol production varies according to the feed flow rate.
The simulation results also show how the reboilers’ heat loads vary with the feed flow rate. Hence, the hot utility (Thermex) consumption and the resulting operating costs are also evaluated.
Tables 2 and 3 show the main values for the stream operating variables (input and output) for the nonylphenol purification stage. The input variables are used for the simulation model configuration, and the output variables are compared with the simulation results, so the results can be validated.
Description | Average Jan/2017 | Average Jun/2018 | Average Mar/2019 |
---|---|---|---|
Product outgoing flow rate (nonylphenol) (kg/h) | 1519 | 1279 | 1077 |
D-2 top pressure (bar abs) | 0.0733 | 0.0733 | 0.0725 |
D-2 head loss from bottom to top (bar) | 0.0046 | 0.0026 | — |
D-2 top temperature (°C) | 211 | 211 | 210 |
D-2 bottom temperature (°C) | 261 | 262 | 263 |
D-1 feed flow rate (kg/h) | 3535 | 3030 | 2713 |
D-1 top pressure (bar abs) | 0.333 | 0.333 | 0.333 |
D-1 head loss from bottom to top (bar) | 0.018 | 0.015 | 0.012 |
D-1 feed temperature (°C) | 158 | 152 | 155 |
D-1 top temperature (°C) | 135 | 132 | 136 |
D-1 bottom temperature (°C) | 254 | 256 | 257 |
Average operating parameter values.
Stream | Component | Average Jan/17 | Average Jun/18 | Average Mar/19 |
---|---|---|---|---|
D-1 feed | Nonylphenol, %p | 51.13 | 49.32 | 48.32 |
Dinonylphenol, %p | 1.50 | 1.64 | 1.76 | |
Phenol, %p | 35.14 | 30.28 | 30.71 | |
Nonene, %p | 12.22 | 18.76 | 19.21 | |
D-2 distillate | Nonylphenol, %p | 98.01 | 97.55 | 97.20 |
Dinonylphenol, %p | 1.38 | 1.99 | 2.23 | |
Phenol, %p | 0.27 | 0.40 | 0.52 | |
Nonene, %p | 0.34 | 0.06 | 0.06 |
Average composition for D-1 feed stream and D-2 distillate stream (disregarding water content).
The average composition shown in Table 3 for Column D-1 feed stream was used as simulation input variables. Column D-2 distillate stream composition values are compared with the simulation results. The latter stream average flow rate is calculated for the result comparison. The table shows the production results for the period between 2017 and 2019. Notably, the nonylphenol product stream flow rate shows a decline tendency, since nonylphenol demand has also decreased. For the 3-year period, the average nonylphenol product flow rate is 1195 kg/h ( Table 4 ).
Year | Nonylphenol production (t) | Average hourly production (kg/h) |
---|---|---|
2017 | 9650 | 1469 |
2018 | 7728 | 1176 |
2019 | 6183 | 941 |
Nonylphenol average production.
2019 considers the production from January to March, and the projection for the remainder of the year.
Table 5 data were obtained from the plant project data. Reflux ratio and reboiler heat input data were obtained from the unit design specifications.
Input | D-1 | D-2 |
---|---|---|
Number of stages | 8 | 6 |
Condenser type | Total | Total |
Reboiler type | Kettle | Kettle |
Feed stage | 5 | 4 |
Column pressure | 0.240 bar abs | 0.0667 bar abs |
Hot utility | Thermex | Thermex |
Structured packing | Sulzer BX 50 | Sulzer BX 50 |
Reflux ratio | 0.1 | 0.1 |
Reboiler heat load | 343 Mcal/h | 146 Mcal/h |
Simulation input data for packed columns D-1 and D-2.
Although the actual Column D-1 condenser is a partial one, the simulation considered a total condenser for simplification purposes. The reason for the use of a partial condenser in column D-1 is for the nonane removal, which was not an objective of the study.
The used structured packing is Sulzer BX 50. The packing was inserted above and below the feed stage. The technical data used in the simulation was also obtained from the unit design data. For Column D-1, the upper part (rectification) packing has a 0.387 m diameter and encompasses Stages 2–4. This part of the column is 1.535 m in height and filled with packing. As for the lower part (stripping), the packing has 0.66 m diameter, and measures 1.345 m of height contemplating Stages 5–7. For Column D-2, the whole vessel has a 0.641 m de diameter. The rectification section is composed of Stages 2–3 and has a height of 0.68 m. The stripping section is composed of stages 4–5 and has a height of 1.195 m.
Thermex is the name of the hot utility used in reboilers. The fluid is the Dowtherm™. A saturated vapor at 280°C, as the design specified. From the fluid data sheet, the latent heat, and the overall heat transfer coefficient were obtained. The Thermex fluid parameter values are given in Table 6 .
Parameter | Value |
---|---|
Latent heat of vaporization (kcal/kg) | 68.0 |
Incoming temperature (°C) | 280 |
Outgoing temperature (°C) | 280 |
Overall heat transfer coefficient (kcal/h.m .°C) | 1282 |
Thermex (hot utility) properties.
According to design data, Thermex incoming and outgoing temperatures in the reboilers are equal, and this means that the Thermex vapor is saturated, and only latent is rejected from the hot utility.
Table 7 lists the input data for Column D-1 feed stream in the process simulation for the simulation model evaluation.
