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Posts Tagged ‘clean tech’

MIT Enterprise Forum Gala 2010 at the Canadian Embassy in Washington, DC

In angel Investor, cleantech, Energy, entrepreneur, finance, investment, Science, Technology, technology transfer, Venture Capital on February 22, 2010 at 7:08 pm

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The MIT Enterprise Forum (MITEF) of DC & Baltimore’s  2010 Gala on February 18, 2010 was an event to remember for 150+ small and medium entrepreneurs and the larger companies, VCs, Angel Investors and service providers who support and mentor them.

In a town where skepticism is rampant and who you know sometimes seems more important than what you know, the MIT Enterprise Forum of DC and Baltimore refreshingly brought together inspired professionals with knowledge, leadership and hope for the future to talk about international cooperation in launching and growing science based technology businesses. The Gala was held at the beautiful Canadian Embassy on Pennsylvania Avenue and it marked MITEF’s first DC based event. The glass windows of the Embassy looked out onto the Capital which provided a terrific backdrop for the distinguished gathering. One hundred and fifty entrepreneurs, scientists, venture capitalists and service-providers spent three hours mingling and eating, listening and asking questions of two fascinating keynote speakers with first hand knowledge about policy and the investment realities for Canadian and American businesses.

MITEF Gala program


This year’s theme was “Growing Opportunity for Technology Entrepreneurship in Domestic and Emerging Markets: The Role of Innovation in Economic Development” and was chaired by Patrick Mellody, a Director on the MITEF Board.  Jean-Luc Park, the MITEF Chairman and an Associate at the Calvert Fund moderated.

Jean-Luc Park Chairman Chapter of the MITEF of DC & Baltimore

The two keynote speakers were Jean-René Halde of the Business Development Bank of Canada & Phil Auerswald, founder and co-editor of the MIT Innovations Journal (along with Iqbal Quadir, Founder of Grameen Phone) and Associate Professor at George Mason University. The question and answer period went on for 30 minutes which indicated that people were truly engaged with both Jean-René Halde and Phil Auerswald.

Jean-René Halde’s visit with the MITEF was part of a larger business trip to the United States. Mr. Halde told the crowd that he was enjoying his trip and had enjoyed productive meetings with the heads of several private and public American institutions in Washington, DC. As CEO of the Business Development Bank of Canada, Jean-René’s primary goal is to invest in and promote entrepreneurial activity in Canada. He does this with tremendous support from the Canadian government. He is enthusiastic about the many successful entrepreneurial partnerships between American and Canadian companies. Mr. Halde also shared what he believes are new opportunities in a difficult economic environment. Mr. Halde ended the evening by  showing his Canadian pride as this year’s sponsor of the Olympics. He generously awarded several pairs of red mittens adorned with the Olympic symbol to several lucky attendees.

Phil Auerswald came to the Gala hours after meeting with leaders at the Clinton Global Initiative in New York. Mr. Auerswald brought a fresh new perspective to the MIT Enterprise Forum. He asked entrepreneurs to think globally as they create new entrepreneurial partnerships and establish new markets for their products. He asked them to engage foreign nationals to learn more about partnership opportunities in international markets. He also asked entrepreneurs to become more politically involved to protect their interests and grow their range of opportunities both at-home and abroad.

All in all- the evening was a tribute to the spirit of innovation and broad international entrepreneurial partnerships. Event Sponsors included The Canadian Embassy, Honeywell, Connolly Bove Lodge & Hutz, LLP and ProVDN

_______________________________
About The MIT Enterprise Forum
Open to all since 1981, the Enterprise Forum® has promoted the growth, education, and success of the entrepreneur and business community of the greater Washington & Baltimore area.
The MITEF is a non-profit, volunteer organization, it provides exceptional quality events that are open to the public.  Its many programs are targeted to local start-ups, high technology businesses, venture capitalists, angels, and the professionals who support them.

The DC  chapter is one of a network of 24 worldwide chapters of the Enterprise Forum , which was created as an outreach educational program of the Massachusetts Institute of Technology (M.I.T.).  Participation and membership by the general public, regardless of their affiliation, is encouraged.

