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Canadian government announces nineteen successful projects in response to a call for proposals under the Renewable and Clean Energy portion of the Clean Energy Fund

The Honourable Lisa Raitt, Canada's Minister of Natural Resources, today announced support for nineteen (19) projects selected in response to a call for proposals under the Renewable and Clean Energy portion of the Clean Energy Fund. Up to $146 million will be invested over five (5) years to support the demonstration of renewable and clean energy across the country, including integrated community energy solutions, smart grid technology, and renewable applications with solar, wind, tidal and geothermal energy.

Under the Clean Energy Fund, part of the Government of Canada's Economic Action Plan (Budget 2009), the government is to invest almost $1 billion over five (5) years in research, development and demonstration projects to advance Canadian leadership in clean energy technologies. This includes large-scale carbon capture and storage demonstration projects, three (3) of which have already been announced totaling $466 million from the fund, as well as smaller-scale demonstration projects of renewable and alternative energy technologies such as those announced today. Total investments under the Clean Energy Fund for large and small demonstration projects are to benefit Canada's economy by leveraging nearly $3.5 billion in further investments by industry and other levels of government.

The Government is now inviting the project proponents to begin negotiations toward formal contribution agreements to set the conditions under which funding will be delivered. The funding amounts are expected to range from $2.5 million to $20 million for each project. However, until a written contribution agreement is signed by both parties, no commitment or obligation exists on the part of the Government of Canada to make a financial contribution to these projects.

Successful Project Descriptions

A) Projects expected to receive $2.5-$5 million

1. Biomass-based Urban Central Heating Demonstration
Lead proponent: SSQ, Société immobilière Inc.
Strategic Area: Buildings/Community Energy Systems
Location: Québec, Québec
Purpose: La Cité Verte is an innovative real estate project, which combines various initiatives related to sustainable development such as renewable energy utilization, energy efficient design, the management of water consumption, energy and waste management. The funding will support the installation of a biomass and wood-based district heating system. This project combines a variety of technologies and partners.

2. Utility-scale Electricity Storage Demonstration using New and Re-purposed Lithium Ion Automotive Batteries
Lead proponent: CEATI International Inc.
Strategic Area: Electricity Storage
Location: Toronto and Cornwall, Ontario, and Manitoba
Purpose: This project will address electricity storage for renewable and high-density urban applications. The project will demonstrate utility-scale electricity storage systems using new and re-purposed automotive batteries. This concept will reduce cost for electric vehicle batteries providing a future market to meet urban electricity demand using automotive batteries.

3. Energy Management Business Intelligence Platform Development and Demonstration
Lead proponent: Power Measurement Ltd.
Strategic Area: Smart Grid
Location: Commercial buildings in Calgary, Alberta, Ontario and BCIT in Burnaby, British Columbia
Purpose: This project will develop and demonstrate smart grid technology, voluntary load curtailment and peak shaving in a commercial building setting. Most projects of this type to date have focused on residences. This technology will also enable tenants to voluntarily reduce their demand based on real-time price signals.

4. Wind and Storage Demonstration in a First Nations Community
Lead proponent: Cowessess First Nation
Strategic Area: Wind/Storage
Location: Cowessess, Saskatchewan
Purpose: This project aims to demonstrate a combined wind and storage energy system in a First Nation community. The successful demonstration would prove this system as a model for other First Nation's communities across Canada.

5. Bioenergy Optimization Program Demonstration
Lead proponent: Manitoba Hydro
Strategic Area: Bioenergy
Location: Five locations in Manitoba
Purpose: This project is comprised of five different bioenergy systems at five different project sites. The project demonstrates collaboration between utility companies and customers. It is anticipated that the project will help to remove the perceived barrier of technical and operational risk and will promote the wide-scale adoption of bioenergy systems in Canada.

6. Offshore Wave Energy Demonstration
Lead proponent: SyncWave Systems Inc.
Strategic Area: Marine/Hydro
Location: Offshore Central Vancouver Island near Tofino, British Columbia
Purpose: This project will demonstrate the performance, operations and life cycle of a pre-commercial 100-kW wave energy device in ocean conditions typical of British Columbia's open coast. Canada has potentially significant wave energy resources, and it is important for Canada to participate in demonstrations to further the technology, understanding of ocean conditions and the regulatory environment.

7. Demonstration of Waste-heat Recovery at Compressor Stations
Lead proponent: Great Northern Power Corp.
Strategic Area: Hybrid Systems/Northern
Location: Compressor Stations in Alberta and British Columbia
Purpose: This project plans to demonstrate waste-heat recovery systems on a variety of stationary, reciprocating engines greater than 1,000 hp. A successful demonstration has the opportunity to lead to commercialization and wide-scale adoption of this technology at compressor stations and other industrial applications across Canada.

