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Oliver Sellers-garcia

Mar 16, 2015
10:30

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Fascinating! Thanks for sharing your idea, we look forward to reviewing it and providing feedback. Best regards, Oliver

Jamie Bemis

Mar 24, 2015
09:03

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Hi Michael, Thanks for sharing this great idea! I love that you built off another contestant's suggestions from a past proposal-- that is just the kind of collaboration and idea sharing we are looking for! Can you provide some more details in your proposal on the following: - How would the permeable driveways handle the Boston winters? What type of material are you recommending for the depaved driveways, and are there studies that show this material wearing well over time? - It sounds like a number of test sites have been depaved in Somerville to date. Can you provide more information on the status of these projects and whether they have been successful over time? - Can you provide some rough cost and emissions reductions for this effort (including an underground cistern for water storage and energy production)? Thanks! Jamie

Michael Hayes

Mar 27, 2015
01:38

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[Jamie] "- How would the permeable driveways handle the Boston winters? What type of material are you recommending for the depaved driveways, and are there studies that show this material wearing well over time?" [Michael) I would create lanes of pavers along the driveway to accommodate the car tires. Any landscape company should know about this method. It was a common driveway partial paving method up to the 1960s->1970s. [Jamie]- It sounds like a number of test sites have been depaved in Somerville to date. Can you provide more information on the status of these projects and whether they have been successful over time?" [Michael] I have no information on those sites. [Jamie]- Can you provide some rough cost and emissions reductions for this effort (including an underground cistern for water storage and energy production)?" [Michael] In general, the cost of dual walled HDPE culverts (the cistern primary component) is around $120 per linear foot. The cost of the energy conversion and storage system is relatively small as we are talking about a few small pumps/switches/valves/gauges and starter biotics. The cost of excavation usually runs around $150-$250 per hr. I hope this helps. I'll transfer this over to the proposal sometime soon. Also, thank you for the feedback/questions. The Cambridge approach of not providing any feedback or even basic information on what is 'in bounds' or not is an approach which simply is not just to the folks spending their time on these place specific proposals. After-all, this type of 'consulting' is typically rather costly for a city to purchase. If a community is to collect ideas, for free, they should at least be willing to provide some exchange of information such as limits on scope/technology and or the need for clarification. Thank you for simply taking the time to ask questions. Michael

Jamie Bemis

Apr 1, 2015
10:49

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Hi Michael, Thanks for answering my questions! It would be great if you could add this information to your proposal, as you mentioned. Good luck with the remainder of the competition, and don't hesitate to reach out if you have questions. Jamie

Michael Hayes

Apr 24, 2015
07:35

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Jan, I not only greatly support your work within this suite of technologies, I've gone so far as proposing each and every aspect of this work in prior work both within the CoLab environment and elsewhere. If you need any useful links, please let me know. Michael

Michal Williams

May 12, 2015
08:38

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Depaving will have the added benefits of preserving more rainfall as groundwater, and reducing the temperature of the City in the summer. As to survival in the winter, pavement is hardly optimal. Some old-fashioned building materials, such as cobblestones and bricks over sand, are actually better, because they are flexible, re-usable, and easy to repair without ripping apart the whole system. They also allow rain and snowmelt to percolate into the ground, rather run off into sewers. Michael's B-Corp idea might have application to my proposal.

Michael Hayes

May 12, 2015
08:15

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Hi Michal, I'm glad you found value in the B Corp. Your gym energy conversion idea is great and I've ran across gyms that have used the idea to basically off-set most if not all of their energy bills. I would like to see energy converting sewage systems installed beneath the gym floor. The gym roof might also be a good place to grow aquaponic foods so that the users can basically have an overall healthy connection for both exercise and food. Thanks for taking the time to comment. Michael

Michael Hayes

May 12, 2015
09:46

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Comment posted at "Residential street electric vehicle charging stations" https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301402/phaseId/1306745/planId/1316107/tab/COMMENTS#addCommentForm Also, the idea and technology for the use of inductive loops within roadways, which actually charges the on-board batteries of some special made cars, goes back to 1920. Here is a link to further info. Electrical power from the road https://www.iav.com/us/press/press-releases/2011/electrical-power-road?sl=true

