The document discusses the importance and principles of ecodesign. It notes that designers have significant influence over how products are consumed and can help reduce environmental and social impacts through design. Ecodesign considers the full lifecycle of products from production to disposal and aims to minimize waste and environmental harm at each stage. The document provides examples of how ecodesign strategies have helped reduce companies' environmental footprints.
Circular Economy - And Open Source + Hacking As Paths To It Lars Zimmermann
A presentation with an introduction to Circular Economy highlighting Open Source and Hacking as promising methodologies to make progress with it. / by Lars Zimmermann http://larszimmermann.de
Circular Economy - And Open Source + Hacking As Paths To It Lars Zimmermann
A presentation with an introduction to Circular Economy highlighting Open Source and Hacking as promising methodologies to make progress with it. / by Lars Zimmermann http://larszimmermann.de
Northern California Compactors, Inc. has installed over 4,000 systems throughout the United States, with the majority of the installations done in California. However, with our nationwide network of technicians we also have performed installations in Oregon, British Columbia, Hawaii, Virginia, Louisiana, Tennessee, Florida, Maryland, Illinois, Pennsylvania, Texas, Nevada, Idaho and Washington.
Website: https://www.norcalcompactors.net/
Shifting Mainstream Consumption Patterns Towards a Circular Economy Transition Ksenia Benifand
Shifting Mainstream Consumption Patterns Towards a Circular Economy Transition
by Ksenia Benifand was submitted to OCAD University in partial fulfillment of the requirements for the degree of Master of Design in Strategic Foresight & Innovation
Toronto, Ontario, Canada, April, 2015
Abstract
This Major Research Project (MRP) explores how we might shift mainstream consumption patterns as we transition towards the Circular Economy.
The research identifies essential circular consumption behaviour patterns, motivating drivers for choosing the behaviours, and barriers that may hinder adoption if not addressed. Strategies and case studies for cultivating and accelerating new social norm conditions and external contexts necessary to foster and support circular patterns of consumption are also examined. Finally, consumer engagement strategies and recommendations are proposed as guidance for organizations transitioning into circular modes of value exchange or business models, and for policy makers and advocates looking to support the circular economy transition.
Basic model of our Circular Economy Academy initiative. Connecting systems thinking, economical perspectives and practical business. Also attention for capacity-building. We cab perform this in-company: djj@opai.eu
This presentation helps you to discover what is circular economy and what are the opportunities of this new model.
In a few slides, you can easily understand the issues on resources and the methods to improve materials, products or components value and life span.
Summary - Circular economy course by Technical University of DelftVikas Pandey
Summary of the below 7 episodes from the course
(https://online-learning.tudelft.nl/courses/circular-economy-design-and-technology/)
Episode 1: What is the circular economy?
How can the circular economy provide solutions to the challenges our current, linear economy brings? We explore the roots of the circular economy together with experts in the fields of industrial ecology, cradle to cradle and biomimicry.
Episode 2: Business value in a circular economy
Through closed-loop supply chains and reversed logistics, new opportunities for business are created. This episode explores value creation and new business models in a circular economy.
Episode 3: Longer lasting products
The smaller the loop, the greater the profitability of the system. We look at product life extension through the eyes of designers and entrepreneurs.
Episode 4: Remanufacturing
Remanufacturing enables companies to recapture value on a product or component level. It is currently being rediscovered as a promising business opportunity. We'll explore the topic together with researchers and entrepreneurs.
Episode 5: Waste equals Food
This episode discusses how we can take inspiration from nature when redesigning the way we deal with waste. We'll present a fascinating circular case study. Can you identify opportunities for change in your own area's?
Episode 6: Thinking in systems
The shift from linear to circular should not be underestimated. This episode will discuss the extent and duration of the transition. It will also ask, is the circular economy really sustainable?
Episode 7: Giving back. Takeaways and narratives.
Explanation of the currently all-over-the-place Circular Economy concept in a policy context. Showcase and discussion on examples that implemented a combination of strategies on both sustainable material management, business and value networks. Some new tools will get you further on the circular road as a path of innovation.
Northern California Compactors, Inc. has installed over 4,000 systems throughout the United States, with the majority of the installations done in California. However, with our nationwide network of technicians we also have performed installations in Oregon, British Columbia, Hawaii, Virginia, Louisiana, Tennessee, Florida, Maryland, Illinois, Pennsylvania, Texas, Nevada, Idaho and Washington.