Parameter | Value |
---|---|
Flow rate (kg/h) | 4059 |
Temperature (°C) | 156 |
Nonylphenol, %p | 52.551 |
Dinonylphenol, %p | 2.434 |
Phenol, %p | 39.838 |
Nonene, %p | 5.177 |
Feed stream input data according to design data.
For the first simulation scenario, Column D-1 and D-2 bottom temperatures were set to 256°C and 277°C, respectively. The reboilers’ heat loads were varied so the required separation specification was met. Though the heat load values were kept close to the plant design value. The validation results are given in Table 8 .
Parameter | Design | Simulation | Variation |
---|---|---|---|
D-2 feed stream (kg/h) | 2231.8 | 2244.4 | 0.56% |
D-1 top temperature (°C) | 138 | 134 | −0.97% |
D-1 bottom temperature (°C) | 256 | 256 | 0.00% |
E-4 heat load (kcal/h) | 343,000 | 361,489 | 5.39% |
E-4 Thermex flow rate (kg/h) | 5170 | 5321 | 2.92% |
D-2 feed—nonylphenol, %p | 95.404 | 95.046 | −0.38% |
D-2 feed—dinonylphenol, %p | 4.427 | 4.402 | −0.56% |
D-2 feed—phenol, %p | 0.168 | 0.552 | 228.37% |
D-2 feed—nonene, %p | 0.001 | 0.000 | −74.54% |
D-2 distillate flow rate (kg/h) | 2164.5 | 2131.05 | −1.55% |
D-2 bottom flow rate (kg/h) | 67.2 | 113.35 | 68.67% |
D-2 top temperature (°C) | 215 | 209 | −1.22% |
D-2 bottom temperature (°C) | 277 | 277 | −0.05% |
E-5 heat load (kcal/h) | 146,000 | 158,418 | 8.51% |
E-5 Thermex flow rate (kg/h) | 2200 | 2332 | 5.99% |
D-2 distillate—nonylphenol, %p | 98.064 | 99.419 | 1.38% |
D-2 distillate—dinonylphenol, %p | 1.762 | 0.000 | −99.99% |
D-2 distillate—phenol, %p | 0.173 | 0.581 | 235.84% |
D-2 distillate—Nonene, %p | 0.001 | 0.000 | −73.19% |
Comparison between simulation results and design condition.
temperature variations were calculated using the temperature values in Kelvin.
Overall, the simulator was able to reproduce with good accuracy the actual conditions, although some discrepancies can be observed. Column D-1 bottom presented a very good correlation between simulated and actual data for both major components (nonylphenol and dinonylphenol). However, the simulation yielded a relatively higher phenol content at the bottom compared to the actual data. This occurs as the phenol quantity in the bottom stream is small in absolute numbers both in the simulated results and the actual date. Therefore, small deviations can result in high relative variation. As for Column D-1, both reboiler (E-4) heat load and Thermex flow rate present also low deviation values, 3% and 5% respectively.
For Column D-2 distillate stream, only nonylphenol and nonene presented low relative variation values, and the reason is similar to the one described for Column D-1 bottom stream. An important difference is in the dinonylphenol subproduct stream (bottom), where the simulation yielded a value 68% higher than the actual value. This difference can lead to false optimal points.
For the evaluated production months, Column D-1 feed stream properties are given in Table 9 .
Properties | Jan/17 | Jun/2018 | Mar/2019 |
---|---|---|---|
Flow rate (kg/h) | 3535 | 3030 | 2713 |
Temperature (°C) | 158.0 | 152.5 | 155.0 |
Nonylfenol, %p | 51.134 | 49.317 | 48.318 |
Dinonylphenol, %p | 1.502 | 1.641 | 1.762 |
Phenol, %p | 35.143 | 30.283 | 30.706 |
Nonene, %p | 12.220 | 18.759 | 19.214 |
Column D-1 feed stream properties.
Table 10 shows the comparison between simulation results using the D-1 feed stream average flow rate and composition for 2019, and the evaluated 3-month data.
Property | Average 2019 | Jan/2017 | Jun/2018 | Mar/2019 |
---|---|---|---|---|
Column D-2 feed stream flow rate (kg/h) | 1438 | 1376 | 1332 | 1309 |
Column D-1 top temperature (°C) | 134 | 131 | 127 | 127 |
Column D-1 bottom temperature (°C) | 256 | 256 | 256 | 256 |
Reboiler E-4 heat load (kcal/h) | 231,536 | 219,220 | 217,084 | 214,487 |
Reboiler E-4 hot utility flow rate (kg/h) | 3571 | 3381 | 3348 | 3308 |
D-1 Bottom stream—nonylphenol, %p | 95.046 | 96.627 | 96.258 | 95.957 |
D-1 Bottom stream—dinonylphenol, %p | 4.402 | 2.835 | 3.201 | 3.499 |
D-1 Bottom stream—phenol, %p | 0.552 | 0.538 | 0.540 | 0.543 |
D-1 Bottom stream—nonene, %p | 0.000 | 0.001 | 0.001 | 0.001 |
D-2 Distillate stream flow rate (kg/h) | 1364 | 1331 | 1284 | 1257 |
D-2 Bottom stream flow rate (kg/h) | 73.82 | 44.71 | 48.62 | 52.37 |
Column D-2 top temperature (°C) | 209 | 212 | 212 | 212 |
Column D-2 bottom temperature (°C) | 277 | 277 | 278 | 278 |
Reboiler E-5 heat load (kcal/h) | 101,467 | 99,733 | 96,331 | 94,417 |
Reboiler E-5 hot utility flow rate (kg/h) | 1565 | 1538 | 1486 | 1456 |
D-2 distillate stream—nonylphenol, %p | 99.419 | 99.444 | 99.438 | 99.433 |
D-2 distillate stream—dinonylphenol, %p | 0.000 | 0.000 | 0.000 | 0.000 |
D-2 distillate stream—phenol, %p | 0.581 | 0.556 | 0.560 | 0.565 |
D-2 distillate stream—nonene, %p | 0.000 | 0.001 | 0.001 | 0.001 |
Comparison between simulation results and plant data.