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The Author, Halima Aquino, is a Director on the Board of the MIT Enterprise Forum. She was also last year’s Gala Chair and this year’s Vice Chair. Halima is the Founder of Bolton Hill Consulting and Clean Tech Market Maker.

Photography and videos supplied by Allan Tone at ProVDN

2010 Goldman Sachs Making Up To $1B Investment in Renewable Energy

In agriculture, biofuel, Biotechnology, cleantech, construction, Energy, entrepreneur, Environment, finance, greentech, investment, Solar, Sustainable, Venture Capital on February 11, 2010 at 3:36 am

Goldman Sachs Environmental Policy Framework

In mid- January (see Bloomberg) Goldman Sachs Group Inc. said that shortages will reappear in the crude oil market as supply fails to keep pace with a recovery in demand. Global oil consumption will return to levels seen before the financial crisis by the third quarter of this year, Goldman analyst Jeffrey Currie said in a presentation in London.  At the same time, projects to bring new oil to consumers are still lagging as a result of the credit crunch, he said. By 2011, the market is back to capacity constraints…The financial crisis created a collapse in company returns which has significantly interrupted the investment phase.”

Goldman Sachs is aggressively seeking market making opportunities in environmental markets. The policy framework that they have laid out explains both their investment strategy and an underlying commitment to protect the environment and indigenous populations. Their specific interests in wind, water, solar, alternative biofuels and sustainable forestry related products are detailed below along with references to existing partnerships and hints of future commitments.

Goldman Sachs “seeks to make a significant positive contribution to climate change, sustainable forestry and ecosystem services through market-based solutions.”

In their own words-  Goldman Sachs’ core competencies include

Goldman Sachs will aggressively seek market making and investment opportunities in the environmental markets described below.

These are Goldman Sachs’ stated objectives:

  1. They intend to be  a leading U.S. wind energy developer and generator through their recently acquired subsidiary, Horizon Wind Energy (f.k.a. Zilkha Renewable Energy).
  2. They will make available up to $1 billion to invest in renewable energy and energy efficiency projects.
  3. They will evaluate opportunities and, where appropriate, encourage the development of and participate in markets for water, biodiversity, forest management, forest-based ecosystems, and other ecosystem features and services.
  4. They will continue to devise investment structures for renewable energy and invest alongside our energy clients, such as our wind energy partnership with Shell Wind Energy and our solar energy fund with BP Solar.
  5. They will explore investment opportunities in renewable and/or cleaner burning alternative fuels such as renewable diesel (such as our investment in Changing World Technologies), ethanol and biomass.
  6. They will seek to make investments in, and create financing structures to assist in the development and commercialization of, other environmentally friendly technologies.

Equator Principles

The Equator Principles serve as a framework for determining, assessing, and managing environmental and social risk in project financing, based on the policies of the World Bank and its private sector arm, the International Finance Corporation. Goldman Sachs will seek to apply the general guidelines to debt and equity underwriting transactions, to the initiation of loans and to investment banking advisory assignments where the use of proceeds is specified to be used for potentially

Goldman Sachs says that they will not knowingly finance

  • Any project or initiate loans where the specified use of proceeds would significantly convert or degrade a critical natural habitat.
  • Extractive projects or commercial logging in World Heritage sites.ii
  • Companies or projects that collude with or are knowingly engaged in illegal logging
  • Projects that contravene any relevant international environmental agreement which has been enacted into the law of, or otherwise has the force of law in, the country in which the project is located.

Goldman Sachs prefers to

  • Only finance preservation and light, nonextractive use of forest resources for projects in forests whose high conservation values are endangered.iii
  • Develop due diligence procedures around key environmental issues for use in evaluating potential financings.
  • Protect the highest conservation values in forests with respect to its execution of financings in the logging and forest products industries.
  • Use a Forest Stewardship Council or a comparable certification when they finance forestry projects that impact high conservation value forests.
  • Examine whether clients process, purchase, or trade wood products from high risk countries and will encourage such clients to have certifiable systems in place to ensure that the wood they process, purchase or trade comes from legal sources.
  • Provide training, as appropriate, to our employees on environmental issues and practices.
  • Develop training sessions and provide the tools necessary to make informed decisions.
  • Finance projects in indigenous areas where free, prior informed consultation results in support of the project by the affected indigenous peoples.