Michael Hayes

May 12, 2015
09:32

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Comment posted at "Residential street electric vehicle charging stations" https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301402/phaseId/1306745/planId/1316107/tab/COMMENTS#addCommentForm Further, I'm proposing the re-engineering of the roads/driveways to convert/store bio-energy (along with sewage treatment) and induction loops can be an easy addition to that type of road re-engineering. If enough funding can be found, small street cars using the induction loops (energized with sewage derived bioenergy) could make using a private car in Somerville largely un-necessary. Imagine not having to buy an electric car yet being able to use one when you need....and that the car is fully robotic. And, the city makes enough revenues off the overall system that your property taxes are reduced !!!! Any city which took the time and trouble to re-engineer their streets to convert/store sewage derived bioenergy and even provided pay per ride robotic electric cars which used the renewable bioenergy derived from their sewage system....would be a world leader in common sense and science. Best wishes, Michael

Hemant Wagh

May 25, 2015
09:36

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Michal's depaving strategy is nice, could grass be placed on such depaved pavements reconstructed using cobblestones, sand, bricks etc.! It would be very nice to walk upon and look at as well.. Instead of grassy rooftops grassy walking area beside the road !

Michael Hayes

May 30, 2015
04:50

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Hello Hermant, Yes, partial pavement allows for a number of treatments. Those that like grass can use that while those that like no-maintenance can use gravel with underlings so as to block grass from growing. Thank you for the question. Michael

Michael Hayes

May 30, 2015
04:18

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The below is a copy of a comment offered to Jim Baird on his proposal found at: https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301501/phaseId/1306817/planId/1317203/tab/COMMENTS Hello Jim, Your proposal hits on a large number of important technologies and your writing is clear. I would like to offer a few technical points which may fit into the scenario you're proposing. 1) Up-welling of electrolized H2 will produce significant pressure within the up-welling pipe head and thus the pressurized H2 (kenetics) can be used to energize a sizable desalinization operation. It is a 2-for-1 opportunity. In brief, up-welling of gas within a pipe creates an 'air lift pump'. As I'm sure you recognize, this will create a head pressure which can be used for multiple cultivation and processing/refining operations. See below link. https://www.google.com/search?q=air+lift+pump&espv=2&biw=1366&bih=667&tbm=isch&tbo=u&source=univ&sa=X&ei=PflpVYTIIYH7oQSU04HQAw&ved=0CCYQsAQ 2) The 'perpetual salt fountain' concept is related to this overall up-welling issue and offers important insights about up-welling. See link below. https://www.google.com/search?q=perpetual+salt+fountain&espv=2&biw=1366&bih=667&source=lnms&tbm=isch&sa=X&ei=CPppVaLXM5DfoASEnYHYDw&ved=0CAcQ_AUoAg And, it has been found that the above form of up-welling will cause CO2 out-gassing and production of CO2 via dissolved inorganic carbon (DIC) reacting with surface dynamics. 