For both the simulation results and the evaluated 3 months, Reactor R-2 effluent stream has a low dinonylphenol content. Hence, D-2 bottom stream (dinonylphenol subproduct) flow rate is small compared to the D-2 distillate stream (nonylphenol product) flow rate. In comparison to Table 3 data, Table 10 shows a significantly lower dinonylphenol content in the D-2 distillate stream. A possible explanation for this difference is that the plant usually operates Column D-2 with a low reflux ratio to deliberately produce a high dinonylphenol content product stream but still in compliance with market demands.
Column D-2 temperature profile is not altered significantly with the flow rate. This is expected as feed composition has a much greater effect on column temperature than feed flow rate. The results prove that as composition varies, temperature varies significantly. Another parameter that has a direct influence on column temperature is the column operating pressure.
As the nonylphenol product becomes purer, the stream’s flow rate decreases. The lower dinonylphenol content in R-2 effluent makes the separation in Column D-2 easier and that can be noted in the lower reflux ratio. Hence, this reduces the plant’s operating cost.
Since composition has a larger effect on column performance than feed flow rate, simulation results are obtained for different dinonylphenol to nonylphenol ratios (DNF). The DNF ratios for the 3 evaluated months are given in Table 11 .
Period | Jan/2017 | Jun/2018 | Mar/2019 |
---|---|---|---|
DNF ratio | 0.034 | 0.038 | 0.042 |
Variation from 2019 average | −36.18% | −28.02% | −20.83% |
DNF ratio variation for the 3 evaluated months.
In January 2017, the largest DNF ratio variation occurred as the dinonylphenol content in D-2 feed stream reaches the lowest value. This means that for such composition, the D-1 distillate stream already meets market requirements, and this stream could even completely by-pass Column D-2.
As columns’ operating conditions are altered, an assessment of the reboilers’ heat loads is made. These heat loads have a direct influence on the hot utility heat load, and also on the financial expenditure to operate the reboilers. Table 12 shows the heat load values per nonylphenol produced.
Reboiler | 2019 average | Jan/2017 | Jun/2018 | Mar/2019 |
---|---|---|---|---|
E-4 (D-1) (kJ/kg NF) | 710.37 | 690.07 | 708.65 | 721.40 |
E-5 (D-2) (kJ/kg NF) | 316.01 | 313.94 | 314.46 | 314.19 |
Total (kJ/kg NF) | 1026.38 | 1004.01 | 1023.11 | 1035.59 |
Variation from 2019 average | −2.18% | −0.32% | −0.90% |
Simulation results for reboiler heat loads.
For Reboiler E-4, only in March 2019, the heat load surpassed the 2019 average values. For Reboiler E-5, the heat load is lower than the average 2019 value for all months. The same is repeated for the sum of both heat loads.
Therefore, by repeating January 2017 conditions, a 2% energy reduction is attained.
Thermex vapor is generated in a natural gas boiler. The following considerations are made: 100% efficiency in heat transfer from natural gas combustion to Thermex, the natural gas inferior calorific value of 33,500 kJ/m 3 , the natural gas density is 0.7902 kg/m 3 (IEA, 2019), and the natural gas cost is R$2.48/m 3 . Therefore, the heat load cost is 6.29.10 −5 R$/kJ. A financial assessment is made according to the mentioned values and Table 12 values. The results are given in Table 13 .
Jan/2017 | Jun/2018 | Mar/2019 | |
---|---|---|---|
Difference (R$) | −827.27 | −120.98 | −340.63 |
Expenditure variation for the heat loads’ sum in the 3 evaluated months.
Using the January 2017 value, the expenditure savings in a whole year could amount to R$ 9927.19.
Based on the months when dinonylphenol subproduct stream flow rate was minimal, the operating parameters of the nonylphenol production unit during these months are recommended as operating setpoints. As January 2017 presented the lowest dinonylphenol subproduct stream flow rate, the month’s parameters are given in Table 14 .
Parameter | Values |
---|---|
D-1 feed flow rate (kg/h) | 2600 |
Reactor conversion | 0.44 |
Nonene/raw phenol ratio | 1.36 |
Nonene/recycled phenol ratio | 0.588 |
D-1 reflux ratio | 0.1 |
D-2 reflux ratio | 0.1 |
D-1 operating pressure (bar abs) | 0.333 |
D-2 operating pressure (bar abs) | 0.0733 |
DNF/NF stream flow rate ratio | 0.0285 |
Recommended new operating setpoints.
As the purity of distillation column outgoing streams is defined according to process requirements, the distillation column design depends on the definition of two degrees of freedom: the column operating pressure and the reflux ratio (or the number of stages). Column operating pressure influences the equilibrium curve for the heavy and light key components, the column temperature, the condenser and reboiler heat loads, the condenser and reboiler exchange areas, the required utilities, the column diameter, and the column wall thickness, among other factors [ 12 ]. Therefore, defining the pressure is a crucial step in distillation column design.