US DOE International Solar Decathlon 2009 Winners & 2011 Rules

In building, cleantech, construction, Energy, entrepreneur, Environment, greentech, investment, maintech, Science, Solar, Sustainable, Technology, technology transfer, Venture Capital on February 10, 2010 at 5:56 pm

Eye on Algae making biofuel: LS9, Algenol, Algae Systems, Martek Biosciences, Solozyme

In agriculture, Bioscience, Biotechnology, cleantech, Energy, Environment, greentech, investment, Science, Sustainable, Venture Capital on February 4, 2010 at 10:13 am

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Five companies we should watch on the development of biofuel from Algae: LS9 and Solazyme in S. San Francisco, Algae Systems, Algenol in Florida and Martek Biosciences in Maryland. These companies are partnering with government and private industry to make strides in plant based fuels that can be produced locally with no toxic emissions.

1) LS9

Biofuels startup LS9 Inc. bought its first demonstration facility to create renewable petroleum.

The South San Francisco-based startup said Wednesday 2-3-10 that it bought the Okeechobee, Fla., factory for $2 million out of bankruptcy though it had been valued at $80 million. The plant, which was formerly used to convert animal waste into feed, will be retrofitted over 6 months to accommodate LS9’s production process, which produces fuel from raw materials in a one-step fermentation process.

CEO Bill Haywood said the company explored several options including renting existing facilities with fermentation equipment and building a new plant and intended to try and purchase fermenting equipment when it stumbled on the factory.

The company said it can produce 50,000 to 100,000 gallons of renewable diesel for its demonstration phase, but could also retrofit the factory into a full-scale commercial plant. “The real thing I’m most excited about is speed — our ability to scale up quickly and bring this incredible technology to the market very quickly,” Haywood said.

Finding facilities to demonstrate fuel technology at commercial scale is challenging and expensive for biofuels startups. Companies including Solazyme, Zeachem and Amyris Biotechnologies got a boost from the American Recovery and Reinvestment Act, which doled $600 million in biofuels grants. But LS9 was excluded.

2) Algae Systems in cooperation with NASA

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Algae Systems is a new company dedicated to commercializing a novel method for growing microalgae offshore as a biofuel feedstock. This approach, developed by a diverse team of scientists and engineers at the NASA Ames Research Center, is called the Algae OMEGA System.

NASA invented an algae photo-bioreactor that grows algae in municipal wastewater to produce biofuel and a variety of other products. The NASA bioreactor is an Offshore Membrane Enclosure for Growing Algae (OMEGA), which won’t compete with agriculture for land, fertilizer, or freshwater.
NASA’s Ames Research Center, Moffett Field, Calif., licensed the patent pending algae photo-bioreactor to Algae Systems, LLC, Carson City, Nev., which plans to develop and pilot the technology in Tampa Bay, Florida. The company plans to refine and integrate the NASA technology into biorefineries to produce renewable energy products, including diesel and jet fuel.

“NASA has a long history of developing very successful energy conversion devices and novel life support systems,” said Lisa Lockyer, deputy director of the New Ventures and Communication Directorate at NASA Ames. “NASA is excited to support the commercialization of an algae bioreactor with potential for providing renewable energy here on Earth.”

The OMEGA system consists of large plastic bags with inserts of forward-osmosis membranes that grow freshwater algae in processed wastewater by photosynthesis. Using energy from the sun, the algae absorb carbon dioxide from the atmosphere and nutrients from the wastewater to produce biomass and oxygen. As the algae grow, the nutrients are contained in the enclosures, while the cleansed freshwater is released into the surrounding ocean through the forward-osmosis membranes.

“The OMEGA technology has transformational powers. It can convert sewage and carbon dioxide into abundant and inexpensive fuels,” said Matthew Atwood, president and founder of Algae Systems. “The technology is simple and scalable enough to create an inexpensive, local energy supply that also creates jobs to sustain it.”

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3) Martek Biosciences in cooperation with BP:

Martek Biosciences is applying its expertise in developing nutritional products from algae and other microbial sources to produce biofuels.

