The document discusses a project by the Northwest Construction Knowledge Hub to provide knowledge and assistance to small construction firms in reducing waste and carbon emissions. The project aims to help 200 small firms, safeguard 300 jobs, and create 300 new jobs. It will work with various partners like universities to offer businesses support to improve environmental performance, reduce energy and resource use, and adopt more sustainable practices. The overall goals are to minimize carbon emissions from buildings and divert waste from landfill in line with government policies.
This document provides an agenda for a session on funding policies and biopower. It includes:
1) An overview of biopower including traditional and modern uses as well as environmental impacts.
2) A discussion of political support for renewables through various policy instruments.
3) An interview with an expert from the UNFCCC on international climate policy and negotiations.
GIZ is a German government-owned development agency that works in over 130 countries to promote sustainable development. It focuses on issues like economy, governance, health, energy, and environment. In the energy sector, GIZ supports projects related to basic energy access, renewable energy, energy efficiency, and energy policy. For refugees and displaced people, GIZ aims to bridge humanitarian aid and development by providing integrated energy access solutions for refugees and host communities, as well as job training. In Kenya, GIZ is working to improve access to cooking and electricity in Kakuma refugee camp by introducing improved cookstoves, exploring alternative fuels, and increasing access to lighting and power for homes and social services. Future plans include expanding these programs and
Green Building Business Opportunity Seminar 17.9.2015_le dainBusiness Finland
Green building refers to environmentally responsible and resource efficient construction practices throughout a building's lifecycle. It involves balancing buildings and the sustainable environment. Key components of green building include energy efficiency, renewable energy, water efficiency, environmentally preferable materials, waste management, toxics reduction, indoor air quality, and smart growth. Finland offers expertise in areas like building information modeling, cleantech, energy efficiency, renewable energy, smart buildings, sustainable materials, and waste management. Green buildings can help reduce energy use, water consumption, electricity use, and carbon emissions according to the EPA and IFC. A 2015 survey found growing adoption of and opportunities for green construction globally.
africa re:load 18 Dauck - Innovative Buildingmaterials for Africaicebauhaus
EcoLife Technology develops housing solutions for Africa based on innovative, easy to manage technology that uses local, renewable raw materials. It has a partnership with EiABC to develop quality, affordable housing. EcoLife uses a dry extrusion process to convert agricultural waste fibers like straw into strong, insulating building panels that provide high thermal and sound insulation while being resistant to pests and fire. An EcoLife production facility could be operational in Africa within 12 months with an initial output of 1,800 houses per year.
Had an opportunity to visit Berlin Energy Transition Dialogues dialogue.Uploading is the file which was presented at a workshop in ISEC Bangalore where we are showcasing the work happening in Germany and also mentioning in India we need to look at our energy deficit scenario with a lot differently.
Sustainable Development, Ashok Baran Chakraborty, ONGCBusiness Finland
1) ONGC focuses on sustainable development through carbon and energy management, water management, waste management, low carbon/renewable energy projects, and capacity building.
2) Specific areas discussed include developing a carbon footprint and identifying mitigation opportunities, optimizing energy use, implementing water conservation and reuse projects, studying thermal destruction and conversion of waste, and exploring uses for agricultural and CO2 waste.
3) ONGC publishes annual sustainability reports and is interested in collaborating in areas like desalination, waste reuse, CO2 conversion, renewables, and new energy technologies.
The document discusses a project by the Northwest Construction Knowledge Hub to provide knowledge and assistance to small construction firms in reducing waste and carbon emissions. The project aims to help 200 small firms, safeguard 300 jobs, and create 300 new jobs. It will work with various partners like universities to offer businesses support to improve environmental performance, reduce energy and resource use, and adopt more sustainable practices. The overall goals are to minimize carbon emissions from buildings and divert waste from landfill in line with government policies.
This document provides an agenda for a session on funding policies and biopower. It includes:
1) An overview of biopower including traditional and modern uses as well as environmental impacts.
2) A discussion of political support for renewables through various policy instruments.
3) An interview with an expert from the UNFCCC on international climate policy and negotiations.
GIZ is a German government-owned development agency that works in over 130 countries to promote sustainable development. It focuses on issues like economy, governance, health, energy, and environment. In the energy sector, GIZ supports projects related to basic energy access, renewable energy, energy efficiency, and energy policy. For refugees and displaced people, GIZ aims to bridge humanitarian aid and development by providing integrated energy access solutions for refugees and host communities, as well as job training. In Kenya, GIZ is working to improve access to cooking and electricity in Kakuma refugee camp by introducing improved cookstoves, exploring alternative fuels, and increasing access to lighting and power for homes and social services. Future plans include expanding these programs and
Green Building Business Opportunity Seminar 17.9.2015_le dainBusiness Finland
Green building refers to environmentally responsible and resource efficient construction practices throughout a building's lifecycle. It involves balancing buildings and the sustainable environment. Key components of green building include energy efficiency, renewable energy, water efficiency, environmentally preferable materials, waste management, toxics reduction, indoor air quality, and smart growth. Finland offers expertise in areas like building information modeling, cleantech, energy efficiency, renewable energy, smart buildings, sustainable materials, and waste management. Green buildings can help reduce energy use, water consumption, electricity use, and carbon emissions according to the EPA and IFC. A 2015 survey found growing adoption of and opportunities for green construction globally.
africa re:load 18 Dauck - Innovative Buildingmaterials for Africaicebauhaus
EcoLife Technology develops housing solutions for Africa based on innovative, easy to manage technology that uses local, renewable raw materials. It has a partnership with EiABC to develop quality, affordable housing. EcoLife uses a dry extrusion process to convert agricultural waste fibers like straw into strong, insulating building panels that provide high thermal and sound insulation while being resistant to pests and fire. An EcoLife production facility could be operational in Africa within 12 months with an initial output of 1,800 houses per year.
Had an opportunity to visit Berlin Energy Transition Dialogues dialogue.Uploading is the file which was presented at a workshop in ISEC Bangalore where we are showcasing the work happening in Germany and also mentioning in India we need to look at our energy deficit scenario with a lot differently.