The greatest challenge in defining the column operating pressure is that there is no established methodology for doing so, instead a handful of heuristics are often used and that can lead to sub-optimal designs [ 13 ]. Thorough optimization studies can be performed to attain a more cost-efficient design [ 14 ] but such studies are not always feasible as many economical parameters can be at the maximum, estimated with a reasonable degree of certainty. Even if the parameters were known, optimizing a distillation column is a time-consuming effort, and depending on the software and hardware used, the obtained solution is likely to be a local optimal and not a global optimal. That does not mean that operating pressure optimization should not be pursued but it means that engineers prefer to use heuristics to quickly attain a solution regardless of whether it is an optimal one or a feasible one.
In spite of optimization study difficulties, project and process engineers must comprehend the operating pressure effects on the distillation column operation. Firstly, relative volatility between light and heavy key components is usually inversely proportional to the operating pressure [ 15 ]. Hence, the lower the column operating pressure is, the higher the relative volatility is, and this means that at lower pressure, separation between key components can be made in fewer stages and with a lower reflux ratio. Evidently, how much pressure affects relative volatility depends on the components being separated. Using Column D-1 feed stream data from Table 7 , the minimum number of stages, minimum reflux ratio, and temperature profiles for Columns D-1 and D-2 are analyzed as a function of the column operating pressure. The results for pressure variation are given in Tables 15 and 16 . For Table 16 , the simulations are made for a D-1 operating pressure of 0.240 bar abs.
Operating pressure (bar) | Minimum number of stages | Minimum reflux ratio | Bottom temperature (°C) | Top temperature (°C) |
---|---|---|---|---|
0.213 | 3.28 | 0.0129 | 257 | 114 |
0.227 | 3.30 | 0.0134 | 259 | 116 |
0.240 | 3.32 | 0.0138 | 261 | 118 |
0.253 | 3.34 | 0.0142 | 263 | 119 |
0.267 | 3.37 | 0.0146 | 265 | 121 |
0.280 | 3.39 | 0.0150 | 266 | 122 |
0.293 | 3.41 | 0.0154 | 268 | 124 |
Column D-1 operating pressure variation effect.
Operating pressure (bar) | Minimum number of stages | Minimum reflux ratio | Bottom temperature (°C) | Top temperature (°C) |
---|---|---|---|---|
0.0600 | 3.08 | 0.0114 | 318 | 206 |
0.0633 | 3.10 | 0.0117 | 320 | 207 |
0.0667 | 3.11 | 0.0120 | 322 | 209 |
0.0700 | 3.13 | 0.0123 | 324 | 210 |
0.0733 | 3.14 | 0.0126 | 325 | 212 |
0.0767 | 3.15 | 0.0128 | 327 | 213 |
0.0800 | 3.17 | 0.0131 | 329 | 214 |
Column D-2 operating pressure variation effect.
As nonylphenol and dinonylphenol have a considerable difference in molecular weight, and consequently in relative volatility, the results in Tables 15 and 16 show that pressure variation has a small effect on the minimum number of stages and minimum reflux ratio. This small effect is also due to the relatively narrow simulated pressure variation range. As for the columns’ bottom and top temperatures, despite the very low pressures, the temperatures are high. This is expected since dinonylphenol is a large molecule with a very high boiling point. As a suggestion for the plant’s future optimization efforts, operating Column D-1 with an even lower pressure could yield a bottom temperature where Thermex could be replaced with high-pressure steam. As for Column D-2, this is not possible, as this column already operates near full vacuum.
The study aimed at subproduct (dinonylphenol) reduction and also heat load reduction. For these aims, a thorough investigation of the design conditions, and historical plant data was made to determine the months that yielded the lowest dinonylphenol production. The plant relies on two strategies to reduce the dinonylphenol production, and these are defining reactor conditions that minimize conversion of nonylphenol into dinonylphenol and increasing dinonylphenol content in the product (nonylphenol) stream to the maximum allowable composition. Aspen Plus® was the simulator used to investigate a new operating condition for the nonylphenol production unit to attain the study goals.
The results indicate that a 36% subproduct reduction is possible. This value is achieved by a comparative analysis between simulation results and data from months where subproduct production reached minimum values. By simulating the nonylphenol plant design conditions, operating parameters are obtained for the reaction, phenol recovery, and nonylphenol purification stages. These recommended parameters are validated using historical plant data. The new simulated condition reduces the reboilers’ heat loads, and this can lead to a 2% reduction in hot utility consumption.
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Published: 21 August 2024
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Meteor showers and comets are amazing occurrences to see, but no celestial event is as awe-inspiring as a total solar eclipse. The main reason is that a total solar eclipse is rarer than other eclipses, and the 2024 total solar eclipse will be particularly special — and spectacular.
Since the total eclipse will practically pass over the center of Maine, there are plenty of places from where you can watch this fascinating spectacle. Whether you’re a Mainer or a visitor, here’s everything you need to know about eclipses and when and where to see the 2024 total solar eclipse.
The 2024 total solar eclipse will pass through Maine on April 8, 2024, beginning at 3:28 p.m. EDT and ending at 3:35 p.m. EDT. The speed of the Moon’s shadow will travel an average 2,868 miles per hour across the state.