3) The up-welling of artificially warmed fluids, if not within an a well insulated pipe, will warm the local water column and thus create an external (un-confined) up-welling of CO2/DIC rich water. Thus, the final carbon foot print may be larger than what is accounted for within the process. 4)Shunting the out-gassed/produced CO2 into sealed chemosynthetic cultivation tank farms will allow for the utilization/sequestration of much of the generated CO2. The excess CO2 not used bythe cultivation effort can be sequestered through multiple paths. However, it is important that we utilize the CO2 to the fullest extent possible with sequestration being the last option. 5) Further, electrolysis of saltwater produces significant amounts of chlorine gas which will need to be captured and properly used/stored. The upper atmospheric chemistry is highly sensitive to chlorine and unchecked chlorine production/release can devastate the ozone layer in short order. 6) Electrolysis of seawater to create 'Biorock' is a good reference when working in this overall field. Dr. Wolf Hillbertz foresaw much of the 'Multi-Purpose OTEC' potential back in the 1970-1980s. A link to one of his papers is included below. http://www.wolfhilbertz.com/downloads/1979/hilbertz_IEEE_1979.pdf (Please see Fig. 30) 7) You have speculated that "It would take therefore a full war time effort the rest of this century to reach OTEC’s full potential.". Many in the OTEC field have the same view. However, it may be possible to see robust OTEC usage in far less time if the focus of the OTEC development is first applied to off-shore biomass production, which can produce carbon negative portable biofuels/biochar, food, feed, etc., with on-shore grid support as a secondary priority. 8) The oxyhydrogen reaction in algae (chemosynthesis) uses hydrogen to replace the need for photosynthesis in some species of micro-algae and thus production of hydrogen is a needed component to a vast scale carbon negative biofuel/biochar scenario. Currently, many who are waking up to the value of chemosynthesis are calling for liberating the H2 from the biomass via hydrothermal conversion of the biomass. I, however, recommend the use of an advanced perpetual salt fountain which uses heat and electrolysis for many of the reasons you have detailed. 9) By focusing solely upon feeding the on-shore electrical grid, the OTEC operations profits, and thus operations, are dependent upon high $bbl prices. It is possible that fracking will keep energy prices far below what typical OTEC needs as a competitive price for the foreseeable future. In conclusion, I enjoyed reading your well informed proposal and found your focus upon the existential threat of deep ocean thermal inertia to be spot on. Also, thank you for the 'Solomon et al' paper (I thought I had read all of her works!). Part of the work I'm pulling together under the IMBECUS Protocol attempts to address the ocean thermal problem set through the deployment of vast scale ocean biomass production platforms which can also function as vast scale surface cooling platforms in association with other cooling methods such as Marine Cloud Brightening. In short, deep-welling cold pH adjusted water while up-welling nutrients, CO2 for use in the production of carbon negative biofuels/biochar hits on the majority of the critical key issues which are critical to our survival. Thank you for your work, Michael