Sustainable Development, Ashok Baran Chakraborty, ONGCBusiness Finland
1) ONGC focuses on sustainable development through carbon and energy management, water management, waste management, low carbon/renewable energy projects, and capacity building.
2) Specific areas discussed include developing a carbon footprint and identifying mitigation opportunities, optimizing energy use, implementing water conservation and reuse projects, studying thermal destruction and conversion of waste, and exploring uses for agricultural and CO2 waste.
3) ONGC publishes annual sustainability reports and is interested in collaborating in areas like desalination, waste reuse, CO2 conversion, renewables, and new energy technologies.
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.
Living Future21019_The RESTORE Project_C.Battisti (2019_05)RESTORE
COST is supported by the EU Framework Programme Horizon 2020. This presentation is about COST Action RESTORE CA16114, which is supported by COST and aims to rethink sustainability towards a regenerative economy. COST Action RESTORE includes over 130 organizations from 40 countries working on topics like regenerative design, construction, technology, and scaling solutions. It has held several conferences, workshops, and training schools over its 2017-2021 timeframe.
REthinking Sustainability TOwards a Regenerative Economy. The RESTORE project.RESTORE
This presentation summarizes the COST Action RESTORE project, which is supported by the EU Framework Programme Horizon 2020. The project brings together over 130 organizations and researchers from 40 countries to take a multi-disciplinary approach to rethinking sustainability and transitioning to a regenerative economy. It does this through five working groups focused on areas like restorative design, building and operations, and technology. The project has included several conferences, workshops, and other activities over its 2017-2021 timeline.
Circular Economy and Clean Energy Towards Achieving the 2030 SDGsCircular Economy Asia
The document discusses waste to energy and the circular economy in relation to achieving the UN Sustainable Development Goals. It provides context on SDG 7 which aims to ensure access to affordable, reliable, sustainable and modern energy. Examples are given of how waste can be converted to biogas and clean energy. The circular economy is defined as an industrial system that eliminates waste and aims for resource restoration. Practical solutions discussed include industrial symbiosis and closed loop production. Case studies look at biomass utilization in Japan and waste treatment following disasters.
Natura capital in Green Economy - from regional insights to global partnershipMarianne Kettunen
The document discusses natural capital and its role in a green economy. It provides examples of programs that recognize the value of natural capital through payments for ecosystem services in Mexico, Sweden, the US, and Finland. These programs have resulted in reduced deforestation, improved water quality, flood prevention, and improved water quality. The document also discusses Nordic business innovations utilizing natural resources and a program in Tanzania where nature restoration improved access to resources and economic opportunities. It promotes using natural capital accounting to provide a foundation for green economies.
This document summarizes the FIBIC Seminar 2013, which included presentations on various topics related to the forest industry such as efficient fibre supply, resource efficient fibre technologies, new cross-cluster opportunities, future biorefineries, new cellulose products, sustainable bioenergy solutions, and collaborative innovation. It also summarizes FIBIC's updated strategy for 2013-2015, which focuses on creating competence platforms through research programs and projects to facilitate industry renewal, utilizing various funding sources, including new partners, and maintaining research volume while increasing business-led consortium programs. Key performance indicators include business impact, platform attractiveness, and scientific significance. In closing, obstacles like IPR issues need to be addressed to fully realize the competence platforms
The document summarizes the SUSTAINABLE BIOENERGY SOLUTIONS FOR TOMORROW (BEST) program, a joint research program between FIBIC Ltd. and CLEEN Ltd. The BEST program aims to create a comprehensive picture of the bioenergy field by researching biomass feedstocks, technologies, sustainability, strategies and policies, bioenergy carriers, and markets. The program brings together Finnish bioenergy sector actors to develop world-class expertise and take advantage of global bioenergy opportunities. Key research areas include future scenarios, biomass availability, sustainability frameworks, improving bioenergy supply chains, and new market opportunities such as in India. The two phase program runs from 2013-2014 and 2015-2016 with a
The document discusses the transition to a bio-based economy as the sixth industrial revolution. It presents UPM's EffNet program which focuses on resource efficiency, renewable and recyclable products, and innovation. The program supports UPM's continued improvement in reducing waste, water usage, and carbon emissions per tonne of paper produced. It also aims to integrate UPM's current operations and expertise into new knowledge areas and businesses like biocomposites, biochemicals, and renewable diesel to capitalize on wood's potential as a raw material. UPM is recognized as a sustainability leader and its total sustainability score has improved above industry averages.
Exxon Mobil is going to make $3 billion in carbon sequestration investments over the next five years. What can you invest in to profit from this activity? There will be many ways to reduce carbon dioxide and potential carbon sequestration investments go forward.This forty page document discusses land use, reforestation, planting trees on unforested land, and preserving wetlands as well as giving a nod to technologies for storing carbon dioxide.
https://youtu.be/5-LlYi3howQ
Osaka City has overcome past issues with pollution through collaborative efforts. Land reclaimed from waste and soil is now used for green energy projects and hosting Expo 2025. The city aims to reduce GHG emissions 30% by 2030 through initiatives like promoting recycling, reducing food and plastic waste, and developing geothermal and hydrogen energy. International partnerships help spread Osaka's environmental strategies to other cities.
The document outlines Japan's Fifth Basic Environment Plan, which aims to create a sustainable circular economy through six priority strategies and regional cooperation.
The strategies include developing a green economic system, improving land use, sustainable community development, healthy lifestyles, environmental technologies, and international leadership. The plan aims to establish "Regional Circular and Ecological Spheres" where cities, rural areas, rivers and seas cooperate on resource sharing, local production/consumption, and renewable energy. It also details measures to address climate change, resource circulation, biodiversity and disaster recovery in line with international agreements like the Paris Accords.
The document discusses circular economy approaches in ASEAN countries. It finds that while resource consumption is increasing with economic growth, circular economy concepts can improve resource efficiency in manufacturing. Current circular economy approaches aim to integrate social inclusion and business value with resource efficiency gains. More comprehensive indicators are still needed to measure progress. Three R (reduce, reuse, recycle) approaches are effective starting points but further innovations in technical and financial models are important for successful regional adoption of circular economies. Increased focus on waste-to-energy markets and e-waste streams, as well as sharing economy models, can also help circular economy implementation in ASEAN.