This rare event is drawing crowds from all corners of Maine and beyond, with many eager to catch the eclipse from wild, remote spots – imagine watching from a secluded lakeside or a mountain peak.
But there’s a catch – early April is famously known as mud season in Maine , a challenging time when the landscape transforms into a tricky mix of deep snow and deeper mud. Travel can become an adventure, with snow-covered roads, flooded streams, and thinning ice making the wilderness a tough place to navigate.
NOTE: Baxter State Park , the crown jewel home to Katahdin, shuts down most of its activities due to the unpredictable weather in the spring months and to protect the fragile alpine environment from damage. Every year, the thaw brings adventurers who, despite their best efforts, find themselves stuck in mud or slipping on ice. The park’s trails and roads close down to safeguard both visitors and the delicate ecosystems, making off-the-beaten-path explorations a bit unwise during this period. All trails on Katahdin are closed during April; all roads in Baxter State Park are closed in April; and the Park is completely closed to camping in April. So don’t plan on watching the eclipse from here.
Despite these challenges, Maine is rolling out the welcome mat for eclipse chasers, with special viewing spots and community events. If you’re heading there for the eclipse, stick to the paved roads and sidewalks for the best experience. Check out the links below for the best places to watch this celestial event.
An eclipse happens when the sun, moon, and Earth are aligned, changing how the sun and moon appear to us. Our sweet spot on this planet allows us to see this intriguing cosmic coincidence.
Eclipses are occurring less and less as time goes on, especially total solar eclipses. The reason is that the moon continues to be pulled away from Earth, so when it comes between the sun and our planet, it blocks out less of the sun. In the distant future, there will be no more total solar eclipses.
There are tons of interesting facts to learn about eclipses, but we’re going to list just a few of the most interesting here:
The 2024 total solar eclipse will occur on Monday, April 8, 2024. The path of totality is where the moon’s shadow is cast on the Earth as it completely blocks out the sun. Cities near but outside of this path will only see a partial solar eclipse.
In Maine, the path of totality is home to about 99,000 residents. And, tens of thousands of people are expected to visit various cities and towns across the state to watch, especially in Aroostook County where the eclipse will develop last and for some of the longest periods.
The center of the eclipse’s path will cross the Maine state line at about 2:18 p.m., and the totality phase will begin at about 3:28 p.m. at that location. Before crossing over the Canada border at about 4:41 p.m., the totality phase will end at about 3:35 p.m. in Maine.
Most of the path of totality passes over the more remote parts of Maine. But that shouldn’t stop you from planning a trip to watch it, especially since there are still numerous towns to go to. Here’s a look at several of these towns and some things to do while you’re here.
NOTE: We’ve provided the time of totality for each town below, but the partial eclipse will occur about 1 hour and 10 minutes beforehand. To get the most out of the experience, we recommend arriving at your chosen destination at least 2 hours before totality. The whole event will last about 2.5 hours.
The totality of the 2024 solar eclipse will occur in Rangeley at about 3:29 p.m., and it will last 2 minutes and 24 seconds. The Rangeley Lakes Region is hosting the Shadow of the Sun Festival for four days leading up to the eclipse, and the carefully curated schedule of events will be posted closer to the date.
And while you’re here, you can go skiing at Saddleback Mountain where they are hosting a Lights Out Party . Meanwhile, Sunday River is having a viewing party , Bethel is having a Celestial Spectacle event.
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In Carrabassett Valley, the totality phase will begin at about 3:29 p.m. and last for 2 minutes and 24 seconds. Sugarloaf is a great spot for skiing, and it’s hosting a Sugarloaf Skiclipse event.
At the center of the path, the totality phase will start at about 3:29 p.m. in Jackman and last 3 minutes and 26 seconds. The Versant Power Astronomy Center is even hosting special eclipse-viewing programs for the month running up to the phenomenon.
Plus, two beautiful spots to visit here are the Attean Pond and Overlook. You can see the surrounding mountains from the outlook. And, don’t leave before getting some maple syrup from Sawyer’s Maple Farm .
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In Bingham, totality will start at about 3:30 p.m. and last for 1 minute and 45 seconds. One way to explore this town and its remote areas is to hop on an ATV or a snowmobile. Nearby, The Forks has events happening, like the Northern Outdoors party. Magic Falls Adventures campground has sites available and eclipse-viewing opportunities.
ADVISORY: The ME Dept Ag, Conservation and Forestry warns, “The Maine Department of Agriculture, Conservation and Forestry advises that Maine State Park campgrounds are closed for camping during April. … Camping on Maine Public Lands in April is inadvisable to all but those who are self-sufficient and fully prepared to deal with difficult and highly changeable conditions.”
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The 2024 eclipse’s totality will start at about 3:30 p.m. in Moscow and last for 1 minute and 51 seconds. You can visit the picturesque Wyman Lake while you’re here.
In Greenville , the totality phase will begin at about 3:30 p.m. and last about 3 minutes and 2 seconds. Northeast Whitewater is hosting a BBQ.
RELATED: Greenville, Moosehead, and Rockwood Cabins, Hotels, and Lodging
Totality will begin in Dover-Foxcroft at 3:31 p.m. and will last almost 1 minute and 21 seconds. Here, the Center Theatre is offering reserved parking for the event for a fee.