The Columbia company announced a multiyear agreement with British global energy giant BP to convert sugar into biodiesel. Martek and BP plan to establish proof-of-concept for large-scale, cost-effective microbial biodiesel production through fermentation. BP committed to spending up to $10 million on the collaboration’s first phase.

“Martek is pleased to partner with BP’s Alternative Energy team, to combine our unique algae-based technologies and intellectual property for the creation of sustainable and affordable technology for microbial biofuel production,” said Steve Dubin, Martek CEO, in statement. “BP’s global leadership and commitment to alternative energy solutions complements Martek’s own commitment to responsible and sustainable products and production.”

“As an alternative to conventional vegetable oils, we believe sugar to diesel technology has the potential to deliver economic, sustainable and scaleable biodiesel supplies,” said Philip New, CEO of BP Biofuels. “In partnering with Martek, we combine the world’s leading know-how in microbial lipid production with our expertise in fuels markets and applications, and our more recent experience in biofuels production and commercialization.”

4. Solazyme in cooperation with Chevron

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Solazyme, Inc. is the leading renewable oil and bioproducts company. It was rated as the #1 Hot Company by Biofuels Digest for 2009 – 2010.  The company uses algal biotechnology to renewably produce clean fuels, chemicals, foods and health science products. Solazyme’s advanced and proprietary technology uses algae to produce oils and biomaterials in standard fermentation facilities quickly, cleanly, cost effectively and at large scale.

Solazyme And Chevron Technology Ventures Have a Biodiesel Feedstock Development And Testing Agreement

South San Francisco, Calif – January 22, 2008 – Solazyme, a synthetic biology company pioneering the clean and sustainable bioproduction of fuels, industrial chemicals and specialty ingredients from marine microbes, today announced that it has signed a biodiesel feedstock development and testing agreement with Chevron Technology Ventures, a division of Chevron U.S.A. Inc.

“Building a relationship with Chevron Technology Ventures is an important step toward commercialization of Solazyme’s technology which fits cleanly into Chevron’s existing refining and fuels distribution infrastructure.” said Jonathan Wolfson, chief executive officer of Solazyme.

Using a proprietary protected process that optimizes algal oil production, Solazyme is producing high-value, functional oils that can be leveraged across a wide variety of industries and applications including biodiesel, biojet and other biofuels. Solazyme has developed an industrial scale fermentation process currently capable of producing thousands of gallons of algal oil using standard industrial equipment. In addition, Solazyme has plans to dramatically expand production in 2008.

Solazyme has produced a variety of renewable algal oil and materials based products including:

  • biodiesel that meets ASTM D6751, EN 14214, and U.S. Military specifications
  • renewable diesel that meets ASTM D975
  • renewable jet fuel that meets all 11 key tested criteria for ASTM D1655 (Jet-A1)

5. Algenol Biofuels

Algenol’s prototype production strains can produce ethanol at a rate of 6,000 gallons/acre/year, and are expected to improve to 10,000 gallons/acre/year by the end of 2009. With further refinement, the algae cells have the potential to increase production rates to 20,000 gallons/acre/year in the future. There are over 100,000 species of blue-green algae useable with rapid growth cycles, high photosynthesis efficiency, large sugar storage attributes that Algenol has access to in refining algae with its Direct to EthanolTM process. The algae are metabolically enhanced to produce ethanol while being resistant to high temperature, high salinity, and high ethanol levels, which were previous barriers to ramping to commercial scale volumes.

Algenol only uses algae strains that do not produce human toxins. In addition, the specific algae cells used cannot live in the environment found outside their Capture TechnologyTM contained sealed bioreactor.

Algenol will now move into a 43,000 square foot facility near Fort Myers, that in addition to serving as company headquarters will serve as a pilot production plant, producing 300,000 gallons of ethanol per year, or three times the production at the pilot plant being built in Freeport, Texas in partnership with Dow (a project which recently was awarded a $25 million grant by the DOE as one of 19 integrated biorefinery pilot and demonstration projects). CEO Paul Woods told local media that the company will move into its new facility by May and will commence production of ethanol by August. The project will bring 100 new jobs to Florida, including 50 transferred from the company’s labs in Baltimore.