Japan is taking both international and domestic actions to address marine plastic pollution. Domestically, Japan will raise awareness, accelerate collection and treatment of marine litter, and revise laws. Internationally, Japan will support developing countries to reduce plastic waste and deliver on commitments in the G7 Ocean Plastics Charter. Japan will also promote best practices through a "Plastics Smart" campaign and present these at the 2019 G20 in Japan to contribute to global solutions for marine plastic pollution.
The Nordic countries are global leaders in climate change initiatives and circular economy efforts. They have historically focused on reducing energy emissions but are now also targeting material production emissions. Key initiatives include industrial symbiosis, green construction, and public procurement programs. Most have set carbon neutrality goals for 2040-2050. Finland was the first country to release a circular economy roadmap in 2016. Denmark, Sweden, and Norway have also released national circular economy strategies or roadmaps. Iceland focuses on renewable energy and carbon capture. The Nordic Council of Ministers promotes circular economy collaboration and projects across sectors through the Nordic Cooperation program.
This document outlines key opportunity areas for an EU research and innovation policy agenda on nature-based solutions. It identifies four main goals: 1) enhancing sustainable urbanization, 2) restoring degraded ecosystems, 3) developing climate change adaptation and mitigation, and 4) improving risk management and resilience. For each goal, nature-based solutions could address environmental, social, and economic challenges in sustainable ways. Specifically, for sustainable urbanization, nature-based solutions support green economic development, environmental protection, and social well-being in cities facing increasing urbanization.
A workshop was held in the IFSC on December 8th 2016, looking at financial incentives to promote citizen investment in renewable energy. The workshop was organised by Dr. Celine McInerney, Cork University Business School, and Joseph Curtin, UCC. It was funded by the EPA Research programme.
This document provides information about AktivPlus e.V., a non-profit organization in Germany that promotes energy efficiency and sustainability in the real estate sector. It develops standards for buildings and districts. As a competence network, it shares knowledge between members and discusses with political stakeholders. It also transfers knowledge to experts and clients. The document outlines AktivPlus' steering committee, advisory board, timeline, intended standard criteria, specification, certification (AktivPlus Ausweis), tools, case studies of certified buildings including their energy concepts and balances, and targets for CO2 emissions and life cycle costs.
The EU has a strategy to stop species and habitat decline by 2020 through Natura, a network of 26,000 protected areas covering 20% of EU land. The EU aims to support sustainable activities in these areas and avoid overusing natural resources by changing its economy, educating the public, and funding research. The EU also sets environmental standards, supports conservation projects, and works with Asia on issues like pollution, resource management, and developing sustainable solutions.
1. The document discusses John A. Herbert's presentation on corporate citizenship and climate change at an AIESEC conference in 2008.
2. Herbert talks about the need for businesses to address climate change through sustainable practices like energy efficiency, waste reduction, and recycling.
3. He argues that companies should move beyond thinking of "waste" as something to dispose of and instead view it as a potential "feedstock" through practices like industrial symbiosis between companies.
Kenton R. Rose has over 30 years of legal, commercial, and leadership experience in the spirits industry. He is currently the Senior Vice President, General Counsel and Chief Administrative Officer of Beam Suntory Inc., a $4.6 billion global spirits company. In this role, he has led the company's transformation from a small US-focused business to an international industry leader through major acquisitions and partnerships. He also serves on the Board of Directors of Beam Suntory and chairs its Global Risk Management Committee. Previously, Mr. Rose held various legal and management positions at Fortune Brands and has worked on multibillion-dollar deals such as Beam's $16 billion sale to Suntory in 2014.
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.
Living Future21019_The RESTORE Project_C.Battisti (2019_05)RESTORE
COST is supported by the EU Framework Programme Horizon 2020. This presentation is about COST Action RESTORE CA16114, which is supported by COST and aims to rethink sustainability towards a regenerative economy. COST Action RESTORE includes over 130 organizations from 40 countries working on topics like regenerative design, construction, technology, and scaling solutions. It has held several conferences, workshops, and training schools over its 2017-2021 timeframe.
REthinking Sustainability TOwards a Regenerative Economy. The RESTORE project.RESTORE
This presentation summarizes the COST Action RESTORE project, which is supported by the EU Framework Programme Horizon 2020. The project brings together over 130 organizations and researchers from 40 countries to take a multi-disciplinary approach to rethinking sustainability and transitioning to a regenerative economy. It does this through five working groups focused on areas like restorative design, building and operations, and technology. The project has included several conferences, workshops, and other activities over its 2017-2021 timeline.
Circular Economy and Clean Energy Towards Achieving the 2030 SDGsCircular Economy Asia
The document discusses waste to energy and the circular economy in relation to achieving the UN Sustainable Development Goals. It provides context on SDG 7 which aims to ensure access to affordable, reliable, sustainable and modern energy. Examples are given of how waste can be converted to biogas and clean energy. The circular economy is defined as an industrial system that eliminates waste and aims for resource restoration. Practical solutions discussed include industrial symbiosis and closed loop production. Case studies look at biomass utilization in Japan and waste treatment following disasters.
Natura capital in Green Economy - from regional insights to global partnershipMarianne Kettunen
The document discusses natural capital and its role in a green economy. It provides examples of programs that recognize the value of natural capital through payments for ecosystem services in Mexico, Sweden, the US, and Finland. These programs have resulted in reduced deforestation, improved water quality, flood prevention, and improved water quality. The document also discusses Nordic business innovations utilizing natural resources and a program in Tanzania where nature restoration improved access to resources and economic opportunities. It promotes using natural capital accounting to provide a foundation for green economies.