Website: https://www.norcalcompactors.net/
Shifting Mainstream Consumption Patterns Towards a Circular Economy Transition Ksenia Benifand
Shifting Mainstream Consumption Patterns Towards a Circular Economy Transition
by Ksenia Benifand was submitted to OCAD University in partial fulfillment of the requirements for the degree of Master of Design in Strategic Foresight & Innovation
Toronto, Ontario, Canada, April, 2015
Abstract
This Major Research Project (MRP) explores how we might shift mainstream consumption patterns as we transition towards the Circular Economy.
The research identifies essential circular consumption behaviour patterns, motivating drivers for choosing the behaviours, and barriers that may hinder adoption if not addressed. Strategies and case studies for cultivating and accelerating new social norm conditions and external contexts necessary to foster and support circular patterns of consumption are also examined. Finally, consumer engagement strategies and recommendations are proposed as guidance for organizations transitioning into circular modes of value exchange or business models, and for policy makers and advocates looking to support the circular economy transition.
Basic model of our Circular Economy Academy initiative. Connecting systems thinking, economical perspectives and practical business. Also attention for capacity-building. We cab perform this in-company: djj@opai.eu
This presentation helps you to discover what is circular economy and what are the opportunities of this new model.
In a few slides, you can easily understand the issues on resources and the methods to improve materials, products or components value and life span.
Summary - Circular economy course by Technical University of DelftVikas Pandey
Summary of the below 7 episodes from the course
(https://online-learning.tudelft.nl/courses/circular-economy-design-and-technology/)
Episode 1: What is the circular economy?
How can the circular economy provide solutions to the challenges our current, linear economy brings? We explore the roots of the circular economy together with experts in the fields of industrial ecology, cradle to cradle and biomimicry.
Episode 2: Business value in a circular economy
Through closed-loop supply chains and reversed logistics, new opportunities for business are created. This episode explores value creation and new business models in a circular economy.
Episode 3: Longer lasting products
The smaller the loop, the greater the profitability of the system. We look at product life extension through the eyes of designers and entrepreneurs.
Episode 4: Remanufacturing
Remanufacturing enables companies to recapture value on a product or component level. It is currently being rediscovered as a promising business opportunity. We'll explore the topic together with researchers and entrepreneurs.
Episode 5: Waste equals Food
This episode discusses how we can take inspiration from nature when redesigning the way we deal with waste. We'll present a fascinating circular case study. Can you identify opportunities for change in your own area's?
Episode 6: Thinking in systems
The shift from linear to circular should not be underestimated. This episode will discuss the extent and duration of the transition. It will also ask, is the circular economy really sustainable?
Episode 7: Giving back. Takeaways and narratives.
Explanation of the currently all-over-the-place Circular Economy concept in a policy context. Showcase and discussion on examples that implemented a combination of strategies on both sustainable material management, business and value networks. Some new tools will get you further on the circular road as a path of innovation.
Sustainability in Packaging: Insight from Big Ideas 2017Amcor
Creating a circular economy is challenging, and recycling is key to success. Based on insights from Big Ideas 2017, our SlideShare explains why choosing more Sustainable Packaging should be a top priority for your business.
'Can the construction industry embrace the concept of the cirular economy, where materials are contunally reused?' The RIBA Journal invited Vincent van der Meulen to join a round table of experts to consider the issues.
A keynote by Frank (Ecodesign Centre) on good design given at the "iSustain Symposium. ‘Does it pay to be green?" organised by the Institute of Sustainable Design (ISD)
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
This is a hands-on session specifically designed for automation developers and AI enthusiasts seeking to enhance their knowledge in leveraging the latest intelligent document processing capabilities offered by UiPath.
Speakers:
👨🏫 Andras Palfi, Senior Product Manager, UiPath
👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...
Creative futures event wrexham
1.
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5. designers interact between industry, users and other actors industry consumers design
6. Is this the end user? 98% of products are thrown away within 6 months Image source: Chris Jordan source: Edwin Datschefski & United Nationa University
11. designers can influence how people consume, use, behave … design industry consumers
12. ecodesign is concerned with reducing environmental and social impacts through better design 80% of environmental impacts can be locked-in at the design stage
16. results? reduce water, energy & diesel by more than 60% p/a. 8,500 tonnes less paper consumed 20 million megajoules of electricity saved 1 million litres less fuel oil used 1 million litres of water saved by replacing traditional shopping bags they will save almost 275 tons of plastic. results?
17. ecodesign requires life cycle thinking take make waste buy/use most designers are concerned with these stages re-use re--manufacture recycle
18. design for…. full life cycles life cycles, nutrient cycles, material selection, cradle to cradle image source: mc donagh / braungart
19. investigate the internal and external drivers for packaging, product or service (re)design. these drivers could include legislation, customers, new technology, competition. assess the environmental impacts of the packaging and product. map the life cycle so you understand where these impacts occur. identify where materials and energy is used and where waste is produced. select ecodesign strategies that will allow designers to tackle the main environmental impacts. explore the compromises and trade-offs. involve others from marketing, sales, production, purchasing. develop a clear brand and marketing strategy to reflect and communicate the environmental improvements. consider how the packaging will impact upon the brand. rethink assess communicate design 1. 2. 3. 4.