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Department of Energy DOE: Energy Efficiency & Renewable Energy Peer Review Best Practices Workshop

In building, cleantech, Energy, entrepreneur, Environment, finance, greentech, maintech, Power Grid, Science, Solar, Sustainable, Technology, technology transfer, Venture Capital on January 27, 2010 at 11:10 pm

This Association of Public Land Grant Universities (APLU) sponsored event was designed to help DOE employees improve the grant review process. Had it been open to the public… it would have been of great interest to anyone trying to get government funding in the renewable energy arena.

It was a privilege to attend this event.

Jim Turner at the Association of Public Land Grant Universities (APLU) put on a stellar speaker panel and provided participants with the opportunity to meet the experts in the funding process. A select group of speaker presentations are listed below. One of the best featured speakers included D. Wayne Silby (Chair), Founding Chair of the Calvert Funds; Co-chair, Calvert Social Investment Foundation; Chair-elect and Principal, Syntao.com. Catherine Hunt, Dow, Director of Technology Collaboration Development was engaging and informative about finding practical solutions to industry problems.

The agenda and presentations are included below:

EERE Peer Review Best Practices Workshop
Tuesday, January 26, 2010
1307 New York Ave. NW, Washington, DC 20005
8:30 am Continental Breakfast

9:00 am Welcome : Peter McPherson, President, APLU

9:05 am Opening Remarks:Henry Kelly, Principal Deputy Assistant Secretary, DOE Office of Energy Efficiency & Renewable Energy

9:15 am Keynote : Bill Bonvillian, Director of Federal Relations, MIT

9:45 am Peer Review Best Practices: Basic Science
Moderator: Jim Turner, Energy Programs, APLU

  • W. Lance Haworth, Director of Office of Integrative Activities, NSF
  • David T. George, Director, Office of Scientific Review, NIBIB, NIH
  • Linda Blevins, Senior Technical Advisor, Office of Science, DOE
  • Diana Jerkins, Interim Integrated Programs Director, Competitive Programs Unit, NIFA, USDA

11:15 am Peer Review Best Practices: Applied Research and Technology Development
Moderator: JoAnn Milliken, EERE

  • Marc Stanley, Deputy Director, NIST
  • Arun Majumdar, Director, ARPA-E
  • Julie A. Christodoulou, Director, Naval Materials Division, ONR
  • Lita Nelsen, Technology Licensing Office, MIT

12:30 pm Lunch

1:00 pm Peer Review Best Practices: Private Sector and Academic
Moderator: Jim Turner, Energy Programs, APLU

  • Catherine Hunt, Dow, Director of Technology Collaboration Development
  • Supratik Guha, Senior Manager, Semiconductor Materials and Devices,
  • Thomas J. Watson Research Center, IBM
  • Wayne Silby, Chairman, Calvert Special Equities
  • Mike Witherell, Vice Chancellor for Research, University of California at Santa Barbara and former head of Fermilab

2:15 pm Alternate Approaches to Peer Review

  • Ken Gabriel, Deputy Director, DARPA
  • Doug Comstock, Director, Innovative Partnerships Program, NASA

3:00 pm Public Comment Period

:: EERE Peer Review Best Practices Workshop Agenda
:: EERE Peer Review Best Practices Workshop Speaker Bios
Powerpoint Presentations
  1. :: Henry Kelly, Principal Deputy Assistant Secretary,
  2. DOE Office of Energy Efficiency & Renewable Energy
  3. :: W. Lance Haworth, Director of Office of Integrative Activities, NSF
  4. :: Linda Blevins, Senior Technical Advisor, Office of Science, DOE
  5. :: Diana Jerkins, Interim Integrated Programs Director, Competitive Programs Unit, NIFA, USDA
  6. :: Marc Stanley, Deputy Director, NIST
  7. :: Julie A. Christodoulou, Director, Naval Materials Division, ONR

Solar power from Sahara step closer | Business | guardian.co.uk

In cleantech, Energy, Power Grid, Solar, Sustainable on November 1, 2009 at 11:31 am

by Ashley Seager for guardian.co.uk, Sunday 1 November 2009 14.20 GMT

The German-led Desertec initiative believes it can deliver power to Europe as early as 2015

The technology is not new – it is the scale of the Desertec initiative which is a first…

A $400bn (£240bn) plan to provide Europe with solar power from the Sahara moved a step closer to reality today with the formation of a consortium of 12 companies to carry out the work.