This document summarizes the FIBIC Seminar 2013, which included presentations on various topics related to the forest industry such as efficient fibre supply, resource efficient fibre technologies, new cross-cluster opportunities, future biorefineries, new cellulose products, sustainable bioenergy solutions, and collaborative innovation. It also summarizes FIBIC's updated strategy for 2013-2015, which focuses on creating competence platforms through research programs and projects to facilitate industry renewal, utilizing various funding sources, including new partners, and maintaining research volume while increasing business-led consortium programs. Key performance indicators include business impact, platform attractiveness, and scientific significance. In closing, obstacles like IPR issues need to be addressed to fully realize the competence platforms
The document summarizes the SUSTAINABLE BIOENERGY SOLUTIONS FOR TOMORROW (BEST) program, a joint research program between FIBIC Ltd. and CLEEN Ltd. The BEST program aims to create a comprehensive picture of the bioenergy field by researching biomass feedstocks, technologies, sustainability, strategies and policies, bioenergy carriers, and markets. The program brings together Finnish bioenergy sector actors to develop world-class expertise and take advantage of global bioenergy opportunities. Key research areas include future scenarios, biomass availability, sustainability frameworks, improving bioenergy supply chains, and new market opportunities such as in India. The two phase program runs from 2013-2014 and 2015-2016 with a
The document discusses the transition to a bio-based economy as the sixth industrial revolution. It presents UPM's EffNet program which focuses on resource efficiency, renewable and recyclable products, and innovation. The program supports UPM's continued improvement in reducing waste, water usage, and carbon emissions per tonne of paper produced. It also aims to integrate UPM's current operations and expertise into new knowledge areas and businesses like biocomposites, biochemicals, and renewable diesel to capitalize on wood's potential as a raw material. UPM is recognized as a sustainability leader and its total sustainability score has improved above industry averages.
Exxon Mobil is going to make $3 billion in carbon sequestration investments over the next five years. What can you invest in to profit from this activity? There will be many ways to reduce carbon dioxide and potential carbon sequestration investments go forward.This forty page document discusses land use, reforestation, planting trees on unforested land, and preserving wetlands as well as giving a nod to technologies for storing carbon dioxide.
https://youtu.be/5-LlYi3howQ
Osaka City has overcome past issues with pollution through collaborative efforts. Land reclaimed from waste and soil is now used for green energy projects and hosting Expo 2025. The city aims to reduce GHG emissions 30% by 2030 through initiatives like promoting recycling, reducing food and plastic waste, and developing geothermal and hydrogen energy. International partnerships help spread Osaka's environmental strategies to other cities.
The document outlines Japan's Fifth Basic Environment Plan, which aims to create a sustainable circular economy through six priority strategies and regional cooperation.
The strategies include developing a green economic system, improving land use, sustainable community development, healthy lifestyles, environmental technologies, and international leadership. The plan aims to establish "Regional Circular and Ecological Spheres" where cities, rural areas, rivers and seas cooperate on resource sharing, local production/consumption, and renewable energy. It also details measures to address climate change, resource circulation, biodiversity and disaster recovery in line with international agreements like the Paris Accords.
The document discusses circular economy approaches in ASEAN countries. It finds that while resource consumption is increasing with economic growth, circular economy concepts can improve resource efficiency in manufacturing. Current circular economy approaches aim to integrate social inclusion and business value with resource efficiency gains. More comprehensive indicators are still needed to measure progress. Three R (reduce, reuse, recycle) approaches are effective starting points but further innovations in technical and financial models are important for successful regional adoption of circular economies. Increased focus on waste-to-energy markets and e-waste streams, as well as sharing economy models, can also help circular economy implementation in ASEAN.
Japan is taking both international and domestic actions to address marine plastic pollution. Domestically, Japan will raise awareness, accelerate collection and treatment of marine litter, and revise laws. Internationally, Japan will support developing countries to reduce plastic waste and deliver on commitments in the G7 Ocean Plastics Charter. Japan will also promote best practices through a "Plastics Smart" campaign and present these at the 2019 G20 in Japan to contribute to global solutions for marine plastic pollution.
The Nordic countries are global leaders in climate change initiatives and circular economy efforts. They have historically focused on reducing energy emissions but are now also targeting material production emissions. Key initiatives include industrial symbiosis, green construction, and public procurement programs. Most have set carbon neutrality goals for 2040-2050. Finland was the first country to release a circular economy roadmap in 2016. Denmark, Sweden, and Norway have also released national circular economy strategies or roadmaps. Iceland focuses on renewable energy and carbon capture. The Nordic Council of Ministers promotes circular economy collaboration and projects across sectors through the Nordic Cooperation program.
This document outlines key opportunity areas for an EU research and innovation policy agenda on nature-based solutions. It identifies four main goals: 1) enhancing sustainable urbanization, 2) restoring degraded ecosystems, 3) developing climate change adaptation and mitigation, and 4) improving risk management and resilience. For each goal, nature-based solutions could address environmental, social, and economic challenges in sustainable ways. Specifically, for sustainable urbanization, nature-based solutions support green economic development, environmental protection, and social well-being in cities facing increasing urbanization.
A workshop was held in the IFSC on December 8th 2016, looking at financial incentives to promote citizen investment in renewable energy. The workshop was organised by Dr. Celine McInerney, Cork University Business School, and Joseph Curtin, UCC. It was funded by the EPA Research programme.
This document provides information about AktivPlus e.V., a non-profit organization in Germany that promotes energy efficiency and sustainability in the real estate sector. It develops standards for buildings and districts. As a competence network, it shares knowledge between members and discusses with political stakeholders. It also transfers knowledge to experts and clients. The document outlines AktivPlus' steering committee, advisory board, timeline, intended standard criteria, specification, certification (AktivPlus Ausweis), tools, case studies of certified buildings including their energy concepts and balances, and targets for CO2 emissions and life cycle costs.
The EU has a strategy to stop species and habitat decline by 2020 through Natura, a network of 26,000 protected areas covering 20% of EU land. The EU aims to support sustainable activities in these areas and avoid overusing natural resources by changing its economy, educating the public, and funding research. The EU also sets environmental standards, supports conservation projects, and works with Asia on issues like pollution, resource management, and developing sustainable solutions.
1. The document discusses John A. Herbert's presentation on corporate citizenship and climate change at an AIESEC conference in 2008.
2. Herbert talks about the need for businesses to address climate change through sustainable practices like energy efficiency, waste reduction, and recycling.
3. He argues that companies should move beyond thinking of "waste" as something to dispose of and instead view it as a potential "feedstock" through practices like industrial symbiosis between companies.