31. Believes be driven by your own motivation “ I set up Emiliana from home, as a way to combine my design skills with my principles.” (Emma Kidd) www.kaospilot.dk emilianaunderwear.wordpress.com
32. Create Change and diversity www.blaencamelbox.com Image source: Ezio Manzini
35. The era of Open Innovation? Source: Chesbrough (2003)
36. The era of Open Innovation? Source: Chesbrough (2003)
37. Normal breadth Extended breadth Divergent Explorative Creative () possibilities Convergent Development Analytical (analysis and decision) Two-Part Linear Creative Design Process Source: Mike Goatman (Cranfield 2009)
38. creativity design innovation generation of new ideas based on insight insight/expertise/ capabilities process that links creativity and innovation expertise/capabilities/policies/procedures successful exploitation of new ideas internal capabilities culture factors that influence adoption people/business /design/ innovation/arts Source: Mike Goatman (Cranfield 2009)
40. "Everybody is a genius. But if you judge a fish by its ability to climb a tree, it will live its whole life believing that it is stupid.” Albert Einstein Insanity: doing the same thing over and over again and expecting different results. Albert Einstein
INNOVATION-ELASTOMER SNAP FIT-DISASSEMBLY RISK REDUCE PART NUMBERS RECYCLED CONTENT = GOOD DESIGN
23 May 2007 NewScientist.com David Cohen "I GET excited every time I see a street cleaner," says Hazel Prichard. It's what they collect in their sacks that gets her juices flowing, because the grime and litter they sweep up off the streets is laced with traces of platinum, one of the world's rarest and most expensive metals. The catalytic converters that keep exhaust pollutants from cars, trucks and buses down to an acceptable level all use platinum, and over the years it is slowly but steadily lost through these vehicles' exhaust pipes. Prichard, a geologist at the University of Cardiff in the UK, reckons that tonnes of the stuff is being sprayed out onto the world's streets and highways every year, and she is hunting for places where it is concentrated enough to be worth recovering. One of her prime targets is the waste containers in road-sweeping machines. This could prove lucrative, but Prichard is motivated by something far more significant than the chance of a quick buck. Platinum is a vital component not only of catalytic converters but also of fuel cells - and supplies are running out. It has been estimated that if all the 500 million vehicles in use today were re-equipped with fuel cells, operating losses would mean that all the world's sources of platinum would be exhausted within 15 years. Unlike with oil or diamonds, there is no synthetic alternative: platinum is a chemical element, and once we have used it all there is no way on earth of getting any more. What price then pollution-free cities? It's not just the world's platinum that is being used up at an alarming rate. The same goes for many other rare metals such as indium, which is being consumed in unprecedented quantities for making LCDs for flat-screen TVs, and the tantalum needed to make compact electronic devices like cellphones. How long will global reserves of uranium last in a new nuclear age? Even reserves of such commonplace elements as zinc, copper, nickel and the phosphorus used in fertiliser will run out in the not-too-distant future. So just what proportion of these materials have we used up so far, and how much is there left to go round? Perhaps surprisingly, given how much we rely on these elements, we can't be sure. For a start, the annual global consumption of most precious metals is not known with any certainty. Estimating the extractable reserves of many metals is also difficult. For rare metals such as indium and gallium, these figures are kept a closely guarded secret by mining companies. Governments and academics are only just starting to realise that there could be a problem looming, so studies of the issue are few and far between. Armin Reller, a materials chemist at the University of Augsburg in Germany, and his colleagues are among the few groups who have been investigating the problem. He estimates that we have, at best, 10 years before we run out of indium. Its impending scarcity could already be reflected in its price: in January 2003 the metal sold for around $60 per kilogram; by August 2006 the price had shot up to over $1000 per kilogram. Uncertainties like this pose far-reaching questions. In particular, they call into doubt dreams that the planet might one day provide all its citizens with the sort of lifestyle now enjoyed in the west. A handful of geologists around the world have calculated the costs of new technologies in terms of the materials they use and the implications of their spreading to the developing world. All agree that the planet's booming population and rising standards of living are set to put unprecedented demands on the materials that only Earth itself can provide. Limitations on how much of these materials is available could even mean that some technologies are not worth pursuing long term. Take the metal gallium, which along with indium is used to make indium gallium arsenide. This is the semiconducting material at the heart of a new generation of solar cells that promise to be up to twice as efficient as conventional designs. Reserves of both metals are disputed, but in a recent report Ren� Kleijn, a chemist at Leiden University in the Netherlands, concludes that current reserves "would not allow a substantial contribution of these cells" to the future supply of solar