The Desertec Industrial Initiative (DII) aims to provide 15% of Europe’s electricity by 2050 or earlier via power lines stretching across the desert and Mediterranean sea.

The German-led consortium was brought together by Munich Re, the world’s biggest reinsurer, and consists of some of country’s biggest engineering and power companies, including Siemens, E.ON, ABB and Deutsche Bank.

It now believes the DII can deliver solar power to Europe as early as 2015.

“We have now passed a real milestone as the company has been founded and there is definitely a profitable business there,” said Professor Peter Höppe, Munich Re’s head of climate change.

“We see this as a big step towards solving the two main problems facing the world in the coming years – climate change and energy security,” said Höppe.

The solar technology involved is known as concentrated solar power (CSP) which uses mirrors to concentrate the sun’s rays on a fluid container. The super-heated liquid then drives turbines to generate electricity. The advantage over solar photovoltaic panels, which convert sunlight directly to electricity, is that if sufficient hot fluid is stored in containers, the generators can run all night.

The technology is not new – there have been CSP plants running in the deserts of California and Nevada for two decades. But it is the scale of the Desertec initiative which is a first, along with plans to connect North Africa to Europe with new high voltage direct current cables which transport electricity over great distances with little loss.

via Solar power from Sahara step closer | Business | guardian.co.uk.

World Bank Development Marketplace Climate Adaptation Grant Recipients to be Announced November 10-13, 2009

In agriculture, Bioscience, Biotechnology, cleantech, Environment, greentech, Science, Sustainable, Technology on October 20, 2009 at 12:27 pm

The Development Marketplace is a competitive grant program administered by the World Bank. The 2009 global competition is funded by the Global Environment Facility (GEF) and additional DM partners. It aims to identify 20 to 25 innovative, early-stage projects addressing climate adaptation.

Open to the public: this year’s Climate Adaptation Grant Recipients will be announced on Nov 10-13, 2009

Development Marketplace – DM2009 – Climate Adaptation.

In 2008- twenty-two project winners collected their crystal awards and grant checks in the 2008 Global Development Marketplace: Sustainable Agriculture for Development:

The winners came from Sub-Saharan Africa, South and East Asia, and Latin America and the Caribbean.  India, Mexico, Brazil, Ecuador, Cambodia, and Vietnam were each the home of two award winners.  Altogether, 15 countries and Sub-Saharan Africa as a region were represented.

The projects that made the final cut — from 1,800 applications that were winnowed down to 100 from 42 countries — promise to deliver a number of objectives and innovations to increase agricultural productivity, give farmers more land rights and link them to global markets, and, overall, reduce the deep poverty of rural regions in developing countries.

All the grants are $200,000 or less — but the World Bank Group and other funders of DM2008 see even the smallest projects having a catalyst effect on lagging agricultural development that has been undercutting gains in the global fight against poverty.

In her opening remarks, Katherine Sierra, Vice President of Sustainable Development at the World Bank, a DM2008 partner, complimented the winners on their “ambition and drive,” and said their innovation comes when it’s especially needed — amid the crisis of rising commodity prices.

“Today we meet to celebrate innovation,” said second speaker Monique Barbut, CEO of the Global Environment Facility, a competition partner.  “And the projects we are recognizing here do just that by supporting communities struggling with the agricultural challenges of the food price crisis.”

More compliments came from other speakers representing other partners — Mercy Karanja, Senior Program Officer of the Bill and Melinda Gates Foundation, and Albert Engel, Head, Division for Agriculture, Fisheries, and Food at GTZ.

The winners that used technology are listed below: (listed by project, country, sponsoring organization, and objective):

1. Using Cassava Waste to Raise Goats, Nigeria, University of Agricultural, Abeokuta. To create a new market linking cassava producers and goat keepers through the introduction of a simple drying technology that will turn cassava waste into goat feed.  As a result, the project will increase farming incomes and reduce carbon dioxide wastes by eliminating the need to burn cassava waste.