Michael Hayes

Jun 26, 2015
03:40

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A number of my proposals ended up having critical parts come up missing or shorted. I'm clueless as to how that happened and this is not the first time this has happened. In an attempt to repair that issue, I' posting here in the comment section a fully completed 'action' section yet it does not have links. A fully complete proposals can be found at; Adaptation: https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301411/planId/1314308 or Atypical Ideas for Carbon Neutrality: https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301603/planId/1314313 I recommend going directly to the proposals for proper viewing of the details. What actions do you propose? "Today we need a global Apollo programme to tackle climate change; but this time the effort needs to be international. We need a major international scientific and technological effort, funded by both public and private money.". (Excerpt from: A GLOBAL APOLLO PROGRAMME TO COMBAT CLIMATE CHANGE) The above advocates for massive international concentration of political and capital strength on deployment of solar energy means and methods to achieve the needed CO2 reductions. This position is understandable and supportable. However, carbon neutral energy means and methods, such as solar energy conversion, are no longer adequate to forestall drastic climate change. At this time, the full spectrum of the water, carbon negative energy and nutrient nexus management needs must be factored into any form of 'Global Apollo Programme to Combat Climate Change'. Primary action/principle being proposed: Vast scale use of chemosynthetic and or heterotrophic cultivation of biomass as a means for urban, rural, marine and overall global scale water, energy and nutrient nexus (WENN) management. Funding for this WENN management regimen can be achieved through the use of environmentally focused intergovernmental agreements, market funding instruments and/or non-profit funding programs such as: 1) The most forward leaning intergovernmental climate change mitigation/adaptation agreement is summarized by the US Department of State. In part: Commitment by developed countries to the goal of mobilizing jointly USD $100 billion per year by 2020 from public and private sources, to address the needs of developing countries in the context of meaningful mitigation actions and transparency on implementation A call to establish the Green Climate Fund, a new multilateral trust fund designed to foster low emission and climate resilient development and catalyze private sector investment. 2) The Green Climate Fund (a): "..the Fund will promote the paradigm shift towards low-emission and climate-resilient development pathways by providing support to developing countries to limit or reduce their greenhouse gas emissions and to adapt to the impacts of climate change, taking into account the needs of those developing countries particularly vulnerable to the adverse effects of climate change.". In the non-intergovernmental space, a growing number of important market funding paths are being developed. Such as: 3) Green Bond Principles 2014: Voluntary Process Guidelines for Issuing Green Bonds: 4) World Bank Green Bond "Funding for new technologies that permit significant reductions in greenhouse gas (GHG) emissions" 5) Homeland Security Grants "Strengthen national preparedness and resilience, building a ready and resilient Nation, with the ability to plan, prepare for, and respond to disasters. Proposals for climate resilience coupled with a restructured DHS grant program will help create robust national preparedness capabilities.". 6) "Transforming the Traditional Municipal Bond Market to Finance Environment-Friendly Green Projects" "In 2013 Massachusetts became the first state in the U.S. municipal bond market to issue these so-called green bonds. The offering was so successful that Massachusetts tripled the volume of green bonds offered in 2014, selling $350 million in bonds to individual and institutional investors this month. According to Massachusetts Treasury officials, the demand for green bonds far outpaced the supply. The Treasury reportedly received received $1 billion in buy orders for the $350 million bonds offered. billion in buy orders for the $350 million bonds offered.". 7) ‘Conservation Bonds’ Take Green Financing to the Next Level "Green bonds, as described by the World Bank, “are fixed income, liquid financial instruments that are used to raise funds dedicated to climate-mitigation, adaptation, and other environment-friendly projects.” When issued by multilateral institutions such as the World Bank, or agencies of national governments such as the German Development Bank, such bonds may carry low, or even concessionary interest rates. Furthermore, a number of private financial institutions, attracted by the reliable returns on projects financed by green bonds, have entered the marketplace. The Green Bond market is rapidly growing. First issued by the World Bank in 2007, the green bond market grew to $11 billion in 2013. As reported by the World Bank, some $32 billion of green bonds have been issued by multilaterals, governments and corporate issuers from January through October 2014, and could surpass $40 billion for the year.". 8) Climate Bond Initiative: "Green bonds were created to fund projects that have positive environmental and/or climate benefits. The majority of the green bonds issued are green “use of proceeds” or asset-linked bonds. Proceeds from these bonds are earmarked(link is external) for green projects but are backed by the issuer’s entire balance sheet. There have also been green "use of proceeds" revenue bonds(link is external), green project bonds and green securitized (link is external) bonds.". 