The totality phase will begin at 3:31 p.m. in Millinocket and last for 2 minutes and 56 seconds. On eclipse day, this town will host the Millinockeclipse foot race, which you can sign up to participate in. You could also watch a performance at the Boreal Theater and check out other activities in the area .
RELATED: Millinocket Maine Hotels, Inns, Bed and Breakfasts, and Lodging
With Houlton near the center of the eclipse path, totality will begin at 3:32 p.m. and last 3 minutes and 18 seconds. This means that the town is one of the last places to view the phenomenon and has one of the longest periods of total darkness.
Expecting 10,000 to 20,000 onlookers, town planners have purchased 60,000 solar viewing glasses just in case more people arrive.
You can explore the 37-mile Southern Bangor & Aroostook Trail , which threads through the countryside from Houlton and through Monticello, Bridgewater, and Mars Hill before reaching the edge of Presque Isle.
Additionally, several community businesses have planned events — craft fairs, concerts, cross-country eclipse viewing and tracking, farmers’ markets, and a road race that lasts 3.32 km to match the time of totality.
From live music to viewing areas designated as Star Parks, the four days of events start the Friday before the eclipse, April 5. On top of that, nearby Island Falls Maine is hosting an Eclipse Fest with a free concert on Saturday, April 6.
RELATED: Houlton Maine | Things to Do | Hotels, Inns, and Lodging
Also near the center of the eclipse, the phase of totality will start in Mars Hill at 3:32 p.m. and last for 3 minutes and 12 seconds. Just before it closes, you may be able to enjoy a day at BigRock Mountain , a ski area that also has a snow tubing park and winter rollercoaster. When it comes to lodging, Tucker Ridge Outdoors is a fantastic option that’s offering solar eclipse packages.
NOTE: Houlton and Mars Hill are two of the last towns on this list to have a good view of the eclipse before it leaves Maine’s skies.
In Presque Isle , the 2024 eclipse’s totality will begin at 3:32 p.m. and last almost 2 minutes and 49 seconds.
Also, the city is gearing up to hold numerous events for the 10,000 to 40,000 visitors that it expects to host. Planners have already designated five viewing areas and expect to have a dedicated eclipse website with a map, a schedule of events, safety tips, and info about lodging and dining in the city during the spectacle.
RELATED: Presque Isle Maine | Things to Do | Hotels and Lodging
Totality will start at 3:32 p.m. in Caribou and will last for about 2 minutes and 10 seconds. Goughan’s Farm is a fantastic place to visit here, with several family-friendly activities to experience. Plus, the city is hosting activities, games, and concessions on eclipse day.
Before you leave, consider venturing to Limestone Maine to explore the 13 miles of foot trails and more at the Aroostook National Wildlife Refuge . You could even watch the eclipse — which will begin at 3:32 p.m. and last for 2 minutes and 8 seconds — at Loring Arch Air Hangar .
RELATED: Caribou Maine | Things to Do | Hotels and Lodging
The United States had a total solar eclipse on Aug. 21, 2017, so why is the 2024 total solar eclipse so special? One reason is that total solar eclipses don’t typically occur this close together or pass over so many regions and states.
Before the 2017 eclipse, the last coast-to-coast eclipse was on June 8, 1918. After 2024, the next coast-to-coast eclipse won’t be until Aug. 12, 2045.
Another reason is that the 2024 eclipse will pass over 13 states — entering from South Texas and exiting from Aroostook County Maine . It will give people in different states than the 2017 eclipse the opportunity to see this celestial spectacle.
With that path, many more large cities will be graced with totality, which will also last longer — up to 4 minutes and 27 seconds, nearly double that of the 2017 eclipse. In most cities, the eclipse will last from 3.5 to 4 minutes.
On top of that, the path of totality for the 2024 total solar eclipse will pass through three countries — Mexico, the United States, and Canada — spending the longest amount of time over our country.
When you’re watching the 2024 total solar eclipse, you will see several stages. Here’s an overview of each so that you know what to expect.
You’ll actually be able to see the moon slowly passing between the Earth and sun. When the moon first crosses in front of the sun, this moment is called “first contact.” Then, you’ll begin to see a partial eclipse, and this phase will last about 70 to 80 minutes.
Just before and after totality, you’ll see rapidly moving long, dark bands on the ground and the sides of buildings.
The turbulent cells in the Earth’s upper atmosphere distort the light from the sun — much like how it distorts light from stars, making them look as though they are twinkling. These shadow bands can be faint to see and hard to capture with a camera, though.
At about the same time, you will also see points of shining light around the edges of the moon. These Baily’s Beads are light rays passing through the valleys on the horizon of the moon. They are so short-lived that you’ll miss them if you look away.
As the Baily’s Beads start disappearing, only one bright spot will be visible along the edge of the moon. This diamond ring means that totality is just moments away.
When the moon is completely in front of the sun, its light will be totally blocked from view, and the sky will darken as if it’s dawn or dusk. This point of totality is also called ” second contact.” The closer you are to the center of the path of totality, the longer this phase will last.
During totality, you may see the chromosphere and corona. The chromosphere is a section of the solar atmosphere, and it appears as a thin, pink circle around the moon. The corona is the outer solar atmosphere, and it appears as white streams of light.
After totality, the sky will brighten again as the phases of the eclipse recur in reverse. This moment is also referred to as “third contact.”
You will see the diamond ring, then the Baily’s Beads and shadow bands, and then another partial eclipse as the moon continues its orbit. The moment that the moon no longer blocks any of the sun is referred to as “fourth contact.”