2. Converting Rice Fields into Green Fertilizer Factories, Ecuador, Escuela Superior Politécnica del Litoral (ESPOL). To increase rice yields and reduce dependency on imported artificial nitrogen fertilizers through the re-introduction and cultivation of the Azolla Anabena plant as a biofertilizer.

3. Linking Coffee Farmers to Markets via Traceable Coffee, Sub-Saharan Africa, Pachama Coffee Cooperative of Small-scale coffee producers. To support small farmers to obtain a greater share of the value-added in coffee production through the introduction of an online tracking system that will allow end consumers to trace a specific coffee back to the level of the actual farm.

4. Mini Cold Storage Ventures, India, Tiruchirappalli Regional Engineering College- Science and Technology Entrepreneurs Park. To establish cold chain enterprises among trained youth using the latest technology in refrigeration adapted to the needs of small farmers.

5. Renewable Energy-Powered Milk Coolers, Uganda, University of Georgia, To test a reengineered milk cooling system to match the needs of smallholder dairy farmers, resulting in reduced post-harvest losses and increased farm income.

6. Micro-Franchising Scheme for Agricultural Services, Cambodia, International Development Enterprises Cambodia. To develop a sustainable micro-franchise enterprise to provide affordable horticulture services through private extension agents.

7. Açaí Production for Income Generation and Forest Protection, Brazil, Centro Ecológico. To provide technical services to a local cooperative of small scale farmers in the biodiversity-rich Atlantic Forests to harvest and market the açaí berry.

8. Value Chain Development for Textile Products, Mongolia, VSO. To increase the domestic value of livestock production through better marketing opportunities and services to raw material producers and processors.

9. Organoleptic Analysis to Improve Market Access for Cacao Growers, Ecuador, Conservación y Desarrollo. To equip cacao growers with access to chocolate making machinery so that they can better serve differentiated markets and improve the quality of their product.

10. Ancient Cocoa: Modern Genomics Methods Benefiting Small Farmers, Trinida and Tobago, Bioversity International. To enhance the cocoa value chain by facilitating the identification of more profitable trace cocoa cultivars using modern genomics methods.

11. Riverbed Farming for Landless Households in Nepal, Nepal, Helvetas. To facilitate the use of leasing arrangements for landless households to gain access to unused dry riverbeds for off-season cultivation of horticultural produce.

12. Collective Land Ownership Model for Women, India, Manav Seva Sansthan “SEVA.” To demonstrate the effectiveness of a collective land ownership model that provides women secured land holdings necessary for them to adopt more profitable modern farming practices.

13. Legal Aid for Farmers’ Land Rights, China, Rural Development Institute. To create the first legal aid center in China devoted to farmers’ agricultural land rights.

14. Land Ownership for the Rural Poor in Mexico, Mexico, Agros International.To create two sustainable farming communities in Chiapas through the long-term lease of land and provision of integrated technical services to landless farmers.

15. Producing Biofuel from Indigenous Non-Edible Nuts, Tanazania, Africa Biofuel and Emission Reduction Ltd. To cultivate and sell an indigenous oil-seed for biofuel from the Croton tree, creating a new, sustainable cash crop for smallholder farmers.

16. Locally Produced Biofuel Outboard Motor, Senegal, Mission Goorgoorlu. To introduce along Senegal’s waterways an affordable and environmentally friendly mode to transport agriculture products to market. The project is using traditional vessels powered by a locally produced biofuel outboard motor fueled by processed indigenous oil seeds.

17. Agricultural Cooperatives for Biodiversity Conservation, Cambodia, Wildlife Conservation Society. To pilot Cambodia’s first market for payment for environmental services generated from agriculture using a “Wildlife-friendly” branding and marketing strategy.

18. Reducing Impacts of Ranching on Biodiversity, Mexico, Grupo Ecológico Sierra Gorda. To pilot a payment scheme for a “gourmet” menu of integrated environmental services generated from intensive cattle operations in the biodiversity-rich area of San Antonio Tancoyol.