9) "The wheels of climate finance are turning: the Green Climate Fund (GCF) will soon start distributing funds through 7 institutions.". "The accredited institutions include the following: Centre de suivi écologique (CSE) from Senegal, which focuses on combating desertification and protecting coastal areas. In 2010, CSE was the first national institution to be accredited and to implement a project through the Adaptation Fund , the first international climate fund to take the pioneering step of accrediting developing country institutions. Fondo de Promoción de las Áreas Naturales Protegidas del Péru (PROFONANPE) that specializes in funding biodiversity conservation and managing protected areas. Like CSE, PROFONANPE is also accredited to the Adaptation Fund. the Secretariat of the Pacific Regional Environment Programme (SPREP), an intergovernmental organization of Pacific Island countries and territories, based in Samoa, which focuses on protection and sustainable development of the Pacific region’s environment the Acumen Fund, Inc. (Acumen), a well-respected private venture capital fund that invests in developing country entrepreneurs and businesses working to alleviate poverty and advance sustainable development. The social impact investment fund works on improving the lives of low income communities in Africa and Asia, especially in healthcare, agriculture and clean energy. Three international organizations were also accredited: the Asian Development Bank (ADB), Kreditanstalt für Wiederaufbau (KfW), and the United Nations Development Programme (UNDP).". 10) "Major International Research Initiative Launched to Improve Food Security for Developing Countries - Bill & Melinda Gates Foundation." (a). "Listening to farmers and addressing their specific needs. We talk to farmers about the crops they want to grow and eat, as well as the unique challenges they face. We partner with organizations that understand and are equipped to address these challenges, and we invest in research to identify relevant and affordable solutions that farmers want and will use. Increasing farm productivity. We support a comprehensive approach to helping smallholder farmers prosper that includes access to heartier seeds, more effective tools and farm management practices, locally relevant knowledge, emerging digital technologies, and reliable markets. We also advocate for agricultural policies that support farmers in their efforts to better feed themselves and their communities. Fostering sustainable agricultural practices. In an era of increasingly scarce resources and growing impact of climate change, we encourage farmers to embrace and adopt sustainable practices that help them grow more with less land, water, fertilizer, and other costly inputs while preserving natural resources for future generations. Achieving greater impact with partners. We are committed to communicating our strategy more effectively and sharing what we’ve learned with grantees and other partners, including governments, nongovernmental organizations, traditional and emerging donors, and the private sector. Our resources, while significant, represent only a fraction of what is needed. Collaborating effectively with others maximizes our collective impact in helping farming families.". The above list of funding paths is not exhaustive and many existing and future environmental focused funding programs can be coupled together to provide a comprehensive list of funding options for all WENN management scenarios ranging from the smallest rural communities; the largest of metropolitan cities; remote rural areas, marine solutions and/or entire global regions. This proposal calls for the creation of a Benefit Corporation (B Corp), with an international scope and benefit mission which can lead the way in the establishing standards and practices associated with WENN local/regional STEM management, funding and policy development. The B Corp mission statement can use modified language found in many bio-energy development related agencies, such as the Department of Energy's Office of Bioenergy Technology, while employing an international perspective. The mission of the Office of Bioenergy Technology is stated as follows: "Develop and transform our renewable biomass resources into commercially viable, high-performance biofuels, bioproducts, and biopower through targeted research, development, and demonstration supported through public and private partnerships." The goal of the Office is to develop commercially viable bioenergy and bioproduct technologies to: · Enable sustainable, nationwide production of biofuels that are compatible with today’s transportation infrastructure, can reduce greenhouse gas emissions relative to petroleum-derived fuels, and can displace a share of petroleum-derived fuels to reduce U.S. dependence on foreign oil. · Encourage the creation of a new domestic bioenergy and bioproduct industry. The above language can be crafted to reflect the global need for bio-energy independence, climate change mitigation/adaptation, water recovery/creation and bulk nutrient management. Additionally, the final draft of the mission statement should be the subject of a...brief...international debate so as to flush out any strong objections from the STEM, policy or civil society sectors. Once the B Corp is established and the WENN specific funding matrix is customized per specific locations (i.e. cities, rural, marine, regional etc.), multiple on-the-ground projects can be initiated simultaneously around the planet.