electricity. He estimates gallium and indium will probably contribute to less than 1 per cent of all future solar cells - a limitation imposed purely by a lack of raw material. To get a feel for the scale of the problem, we have turned to data from the US Geological Survey's annual reports and UN statistics on global population. This has allowed us to estimate the effect that increases in living standards will have on the time it will take for key minerals to run out (see Graphs). How many years, for instance, would these minerals last if every human on the planet were to consume them at just half the rate of an average US resident today? The calculations are crude - they don't take into account any increase in demand due to new technologies, and also assume that current production equals consumption. Yet even based on these assumptions, they point to some alarming conclusions. Without more recycling, antimony, which is used to make flame retardant materials, will run out in 15 years, silver in 10 and indium in under five. In a more sophisticated analysis, Reller has included the effects of new technologies, and projects how many years we have left for some key metals. He estimates that zinc could be used up by 2037, both indium and hafnium - which is increasingly important in computer chips - could be gone by 2017, and terbium - used to make the green phosphors in fluorescent light bulbs - could run out before 2012. It all puts our present rate of consumption into frightening perspective (see Diagram). Our hunger for metals and minerals may not grow indefinitely, however. When Tom Graedel and colleagues at Yale University looked at figures for the consumption of iron - one of our planet's most plentiful metals - they found that per capita consumption in the US levelled off around 1980. "This suggests there might be only so many iron bridges, buildings and cars a member of a technologically advanced society needs," Graedel says. He is now studying whether this plateau is a universal phenomenon, in which case it might be possible to predict the future iron requirements of developing nations. Whether consumption of other metals is also set to plateau seems more questionable. Demand for copper, the only other metal Graedel has studied, shows no sign of levelling off, and based on 2006 figures for per capita consumption he calculates that by 2100 global demand for copper will outstrip the amount extractable from the ground. So what can be done? Reller is unequivocal: "We need to minimise waste, find substitutes where possible, and recycle the rest." Prichard, working with Lynne Macaskie at the University of Birmingham in the UK, has found that platinum makes up as much as 1.5 parts per million of roadside dust. They are now seeking out the largest of these urban platinum deposits, and Macaskie is developing a bacterial process that will efficiently extract the platinum from the dust. Other metals could be obtained in equally unorthodox places. Cities are huge stores of metals that could be repurposed, Kleijn points out. Replacing copper water pipes with plastic, say, would free up large quantities of copper for other uses. Tailings from worked-out mines contain small amounts of minerals that may become economic to extract. Some metals could be taken from seawater. "It's all a matter of energy cost," he says. "You could go to the moon to mine precious materials. The question is: could you afford it?" These may sound like drastic solutions, but as Graedel points out in a paper published last year ( Proceedings of the National Academy of Sciences , vol 103, p 1209), "Virgin stocks of several metals appear inadequate to sustain the modern 'developed world' quality of life for all of Earth's people under contemporary technology." And when resources run short, conflict is often not far behind. It is widely acknowledged that one of the key motives for civil war in the Democratic Republic of the Congo between 1998 and 2002 was the riches to be had from the country's mineral resources, including tantalum mines - the biggest in Africa. The war coincided with a surge in the price of the metal caused by the increasing popularity of mobile phones ( New Scientist , 7 April 2001, p 46). Similar tensions over supplies of other rare metals are not hard to imagine. The Chinese government is supplementing its natural deposits of rare metals by investing in mineral mines in Africa and buying up high-tech scrap to extract metals that are key to its developing industries. The US now imports over 90 per cent of its so-called "rare earth" metals from China, according to the US Geological Survey. If China decided to cut off the supply, that would create a big risk of conflict, says Reller. "The US imports 90 per cent of its 'rare earth' metals from China" Reller and Graedel say urgent action is required. Firstly, we need accurate estimates of global reserves and precise figures for consumption. Then we need to set up an accelerated programme to recycle, reuse and, where possible, replace rare elements with more abundant ones. Without all this, any dream of a more equitable future for humanity will come to nothing. Governments seem, at last, to be taking the issue seriously, and next month an OECD working group will be convened to come up with some of the answers. If that goes to plan, we will soon at least have a clearer idea of the problem. Whether any solution to looming global shortages can then be found remains to be seen. From issue 2605 of New Scientist magazine, 23 May 2007, page 34-41 . Last updated: 2009-08-20 ( ISO 8601 )