Kenton R. Rose has over 30 years of legal, commercial, and leadership experience in the spirits industry. He is currently the Senior Vice President, General Counsel and Chief Administrative Officer of Beam Suntory Inc., a $4.6 billion global spirits company. In this role, he has led the company's transformation from a small US-focused business to an international industry leader through major acquisitions and partnerships. He also serves on the Board of Directors of Beam Suntory and chairs its Global Risk Management Committee. Previously, Mr. Rose held various legal and management positions at Fortune Brands and has worked on multibillion-dollar deals such as Beam's $16 billion sale to Suntory in 2014.
Presentase kesehatan balita gizi buruk dari 5 kota Provinsi JabarDithades Berlyalivia
Dokumen ini memberikan informasi tentang presentase balita dengan gizi buruk di 5 kota di Jawa Barat pada tahun 2012. Kota Cirebon memiliki persentase tertinggi yaitu 1.48%, sedangkan Kota Depok memiliki persentase terendah yaitu 0.11%. Secara umum, dokumen ini menganalisis data gizi buruk pada anak balita di wilayah tersebut.
School districts are exploring restorative justice practices as an alternative to out-of-school suspensions. Restorative justice focuses on repairing harm through respectful dialogue between the offender and those affected by their actions. Some schools are seeing positive results from restorative justice programs, including fewer suspensions and improved school climates.
This document lists several serial novels in the Indonesian language available for download. It includes the "Bu Kek Sian Su" series with 17 novels totaling 12.3 MB. The "Pedang Kayu Harum" series has 11 novels totaling 7.95 MB. The "Pendekar Sakti" series has 4 novels totaling 2.39 MB. All novels are in the LIT and RAR formats, split into 2 MB files.
Kim Dulin: Running a Start-up in a Library - the Harvard Library Innovation L...abqlaConference
The document discusses the Harvard Library Innovation Lab, which was created to help libraries adapt to changing needs through experimentation and collaboration. The lab takes an entrepreneurial approach, hacking libraries to develop new services and technologies. Some challenges include concerns that the lab does not act like a traditional library. However, the goal is to help libraries evolve by testing new ideas.
This document contains images and descriptions of conodont fossils from several studies of Late Devonian strata in Europe and Asia. The fossils represent many genera of conodonts including Palmatolepis, Polygnathus, Gnathodus, and Icriodus. The studies analyzed conodonts from different sections in Italy, Iran, and central Nevada to determine biostratigraphy and correlate strata based on the identified conodont species.
Annual LIANZA / SLANZA Weekend School, held Nelson, New Zealand on 28 April, 2007. This keynote presentation explores the Web 2.0 world, and the 'possibilities' for libraries in a digitally networked world.
The author visits her daughter and is taken to see a large daffodil garden planted by a single woman over many years. She is inspired by the woman's perseverance in planting one bulb at a time, and how she transformed the landscape through small, continuous efforts over decades. The author realizes she too can accomplish great things by consistently working toward her goals incrementally over time, rather than waiting for specific life events to pass.
Gaurapad products are advanced transdermal technology products that are applied to the skin rather than swallowed, allowing them to be highly effective for uncontrollable or terminal illnesses with no side effects. They are 100% natural patches that are easy to apply to the affected area and promise fast results, having been tested and trusted.
This powerpoint presentation is created by Gyanbikash.com for the students of class nine to ten from their English first part NCTB textbook for multimedia class.
Premenstrual syndrome (PMS) is characterized by physical, psychological, and behavioral symptoms that recur monthly before menstruation. Nearly 200 symptoms have been associated with PMS. Severe symptoms occur in 3-5% of menstruating women. Genetics play a role, as concordance is higher in identical twins. Common symptoms include fatigue, irritability, mood changes, and physical issues like breast tenderness and bloating. Prospective daily tracking of symptoms is important to differentiate PMS from premenstrual dysphoric disorder (PMDD) or other conditions. Treatments include oral contraceptives, vitamin B6, antidepressants, and lifestyle changes. Placebo-controlled trials are needed to properly
Este documento trata sobre los problemas ecológicos de la ingeniería genética. Discuten los riesgos de los transgénicos para la salud humana y el medio ambiente. También analiza los diferentes tipos de clonación humana y animal, así como los derechos de los animales.
The document lists glass room projects completed by Swift Rooms LLC in various cities across the UAE including Abu Dhabi, Sharjah, Dubai, Al Dhaid. The projects range in size from 3.5m x 5m to 35m x 10m and were completed between 2012-present. Contact information is provided to call or visit the Swift Rooms website for more details on their glass room installation services.
After sequencing of the genome has been done, the first thing that comes to mind is "Where are the genes?". Genome annotation is the process of attaching information to the biological sequences. It is an active area of research and it would help scientists a lot to undergo with their wet lab projects once they know the coding parts of a genome.
Wood Circus -loppuseminaari 8.12.2021: Teollinen puurakentaminen ja rakennus- ja purkujätteiden uudelleen käytön mahdollisuudet (in English) Dr. Javier Garcia Jaca
This document summarizes a presentation given by Frank O'Connor at the Impact 2008 Conference in Glasgow about whether ecodesign is truly good design. It discusses how ecodesign aims to reduce environmental and social impacts through design. It notes that 80% of a product's impacts are determined at the design stage. However, ecodesign also faces conflicts with traditional design approaches. These include ecodesign being seen as optional, issues around globalization and consumption, true lifecycle costs not being considered, and resistance to change. The document provides examples to illustrate these challenges but also points to companies and designers that are embracing ecodesign as good business practice.
Eco design of consumer electronics myth or reality?Pramod Devireddy
This document discusses eco-design of consumer electronics. It begins with acknowledging the professor who encouraged the study and thanking sources. The abstract indicates it will discuss eco-design, why it is needed, steps to take, case studies and corporate strategies. It then defines eco-design and consumer electronics. It explains the need for eco-design is to avoid toxic waste and elements entering the environment. Steps for eco-design include material selection, manufacturing process changes, reducing energy consumption and improving recycling. Case studies on eco-friendly refrigerators, TVs, computers and air conditioners are provided. Corporate strategies for HP to achieve eco-efficiency throughout the product lifecycle are outlined. Some myths about eco-design are addressed. The
This document discusses sustainable design and architects who promote greener practices. It outlines how the field is increasingly focused on eco-friendly materials and energy efficiency. Various designers are highlighted who utilize techniques like natural lighting, solar power, and recycled materials. The conclusion emphasizes the importance of sustainability and how even small contributions can help address issues like climate change and carbon emissions.