Michael Hayes

Jun 26, 2015
03:56

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A number of my proposals ended up having critical parts come up missing or shorted. I'm clueless as to how that happened and this is not the first time this has happened. In an attempt to repair that issue, I' posting here in the comment section a fully completed 'action' section yet it does not have links. A fully complete proposals can be found at; Adaptation: https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301411/planId/1314308 or Atypical Ideas for Carbon Neutrality: https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301603/planId/1314313 I recommend going directly to the proposals for proper viewing of the details. What actions do you propose? "Today we need a global Apollo programme to tackle climate change; but this time the effort needs to be international. We need a major international scientific and technological effort, funded by both public and private money.". (Excerpt from: A GLOBAL APOLLO PROGRAMME TO COMBAT CLIMATE CHANGE) The above advocates for massive international concentration of political and capital strength on deployment of solar energy means and methods to achieve the needed CO2 reductions. This position is understandable and supportable. However, carbon neutral energy means and methods, such as solar energy conversion, are no longer adequate to forestall drastic climate change. At this time, the full spectrum of the water, carbon negative energy and nutrient nexus management needs must be factored into any form of 'Global Apollo Programme to Combat Climate Change'. Primary action/principle being proposed: Vast scale use of chemosynthetic and or heterotrophic cultivation of biomass as a means for urban, rural, marine and overall global scale water, energy and nutrient nexus (WENN) management. Funding for this WENN management regimen can be achieved through the use of environmentally focused intergovernmental agreements, market funding instruments and/or non-profit funding programs such as: 1) The most forward leaning intergovernmental climate change mitigation/adaptation agreement is summarized by the US Department of State. In part: Commitment by developed countries to the goal of mobilizing jointly USD $100 billion per year by 2020 from public and private sources, to address the needs of developing countries in the context of meaningful mitigation actions and transparency on implementation A call to establish the Green Climate Fund, a new multilateral trust fund designed to foster low emission and climate resilient development and catalyze private sector investment. 2) The Green Climate Fund (a): "..the Fund will promote the paradigm shift towards low-emission and climate-resilient development pathways by providing support to developing countries to limit or reduce their greenhouse gas emissions and to adapt to the impacts of climate change, taking into account the needs of those developing countries particularly vulnerable to the adverse effects of climate change.". In the non-intergovernmental space, a growing number of important market funding paths are being developed. Such as: 3) Green Bond Principles 2014: Voluntary Process Guidelines for Issuing Green Bonds: 4) World Bank Green Bond "Funding for new technologies that permit significant reductions in greenhouse gas (GHG) emissions" 5) Homeland Security Grants "Strengthen national preparedness and resilience, building a ready and resilient Nation, with the ability to plan, prepare for, and respond to disasters. Proposals for climate resilience coupled with a restructured DHS grant program will help create robust national preparedness capabilities.". 6) "Transforming the Traditional Municipal Bond Market to Finance Environment-Friendly Green Projects" "In 2013 Massachusetts became the first state in the U.S. municipal bond market to issue these so-called green bonds. The offering was so successful that Massachusetts tripled the volume of green bonds offered in 2014, selling $350 million in bonds to individual and institutional investors this month. According to Massachusetts Treasury officials, the demand for green bonds far outpaced the supply. The Treasury reportedly received received $1 billion in buy orders for the $350 million bonds offered. billion in buy orders for the $350 million bonds offered.". 7) ‘Conservation Bonds’ Take Green Financing to the Next Level "Green bonds, as described by the World Bank, “are fixed income, liquid financial instruments that are used to raise funds dedicated to climate-mitigation, adaptation, and other environment-friendly projects.” When issued by multilateral institutions such as the World Bank, or agencies of national governments such as the German Development Bank, such bonds may carry low, or even concessionary interest rates. Furthermore, a number of private financial institutions, attracted by the reliable returns on projects financed by green bonds, have entered the marketplace. The Green Bond market is rapidly growing. First issued by the World Bank in 2007, the green bond market grew to $11 billion in 2013. As reported by the World Bank, some $32 billion of green bonds have been issued by multilaterals, governments and corporate issuers from January through October 2014, and could surpass $40 billion for the year.". 8) Climate Bond Initiative: "Green bonds were created to fund projects that have positive environmental and/or climate benefits. The majority of the green bonds issued are green “use of proceeds” or asset-linked bonds. Proceeds from these bonds are earmarked(link is external) for green projects but are backed by the issuer’s entire balance sheet. There have also been green "use of proceeds" revenue bonds(link is external), green project bonds and green securitized (link is external) bonds.". 