19. Sustaining Nitrogen-Efficient Rice Production, Vietnam, University of Sydney. To establish an integrated production-supply-extension chain to ensure a reliable biofertilizer product that reduces chemical contamination and increases yields.

20. Low-Cost Housing: Waste Rice Straw Construction Panels, Vietnam, Vinh Sang Ltd. To create a sustainable enterprise that manufactures kits for affordable environmentally sustainable housing made from recycled straw waste in the Mekong Delta.

22. Payment for Ecosystem Services and Sustainable Agriculture, Paraguay, Organization of American States. To implement in three pilot sites a menu of agro-forestry practices combined with a scheme of Payments for Ecosystem Services. This will be the first application of Paraguay’s Law of Ecosystem Services in the context of a rural farm economy.

Clean Energy Patents Hit Record High in the US

In angel Investor, cleantech, Energy, entrepreneur, greentech, investment, maintech, Sustainable, Technology, technology transfer, Venture Capital on October 5, 2009 at 3:29 pm

Clean Energy Patents Hit Record High in the US.

by Zachary Shan at CleanTechnica.com

Some Excerpts:

According to intellectual property law firm Heslin Rothenberg Farley & Mesiti P.C., who publishes the Clean Energy Patent Growth Index (CEPGI) every quarter, 274 clean energy patents were granted last quarter. This is 31 more than the previous quarter and 57 more than in the same quarter last year.

This is a good sign that clean technology will continue to provide the US with a greater and greater share of its energy. Additionally, clean technology in the transportation sector is advancing at great speed and with momentum and maybe we will find our way out of gas and oil related crises soon. Fuel cell* technology is leading the way. Victor Cardona, co-chair of the firm’s Cleantech Group, states: “Fuel cells continued to dominate the other technologies while wind and solar patents continued an upswing. Honda earned more patents than the other patentees to again claim the Clean Energy Patent Crown.”

Another record high was in the biofuels** sector. “Biofuel patents reached an all time
quarterly high at 13 and were up 2 relative to the first quarter and up 8 over a year before,” according to the press release.

Geographically, Japan led the pack (with 75 new patents), California was second (29), Michigan and Germany tied for third (23), and New York and Korea tied for fifth (15). In addition to Honda, the top companies were GM, Toyota, GE, Nissan, and Panasonic Corp. (respectively).

*For recent news on fuel cells, read Full Cycle Energy Joins Race for Non-Platinum Fuel Cells and Wegmans Grocery Gets $1 Million Grant for Fuel Cell Technology.

**For recent news on biofuels, read Watermelon Juice — Next Source of Renewable Energy, Electrolyzed Water Turns Waste Product Into Biofuel, and Scientists Force Fungus to Have Sex to Create Biofuel.

Roads With Solar Panels: It’s Possible

In cleantech, Energy, entrepreneur, Environment, greentech, Science, Sustainable on October 5, 2009 at 9:50 am

Replacing All Roads With Solar Panels: It’s Possible.

Solar RoadwayThere is approximately more than 5.7 million miles of paved highway in the United States and in a bid to find new sustainable ways of producing renewable energy, one small Idaho company believes they’ve found the solution: solar roadways.

According to their website, www.solarroadways.com, the idea revolves around “a series of structurally-engineered solar panels that are driven upon. The idea is to replace all current petroleum-based asphalt roads, parking lots, and driveways with Solar Road PanelsTM that collect and store solar energy to be used by our homes and businesses. This renewable energy replaces the need for the current fossil fuels used for the generation of electricity. This, in turn, cuts greenhouse gases literally in half.”

Cleantech Forum Boston

In cleantech on August 7, 2009 at 11:44 am

Cleantech Forum® XXIII in Boston, September 8-10 at the Boston Convention and Exhibition Center, will have a strong focus on governmental programs given that worldwide governments have pledged billions of investment capital to clean technologies.Themed The Second Cleantech Investment Boom: Aligning Entrepreneurship and Innovation with Government Stimulus, this year’s East Coast Cleantech Forum in Boston will assemble CEOs, investors, scientists, policy-makers and other industry pioneers to drive demand and open cleantech markets.

For more information go here: http://cleantech.com/cleantechforum/boston09/