The document outlines a course on sustainable and green buildings. It covers 5 units:
1. Introduction, including definitions of sustainability, strategies for eco-friendly design, and using ecosystem analogies.
2. Eco house design, focusing on passive design principles like conserving energy, working with the climate, minimizing new resources, and case studies.
3. Environmental impacts of building materials, like embodied energy and life cycle analysis.
4. Green construction and certification systems like LEED and case studies on renewable energy, water management, and materials.
5. Case studies applying green building design principles.
Sapa Building System: Reference book volume 3Architectura
The document discusses trends for sustainable cities in 2050 based on scientific forecasts. It identifies 5 key trends: 1) Low-carbon cities through building efficiency and renewables. 2) Smart buildings connected through IoT to optimize resources. 3) Vertical cities through high-density building to reduce land use. 4) Retrofitting existing buildings with smart technologies. 5) Cradle-to-cradle design that closes material loops through reuse and recycling. Aluminum building materials are highlighted as sustainable due to their recyclability and longevity.
Greenovation - how green construction brings opportunities for entrepreneurs ...BioRegional
This document discusses opportunities for small businesses and entrepreneurs in green construction and reuse. It outlines two key opportunities: 1) Community-led enterprises focused on reusing surplus building materials and sustainable retrofitting. 2) Larger opportunities including developing an "EcoPark" where social enterprises focused on reuse and recycling could operate. The document then provides more details on the benefits of reuse for reducing waste and embodied carbon, and outlines some existing reuse center models. It suggests an EcoPark could maximize job creation, waste reduction, and carbon savings through colocating social enterprises focused on reclaimed materials.
Environmental Sustainability in Interior Design Elements .pptxFatma Abass
This lecture aims to help interior design students to set the concepts of sustainable design, achieve a comfortable environment, functional, balance, and users’ needs and concentrate on creating a balance between project image, efficiency and nurturing work environment.
The document discusses the goals and efforts of the International Convention of Exhibition and Fine Art Transporters (ICEFAT) Green Committee to reduce the environmental impact of transporting fine art. The Green Committee aims to research and promote best practices among ICEFAT members through education and guidelines. Some practices highlighted include using renewable energy sources, electric and hybrid vehicles, reusable crates, recycled materials, and eco-friendly paints. The document calls for a global effort across the industry to adopt more sustainable transportation and packaging methods.
This document describes plans for a new "Rainbow Eco-District" development that will utilize ecological architecture and sustainable design principles. The development will include new low-rise buildings constructed with eco-friendly natural materials that minimize energy consumption and maximize green space. It will incorporate shops, cafes, and other mixed-use spaces to foster social interaction among residents. The eco-district is envisioned to set a new standard for comfortable yet sustainable living.
The Essential Benefits of Trees within the Built Environment :The need for a ...Mike Barker
The document discusses the essential benefits of trees within the built environment and the need to re-evaluate their use in future planning. It notes that international policy organizations like the UN have called for more sustainable development of cities. Trees provide key ecosystem services like reducing the urban heat island effect, improving air quality, and increasing biodiversity. The document also discusses how development teams can better incorporate trees into new projects and retrofitting existing landscapes to create sustainable communities with environmental, economic, and social benefits.
Presentation by Katherine Adams of BRE & Loughborough University at at Circular Economy Thinking in Construction seminar, London 20 January 2017. More information: http://www.greenconstructionboard.org/index.php/2012-09-05-09-17-39/item/2372-circular-economy-thinking-cethinking-challenges-and-opportunities-for-the-construction-sector
The document introduces the concept of a circular economy (CE). It defines CE as an alternative to the traditional linear economy where resources are kept in use for as long as possible through reuse and recycling. The document outlines the EU's agenda to transition to a CE, including targets to increase municipal waste recycling. It discusses how CE principles apply throughout a product's lifecycle and across different industries and sectors of the economy.
The document provides an overview of key concepts related to sustainability, sustainable consumption and production, and the circular economy. It discusses four key arguments for why sustainability matters to businesses: economic, environmental, societal, and compliance with government regulations. It defines sustainable consumption and production and the triple bottom line of people, planet, and profit. The document outlines sustainable development goals and how sustainable consumption and production can contribute to achieving them. It also discusses life-cycle thinking and key concepts of the circular economy like reduce, reuse, and recycle. Examples are provided of how businesses can implement more sustainable practices through their value chains and operations.
The circular economy aims to decouple economic activity from the consumption of finite resources by designing waste out of systems and keeping products and materials in use. Globally, demand for raw materials is increasing substantially while much of what is produced is wasted. Many countries and regions are now pioneering circular economy approaches and business models that focus on renewable energy, recycling, product life extension, and product-as-a-service models. Finland has developed a unique roadmap to become a global leader in the circular economy with the potential to create over 75,000 new jobs and reduce greenhouse gas emissions by 13-66% across sectors.
This document provides an overview of emerging green technologies. It discusses the goals of green technology, which include reduce, recycle, refuse, renew, and responsibility. The main branches of green technology covered are green chemistry, green energy, green IT, green building, and green nanotechnology. Examples of eco-friendly building materials and green vehicles are also mentioned. Principles of green chemistry focus on preventing waste and using safer chemicals and solvents. Overall the document serves to introduce various aspects of green technology and sustainable practices.
The document discusses the principles of a circular economy in construction. It begins by noting that the world is facing a crisis due to resource depletion and environmental pollution from the current linear take-make-waste model. It then provides background on concepts like sustainable development and describes how the linear economy leads to negative outcomes. The circular economy aims to eliminate waste and continually reuse resources. The document outlines several principles of circular economy and provides frameworks like the "ReSOLVE" approach to applying circular design in construction, including strategies for clients, designers, suppliers and more.