9) "The wheels of climate finance are turning: the Green Climate Fund (GCF) will soon start distributing funds through 7 institutions.". "The accredited institutions include the following: Centre de suivi écologique (CSE) from Senegal, which focuses on combating desertification and protecting coastal areas. In 2010, CSE was the first national institution to be accredited and to implement a project through the Adaptation Fund , the first international climate fund to take the pioneering step of accrediting developing country institutions. Fondo de Promoción de las Áreas Naturales Protegidas del Péru (PROFONANPE) that specializes in funding biodiversity conservation and managing protected areas. Like CSE, PROFONANPE is also accredited to the Adaptation Fund. the Secretariat of the Pacific Regional Environment Programme (SPREP), an intergovernmental organization of Pacific Island countries and territories, based in Samoa, which focuses on protection and sustainable development of the Pacific region’s environment the Acumen Fund, Inc. (Acumen), a well-respected private venture capital fund that invests in developing country entrepreneurs and businesses working to alleviate poverty and advance sustainable development. The social impact investment fund works on improving the lives of low income communities in Africa and Asia, especially in healthcare, agriculture and clean energy. Three international organizations were also accredited: the Asian Development Bank (ADB), Kreditanstalt für Wiederaufbau (KfW), and the United Nations Development Programme (UNDP).". 10) "Major International Research Initiative Launched to Improve Food Security for Developing Countries - Bill & Melinda Gates Foundation." (a). "Listening to farmers and addressing their specific needs. We talk to farmers about the crops they want to grow and eat, as well as the unique challenges they face. We partner with organizations that understand and are equipped to address these challenges, and we invest in research to identify relevant and affordable solutions that farmers want and will use. Increasing farm productivity. We support a comprehensive approach to helping smallholder farmers prosper that includes access to heartier seeds, more effective tools and farm management practices, locally relevant knowledge, emerging digital technologies, and reliable markets. We also advocate for agricultural policies that support farmers in their efforts to better feed themselves and their communities. Fostering sustainable agricultural practices. In an era of increasingly scarce resources and growing impact of climate change, we encourage farmers to embrace and adopt sustainable practices that help them grow more with less land, water, fertilizer, and other costly inputs while preserving natural resources for future generations. Achieving greater impact with partners. We are committed to communicating our strategy more effectively and sharing what we’ve learned with grantees and other partners, including governments, nongovernmental organizations, traditional and emerging donors, and the private sector. Our resources, while significant, represent only a fraction of what is needed. Collaborating effectively with others maximizes our collective impact in helping farming families.". The above list of funding paths is not exhaustive and many existing and future environmental focused funding programs can be coupled together to provide a comprehensive list of funding options for all WENN management scenarios ranging from the smallest rural communities; the largest of metropolitan cities; remote rural areas, marine solutions and/or entire global regions. This proposal calls for the creation of a Benefit Corporation (B Corp), with an international scope and benefit mission which can lead the way in the establishing standards and practices associated with WENN local/regional STEM management, funding and policy development. The B Corp mission statement can use modified language found in many bio-energy development related agencies, such as the Department of Energy's Office of Bioenergy Technology, while employing an international perspective. The mission of the Office of Bioenergy Technology is stated as follows: "Develop and transform our renewable biomass resources into commercially viable, high-performance biofuels, bioproducts, and biopower through targeted research, development, and demonstration supported through public and private partnerships." The goal of the Office is to develop commercially viable bioenergy and bioproduct technologies to: · Enable sustainable, nationwide production of biofuels that are compatible with today’s transportation infrastructure, can reduce greenhouse gas emissions relative to petroleum-derived fuels, and can displace a share of petroleum-derived fuels to reduce U.S. dependence on foreign oil. · Encourage the creation of a new domestic bioenergy and bioproduct industry. The above language can be crafted to reflect the global need for bio-energy independence, climate change mitigation/adaptation, water recovery/creation and bulk nutrient management. Additionally, the final draft of the mission statement should be the subject of a...brief...international debate so as to flush out any strong objections from the STEM, policy or civil society sectors. Once the B Corp is established and the WENN specific funding matrix is customized per specific locations (i.e. cities, rural, marine, regional etc.), multiple on-the-ground projects can be initiated simultaneously around the planet.