You likely know that sunlight is damaging to your eyes, which is why you should never look directly at the sun — even with sunglasses on. That’s why it’s so important to wear special protection while viewing a solar eclipse of any kind.
NOTE: Only lunar eclipses are safe to view with the naked eye and through binoculars or a telescope.
The cones and rods in the human retina are super light sensitive. During daylight, the iris contracts so that only a sample of light can pass through the eye lens to reach the retina. However, it only takes a thin sliver of sunlight to damage the eye if you look directly at it.
Looking directly at the sun can cause the appearance of dark or yellow spots in your vision, blurry vision, or even loss of vision in the fovea — the center of the eye.
It can only take about 100 seconds to permanently damage the retina, but it could happen quicker depending on sunlight intensity and other factors. Since there are no pain receptors in the retina, the damage can occur without you even realizing it.
To watch the various phases of the 2024 total solar eclipse without damaging your eyes, you have to wear ISO-certified glasses. ISO stands for International Standards Organization — a global organization that publishes detailed safety standards for many things, including eclipse-safe lens filters.
Even with ISO-certified glasses, you don’t want to look at the eclipse before and after totality for too long. The reason is that the sun’s infrared heat can warm your eye, dangerously overheating the fluids and tissues in your eye. To prevent that, look away from the eclipse every now and then to let your eyes cool off.
During the totality phase, though, it’s safe to remove your protective glasses because there’s no direct sunlight to damage your retina. Just make sure that you put the glasses back on before the totality phase ends.
If you want to capture photos or videos of every phase of the 2024 total solar eclipse, you must equip your camera with a special-purpose solar filter. Make sure that it fits snugly over the front of the camera lens. It’s only safe to remove this filter during totality.
Protecting your skin might be an afterthought because you’re going to view an eclipse, but you should protect it just like you do your eyes because you’ll be in direct sunlight for the majority of the event. Remember to wear sunblock, protective clothing, and a hat if necessary.
Yes, the only thing that can completely ruin the experience of a 2024 total solar eclipse is bad weather. You won’t be able to see anything if it’s too cloudy.
Unfortunately, meteorologists can only do so much to predict the weather. For that reason, it’s beneficial to have a backup plan — such as a second destination that you can reach in time for the eclipse if your first chosen location is a bust.
Understanding the weather in Maine can help you plan your visit to watch the 2024 eclipse. For instance, the western mountain areas tend to have more clouds. Mountains across the state can also create occasional waves of clouds that spread over the central and eastern regions.
To avoid missing the eclipse because of cloud cover, you could stay in a central location in Maine and choose your viewing location the evening or morning before the eclipse.
Since the 2024 total solar eclipse will be in early April, make sure that you pack warm too. Temperatures average a low of 27 degrees and a high of 40 degrees Fahrenheit.
Along with the weather being able to put a damper on seeing the eclipse, the eclipse itself may have four effects on the weather. With the sun’s light blocked from reaching the Earth during the total solar eclipse, the temperature can fall as much as 15 degrees Fahrenheit.
As the temperature drops, shallow clouds may dissipate because they require heat and moisture to sustain themselves — while deeper storm clouds will be affected less. The lower temperature can also cause the atmosphere to shrink and stabilize, which slows down winds.
In locations that are dry and warm, humidity can rise by 20% or more. Smaller differences can occur in already humid climates.
There are more than just partial and total eclipses, and there are even multiple types of lunar eclipses. On top of that, planetary transits can be seen from time to time. Here’s an overview of each of these cosmic events.
A solar eclipse occurs when the moon’s orbit moves in between the sun and Earth. Depending on the position of the moon in relation to distance from the sun and planet, you’ll see a total, annular, partial, or hybrid solar eclipse.
When the moon is close enough to the Earth, it becomes the same angular size as the sun. That’s possible because the sun is about 400 times wider than the moon but about 400 times the distance from Earth.
As a result, the moon can completely block the sun when it passes between the Earth and sun.
Since the orbit of the moon around Earth isn’t perfectly circular, it appears smaller than the sun when it passes between the sun and Earth at its farthest point from our planet. This position creates an annular eclipse, which appears as a ring of light around the moon.
When the moon passes between the sun and Earth but isn’t perfectly lined up, it only partially blocks the sun. This creates a crescent shape in the sky and a penumbra (lighter, outer) shadow on part of the planet. Technically, every solar eclipse is a partial eclipse from certain perspectives.
Since the surface of the Earth is curved, it’s possible for a solar eclipse to shift between total and annular as the moon moves between the planet and sun. This hybrid eclipse is the rarest type.
A lunar eclipse happens when the moon is on the opposite side of Earth from the sun. As a result, the shadow of Earth falls over the moon. You can see this type of eclipse from anywhere, and it can last for more than an hour.
When the moon is totally covered in the Earth’s shadow, it creates a total lunar eclipse. Because of how the sun’s light bends around the planet’s surface, the moon appears red instead of black.
When the Earth’s shadow only covers part of the moon, it creates a partial lunar eclipse. Like with the total lunar eclipse, the portion of the moon that is covered appears red.
The umbra is the darkest, central part of the Earth’s shadow created by the sun, while the penumbra is the lighter, outer part of the shadow. During a penumbral lunar eclipse, the moon is only touched by the Earth’s penumbra. Rather than turning the moon red, it only dims the moon’s appearance.