Green architecture aims to reduce negative impacts on the climate, health, and environment through resource efficient and low emission building designs. It can save money over the lifetime of a building. Some challenges of green architecture include the high initial costs of sustainable materials and technologies like solar panels. Historically, architects like Frank Lloyd Wright designed buildings to work with nature instead of dominate it. In the 1970s-1980s, green architecture emerged focusing on natural materials and reducing pollution. Benefits include cost savings on utility bills. Locally sourced materials also help the local economy and reduce emissions from transportation.
Similar to Ken Dooley: Circular Economy in the Built Environment (20)
The document discusses smart cities and how they are evolving from technology-driven models to ones that are co-created by citizens. It defines smart cities, examines the challenges they face from issues like urbanization and aging populations, and outlines Fujitsu's solutions for areas like traffic modeling, smart parking, and assisted living. The presentation argues that smart cities are becoming less about technologies being done to citizens and more about collaborative approaches that engage residents in the development process.
Granlund Designer - increase your MEP planning marginsGranlund Oy
Granlund Designer is a new solution for standardising the MEP planning process, avoiding errors and improving communication. This webinar gives a quick overview on the capabilities.
www.granlunddesigner.com
Käteen sopivaa valoa -valowebinaari 22.10.2015Granlund Oy
Suomen ensimmäinen Osram Lightify Pro -langaton valaistusohjausasennus käytössä Granlundin toimitiloissa. Kokemuksista kertoi valowebinaarissamme sähkösuunnittelija Juhani Mikkonen, joka on tehnyt aiheesta lopputyönsä.
Pimp Your Building -valowebinaari 20.10.2015Granlund Oy
GranlundWebinar: Pimp your building! Valolla uutta identiteettiä rakennuksiin. Puhujina johtava asiantuntija Ilkka Paloniemi ja valaistussuunnittelija Sanna Forsman.
Granlund webinar 9.10.2015 Tulevaisuus on energiatehokasGranlund Oy
Juha Viholainen kertoi Energiansäästöviikon viimeisessä webinaarissa perjantaina 9.10.2015 energiatehokkaasta tulevaisuudesta kiinteistöistä kortteileihin, asuinalueista kuntatasolle.
Granlund webinar 8.10.2015 talon anatomia toimiston energiatehokkuusGranlund Oy
Granlund ja Granlund Consulting järjestivät yhdessä Energiansäästöviikon kunniaksi energiatehokkuus-webinaareja. Torstaina 8.10. Harri Nyyssölä puhui toimistotalon energiatehokkuudesta, esimerkkinä Granlundin pääkonttori Malmilla.
Granlund webinar 6.10.2015 monien asioiden summa energianhallintaGranlund Oy
Granlund ja Granlund Consulting järjestivät energiansäästöviikoilla (5-9.10.) viisi energiatehokkuus-webinaaria.
Tiistaina 6.10. ryhmäpäällikkö Asta Varpio puhui energianhallinnasta.
Webinaarit löytyvät myös Youtubesta: www.youtube.com/user/GranlundOy
Granlund webinar 5.10. ei kuulu mulle energiansaasto tyopaikallaGranlund Oy
Granlund ja Granlund Consulting järjestivät 5-9.10. energiatehokkuus-webinaareja Energiansäästöviikon kunniaksi.
Ensimmäisen webinaarin puhuja oli toimialajohtaja Piia Sormunen Granlund Consultingilta ja aiheena työpaikan energiansäästö. Esityksen pääkysymyksenä oli, voiko yksilö vaikuttaa energiansäästöön työpaikalla. Kerroimme myös, mitä Granlund on tehnyt aktivoidakseen työntekijöitään energiapiheksi.
Kinetic studies on malachite green dye adsorption from aqueous solutions by A...Open Access Research Paper
Water polluted by dyestuffs compounds is a global threat to health and the environment; accordingly, we prepared a green novel sorbent chemical and Physical system from an algae, chitosan and chitosan nanoparticle and impregnated with algae with chitosan nanocomposite for the sorption of Malachite green dye from water. The algae with chitosan nanocomposite by a simple method and used as a recyclable and effective adsorbent for the removal of malachite green dye from aqueous solutions. Algae, chitosan, chitosan nanoparticle and algae with chitosan nanocomposite were characterized using different physicochemical methods. The functional groups and chemical compounds found in algae, chitosan, chitosan algae, chitosan nanoparticle, and chitosan nanoparticle with algae were identified using FTIR, SEM, and TGADTA/DTG techniques. The optimal adsorption conditions, different dosages, pH and Temperature the amount of algae with chitosan nanocomposite were determined. At optimized conditions and the batch equilibrium studies more than 99% of the dye was removed. The adsorption process data matched well kinetics showed that the reaction order for dye varied with pseudo-first order and pseudo-second order. Furthermore, the maximum adsorption capacity of the algae with chitosan nanocomposite toward malachite green dye reached as high as 15.5mg/g, respectively. Finally, multiple times reusing of algae with chitosan nanocomposite and removing dye from a real wastewater has made it a promising and attractive option for further practical applications.
Improving the viability of probiotics by encapsulation methods for developmen...Open Access Research Paper
The popularity of functional foods among scientists and common people has been increasing day by day. Awareness and modernization make the consumer think better regarding food and nutrition. Now a day’s individual knows very well about the relation between food consumption and disease prevalence. Humans have a diversity of microbes in the gut that together form the gut microflora. Probiotics are the health-promoting live microbial cells improve host health through gut and brain connection and fighting against harmful bacteria. Bifidobacterium and Lactobacillus are the two bacterial genera which are considered to be probiotic. These good bacteria are facing challenges of viability. There are so many factors such as sensitivity to heat, pH, acidity, osmotic effect, mechanical shear, chemical components, freezing and storage time as well which affects the viability of probiotics in the dairy food matrix as well as in the gut. Multiple efforts have been done in the past and ongoing in present for these beneficial microbial population stability until their destination in the gut. One of a useful technique known as microencapsulation makes the probiotic effective in the diversified conditions and maintain these microbe’s community to the optimum level for achieving targeted benefits. Dairy products are found to be an ideal vehicle for probiotic incorporation. It has been seen that the encapsulated microbial cells show higher viability than the free cells in different processing and storage conditions as well as against bile salts in the gut. They make the food functional when incorporated, without affecting the product sensory characteristics.