Michael Hayes

Jun 26, 2015
03:32

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Below is a Q&A exchange from; Energy Supply: Chemosynthetic Management of the Water/Energy/Nutrient Nexus-WENN https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301413/phaseId/1306764/planId/1314306/tab/COMMENTS#addCommentForm Hello Dustin, Thank you for the most knowledgeable and precise questions anyone has ever stepped forward with! I'll directly quote you and respond below: "emanate domain laws stipulate that just compensation must be awarded the party previously in control of the infrastructure being claimed. In the case of fuel pipelines, it could easily be seen under law that the party is entitled to the projected value of fuel transport revenues it expects over the lifetime of the pipeline." I would think that the lifetime economic potential of the pipelines are not factored as the 'lifetime' econmic factors were not included in the original emanate domain capture of the property. Why would private land owners be given one set of economic evaluation factors and pipeline/utility companies another? "If so, this would drastically increase the price of acquiring the pipeline, perhaps far greater than the construction of new bio-reactors and means of transport." The above is most likely not the case yet you raise an obvious point worth further research at the local, state and national level. "I am also under as to whether there would be legal clauses prohibiting emanate domain acquiring infrastructure to be used by a third party, in this case the organization tasked with growing and transporting the algal fuel." The exact legal wording will play a large role in answering the above yet, in general, once the emanate domain is exercised, there are no restrictions as to further use. The land owners can do with the land as they see fit. "I'm also curious as to your proposed means of utilization of the resulting algal fuels (unless I'm mistaken, this wasn't specified)." The algae has a broad array of potential uses. Biofuel and biochar are high on the priority list as together they create a carbon negative scenario. "Namely, are you proposing the fuel is converted to a liquid gasoline alternative for transportation use (thus offsetting the reduction of fuel transport resulting from acquired pipelines)," Yes. "..or that the algae is dried and burned for electrical generation?" Yes. "I'm curious because it ultimately influences the carbon abatement potential of the project. While centralized electrical generation may be equipped with carbon-capture and storage technology, resulting in a carbon-negative fuel, its use as a transportation fuel would render it at-best carbon neutral." True, yet the production/use of biochar factor turns all biofuel production (within the overall production process) C neg. "Thanks for the captivating proposal, and I look forward to seeing how algal fuels evolve to become more present within our energy system (I am particularly interested in their potential as a drop-in aviation fuel)." Yes, aviation and marine fuels will probably be early stage drivers of the overall market potential of the system. Again thank you for your intelligent questions. Michael

Michael Hayes

Jun 26, 2015
06:07

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The proposal ended up being shorted. In that, the final text does not show the full text. The shorting happened in the 'Related Proposals' section. Please see the 'Related Proposals' section in other proposals such as: Urban Energy Efficiency https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301603/planId/1314313

Michael Hayes

Jul 17, 2015
04:55

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Hello Annalyn, The problem of dropping text/revisions has happened again. In particular, the proposals at: https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301420/planId/1314310 https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301402/planId/1314411 omitted important text changes in multiple sectors. Please compare what I copied and pasted into a...final version.... Google Doc....(which I created as a last chore on that proposal after coordinating all info on both of the above proposals) as opposed to what ended up in the CoLab Docs. Final version of my work on both 'Waste Management' and 'Atypical Ideas for Carbon Neutrality' https://docs.google.com/document/d/1cJW-z8cBZ9akqcpLgLztaPQ6FX-zMtpz-0r2_Hc_oMg/edit#heading=h.p67pwkldmidp Further, I've referenced 'Global Scale: Chemosynthetic Management of the Water/Energy/Nutrient Nexus-WENN' within https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301402/planId/1314411 and the link takes it to 'Energy/Water Nexus' https://www.climatecolab.org/web/guest/plans/-/plans/contestId/1301501/planId/1315115 The numerous faults in accurately portraying my work are becoming almost too numerous for me to check. Please help me properly get the work I've accumulated to the judges on both contests. Please pass on the Final Version Google Doc https://docs.google.com/document/d/1cJW-z8cBZ9akqcpLgLztaPQ6FX-zMtpz-0r2_Hc_oMg/pub Warmest regards, Michael