In addition to solar and lunar eclipses, we can see planetary transits. These occur when Mercury or Venus pass between Earth and the sun, so they appear as tiny black dots to us. They can be seen anywhere during the daytime and for up to several hours.
In a way, planetary transits are like miniature solar eclipses, but they are much rarer. Mercury transits only occur in May or November about 13 times per century, while Venus transits only occur in June or December twice within eight years of each other with 100-plus years in between each pair.
The Earth, moon, and sun have been aligning to create eclipses since before humans existed. However, the earliest record of an eclipse is Nov. 30, 3340 B.C. on a series of circular stone carvings at the Loughcrew Megalithic Monument in Meath Ireland.
Cultures across the globe keep records of total solar eclipses and study them. Plus, there are tons of legends and lore surrounding these celestial events.
NASA scientists use historic eclipse records to discover new things about the moon, sun, Earth, and space in general. For instance, they used the first Chinese records to conclude that the Earth’s rotation has slowed (though only slightly) in the past 3,200 years.
Scientists study new eclipses to answer fundamental questions about our solar system, such as the solar wind that can affect humans and technology. They can learn more about the Earth’s atmosphere too. Other data that they collect is only available during a total solar eclipse.
Over the centuries, people have had various reactions to and interpretations of solar eclipses. Many of these are based on fear.
For instance, the ancient Chinese believed it to be a “heavenly dog” devouring the sun and would beat on pots and drums to scare it off. It wasn’t the only culture to believe that a supernatural beast was devouring the sun, though:
These aren’t the only fear-related legends and lore surrounding total solar eclipses. The Japanese believed that poison would fall from the sky, so they would cover their water wells. Meanwhile, Transylvanians thought eclipses would bring plagues.
On top of that, some cultures still believe that eclipses cause pregnancy issues — birthmarks, blindness, and cleft lips. It’s believed that the Aztecs started these superstitions because they thought that the supernatural beast biting the sun would also bite the baby of a pregnant mother who watched the event.
Aside from fear, there are some happier, more uplifting legends and lore regarding solar eclipses. Some people in Italy think that planting flowers during an eclipse will result in more vibrant blooms.
Also, the Australian Aborigines, Germans, Native Americans, Tahitians, and West Africans interpreted eclipses as romantic events, bringing the sun and moon together as long-lost lovers. Meanwhile, some Native American Tribes believed that an eclipse was simply nature “checking in” with Earth.
Total solar eclipses have appeared in all types of media — from books to television. For example, there has been an eclipse in “The Simpsons,” Mark Twain’s “A Connecticut Yankee in King Arthur’s Court,” Stephen King’s “Dolores Claiborne,” and “Little Shop of Horrors.”
Eclipses have been featured in music as well, such as Bonnie Tyler’s “Total Eclipse of the Heart” and Carly Simon’s “You’re So Vain.” Additionally, the first commercial eclipse cruise was in 1972, and the first commercial eclipse flight was in 1974.
Are you excited to see the 2024 total solar eclipse in Maine? Start planning your cosmic getaway today for the experience of a lifetime!
Tiffany Betts is a staff writer and editor with more than 15 years of experience in the industry. In her free time, she loves spending time with her family and playing board and video games — often combining the two.
Hi There, Can anyone tell me what town or area is closest to Kittery Maine to experience the totality effect on April 8th? Part of the article says to stay in the central part of Maine due to the less possibility of cloud cover. I really want to see this having two dogs at home means I cannot stay away too long. Thank you
Hi Tamara, Did you get a response? Kittery is not near the path of totality. May I suggest you need to go well north of Bangor, even north of Lincoln to see the total eclipse. Can you get someone to keep your dogs overnight? Or bring them, but without a place to stay, it could be a not-very-relaxing trip for you. Wishing you good luck! Alison
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Travel+Discover Maine – The unofficial guide to exploring the great state of Maine. Not affiliated with any official tourism entities.
Copyright Travel+Discover Maine 2024 Images Courtesy Greg and Heather Burke unless otherwise noted.
This is Maine Public's hub for coverage of the 2024 Total Solar Eclipse that will cross over parts of Maine on the afternoon of Monday, April 8, 2024. Leading up to and on the day of the eclipse, Maine Public's news team will be all over the state, from Houlton to Jackman, bringing you stories and photos of the action. Find all that coverage right here.
Don't miss out on the action - follow our Facebook , Instagram and TikTok profiles for photos and videos on the day of the eclipse! Did you capture a stellar photo of the corona or crowds? Tag us @mainepublic on social media and we may share your post!
See what the eclipse will look like from your location.
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The 2024 total solar eclipse will occur on Monday, April 8, 2024. The path of totality is where the moon's shadow is cast on the Earth as it completely blocks out the sun. Cities near but outside of this path will only see a partial solar eclipse. In Maine, the path of totality is home to about 99,000 residents.
On Monday, April 8, 2024, a total solar eclipse will be seen from all parts of Maine. The eclipse begins about 2 p.m. and will last for approximately 2.5 hours, with the total eclipse at approximately 3:20 p.m. for 3 minutes of total darkness. Maine is one of thirteen states where the total solar eclipse will be visible.
This is Maine Public's hub for coverage of the 2024 Total Solar Eclipse that will cross over parts on Maine on the afternoon of Monday, April 8, 2024. Leading up to and on the day of the eclipse, Maine Public's news team will be all over the state, from Houlton to Jackman, bringing you stories and photos of the action.