Evolving Lifecycles with High Resolution Site Characterization (HRSC) and 3-D...Joshua Orris
The incorporation of a 3DCSM and completion of HRSC provided a tool for enhanced, data-driven, decisions to support a change in remediation closure strategies. Currently, an approved pilot study has been obtained to shut-down the remediation systems (ISCO, P&T) and conduct a hydraulic study under non-pumping conditions. A separate micro-biological bench scale treatability study was competed that yielded positive results for an emerging innovative technology. As a result, a field pilot study has commenced with results expected in nine-twelve months. With the results of the hydraulic study, field pilot studies and an updated risk assessment leading site monitoring optimization cost lifecycle savings upwards of $15MM towards an alternatively evolved best available technology remediation closure strategy.
Optimizing Post Remediation Groundwater Performance with Enhanced Microbiolog...Joshua Orris
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system.
Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs.
In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier.
The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation.
2. Circular Economy
“If the circular economy was adopted by the EU, savings
within a range of between €300 – €560 billion could be
realised by 2035”
Ellen MacArthur Foundation, 2012
”A well known topic but poorly defined”
”What does it mean for us in real estate & construction?”
”If the circular economy is coming ……
- where do I start if I am in real estate & construction?”
5. Circular Economy in the Built Environment
ConstructionDesignMaterials Use End of Life
Natural
Materials
Major Influence Minor Influence
Natural Materials
ConstructionDesignMaterials
6. Circular Economy in the Built Environment
Natural
Materials
Major Influence Minor Influence
Reuse,
Recommissioning,
Recycle
Reuse,
Recommissioning,
Recycle
ConstructionDesignMaterials Use End of Life
7. Major Influence Minor Influence
Design for
Disassembly
Design for
Disassembly
ConstructionDesignMaterials Use End of Life
Natural
Materials
Reuse,
Recommissioning,
Recycle
Circular Economy in the Built Environment
9. Design for Disassembly
Kasper Guldager Jensen:
• New building designed for disassembly for 0.35%
• New build Danish office building €115m & 42.000 m2
• Demolition costs € 2.15 million today
• Materials worth € 4.7 million at the end of the
buildings life
10. Circular Economy in the Built Environment
Sharing
Economy
Solutions
Sharing Economy
Solutions
Major Influence Minor Influence
ConstructionDesignMaterials Use End of Life
Design for
Disassembly
Natural
Materials
Reuse,
Recommissioning,
Recycle
11. Sharing Economy Solutions
”if you only use your car for 20%
of the year could someone else
use it for the other 80%?”
15. Circular Economy in the Built Environment
New Ownership
Models
Major Influence Minor Influence
New Ownership
Models
ConstructionDesignMaterials Use End of Life
Sharing
Economy
Solutions
Design for
Disassembly
Natural
Materials
Reuse,
Recommissioning,
Recycle
16. New Ownership Models
”Products as a service” = change how items designed
Consumer products + renting = long lifecycle products
Source www.bundles.nl
18. Circular Economy in the Built Environment Major Influence Minor Influence
Sustainable
Lifestyles
Sustainable
Lifestyles
New Ownership
Models
ConstructionDesignMaterials Use End of Life
Sharing
Economy
Solutions
Design for
Disassembly
Natural
Materials
Reuse,
Recommissioning,
Recycle
19. Circular Economy in the Built Environment Major Influence Minor Influence
Resource
Efficiency
Sustainable
Lifestyles
New Ownership
Models
ConstructionDesignMaterials Use End of Life
Sharing
Economy
Solutions
Design for
Disassembly
Natural
Materials
Reuse,
Recommissioning,
Recycle
Resource
Efficiency
20. Resource Efficiency
Use waste materials as an alternative to virgin
materials wherever possible
Local materials are also preferred
Balfour Beatty: UK motorway design
• 400,000 recycled tyres
• 375,000 tonnes of power station ash
• €57 million saved with nearly 8 million tonnes of
waste material
21. Circular Economy in the Built Environment Major Influence Minor Influence
Industrial
Symbiosis
Resource
Efficiency
Sustainable
Lifestyles
New Ownership
Models
ConstructionDesignMaterials Use End of Life
Sharing
Economy
Solutions
Design for
Disassembly
Natural
Materials
Reuse,
Recommissioning,
Recycle
Industrial
Symbiosis
22. Industrial Symbiosis
Locate companies together so that the output of one is
the input of another
• Food processing and biogas production
• Food processing and bioplastic production
• Mushroom growing and insulation manufacture
24. Circular Economy in the Built Environment Major Influence Minor Influence
Design for
Disassembly
Sharing
Economy
Solutions
Sustainable
Lifestyles
Industrial
Symbiosis
Reuse,
Recommissioning,
Recycle
Resource
Efficiency
Natural
Materials
New Ownership
Models
ConstructionDesignMaterials Use End of Life
25. Circular Economy: First steps..
Strategy
• High level analysis
• Step by step guidance
Use Phase
• Consumption patterns
analysis
• Building level
• Neighbourhood /
Campus level
New Projects
• New and renovation
projects
• Operational improvement
of construction projects
Use Phase
Management
• Use phase targets
• Implementation strategy
• Service network
Long Term
Planning
• Circular economy
detailed investment
strategies
1
2
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5
26. Ken Dooley
Sustainability Group Manager
Granlund Consulting
+358 50 315 2417
ken.dooley@granlund.fi
Twitter @kendooley
Thank you!
Editor's Notes
Area energy and constructions stage circular economy
LCA is to reduce embodied emissions of construction products during: Manufacture, Transport, Use and End of life
Granlund C provide LCA and EPD services. LCA / EPD is in the background. They overlap they are not the same thing.
(1) Design for dissassembly, (2, 3) Reduce the number of different materials, (4) Rent and repair, (5) it can be disassembled in 10 minutes, (6) motivate users to send back, (7) polypropylene wheels or bollard