8. Residential Implementation of Solar-thermal Heating Systems
Lead proponent: Enbridge Gas Distribution Inc.
Strategic Area: Buildings/Solar
Location: Greater Toronto Area, Ontario
Purpose: The project will use different types of solar collectors and storage technologies to verify and compare their costs, performance and technical qualities. The project has the ability to validate the technology and provide integrated systems at a lower cost to consumers, thereby allowing greater market penetration.

9. Food and Yard Waste Anaerobic Digestion to Electricity Demonstration
Lead proponent: Harvest Power Canada Ltd.
Strategic Area: Bioenergy
Location: Fraser Richmond Soil and Fibre, British Columbia
Purpose: This project would be Canada's first high-efficiency system for producing up to 1 MW of renewable energy from food and yard waste. If successful, this technology has the potential to be rapidly deployed across Canada as a mechanism to divert food wastes from landfills and produce renewable energy.

B) Projects expected to receive $5-$10 million

10. Demonstration of Heat and Power from Biomass Gasification
Lead proponent: Nexterra Systems Corp.
Strategic Area: Bioenergy
Location: UBC Point Grey Campus, Vancouver, British Columbia
Purpose: This project will showcase biomass gasification integrated with an internal combustion engine generator in a novel, small-scale combined heat and power demonstration suited for on-site applications at public institutions, industrial facilities, and northern and remote Canadian communities. The project has the potential to overcome the difficulty of gas clean up and opens up the possibility of significant replication in Canada and overseas.

11. Energy Storage and Demand Response for Near-capacity Substation
Lead proponent: BC Hydro
Strategic Area: Smart Grid/Electricity Storage
Location: Golden and Field, British Columbia
Purpose: This project demonstrates the integration of energy storage as a mechanism for reducing electricity demand at near-peak capacity substations. This type of solution has the ability to be used in other remote communities where the grid reliability is low and the cost of the transmission line upgrade is uneconomical.

12. Interactive Smart Zone Demonstration in Québec
Lead proponent: Hydro-Québec - Institut de recherche
Strategic Area: Smart Grid
Location: Boucherville, Québec
Purpose: This project will ensure the installation of an interactive network area in a neighbourhood of Boucherville. This will demonstrate different technologies and concepts related to modernization of electrical networks, in particular the deployment of infrastructure for charging electric and hybrid rechargeable vehicles.

13. Biomass and Coal Co-firing Demonstration in Coal Plants
Lead proponent: Nova Scotia Power
Strategic Area: Bioenergy
Location: Coal Plants in Nova Scotia
Purpose: This demonstration project aims to determine optimum fuel blends for the potential co-firing of wood-based biomass with coal as a mechanism to partially replace fossil fuels with sustainable energy sources in coal plants. If successful, there is potential for wide-scale implementation across Canada and the United States.

C) Projects expected to receive $10-$20 million

14. Tidal Energy Project in the Bay of Fundy
Lead proponent: Fundy Ocean Research Centre for Energy (FORCE)
Strategic Area: Marine/Hydro
Location: Minas Passage, Bay of Fundy, Nova Scotia
Purpose: The project plans to validate the performance and resilience of tidal current turbines in the Minas Passage of the Bay of Fundy. This will be the first Canadian deployment of commercial-scale tidal turbines. The project has the potential to advance tidal energy in Canada, provide economic impacts in the Atlantic region and place Canada as a world leader in marine renewable energy.

15. Northern Application of a Geothermal District Heating System
Lead proponent: City of Yellowknife
Strategic Area: Northern/Community Energy System
Location: Yellowknife, Northwest Territories
Purpose: The City of Yellowknife is in advanced stages of project engineering and plans to install a district heating system by extracting heat from the abandoned Con Mine. This project has the potential to provide a cost effective and a more environmentally friendly alternative to fossil fuel based heat. The information that will come out of this project on the effect of extracting ground-source heat from an existing aquifer and its associated long-term heat capacity will help determine if this technology could be replicated in other northern communities.

16. Electricity Load Control Demonstration
Lead proponent: New Brunswick Power Corporation
Strategic Area: Smart Grid
Location: Four maritime communities in New Brunswick, Nova Scotia and Prince Edward Island
Purpose: Traditionally, to accommodate the intermittent nature of wind power, other generation sources are required to follow the net effect of variation in load and wind power production. This project focuses on the integration between smart grid technologies, customer loads and intermittent renewables in a region with potentially significant renewable electricity capacity. It will allow utilities to better understand how customers will react to smart grid and which loads can be controlled by real-time demand balancing in up to 750 buildings, thereby assisting these utilities to capitalize on renewable resources in the region.

17. A 9-MW Wind Technology Research and Development Park
Lead proponent: Wind Energy Institute of Canada
Strategic Area: Wind/Storage
Location: Prince Edward Island
Purpose: The 9-MW wind park proposed will be the first wind/storage combination in Prince Edward Island. The project's research base has a strong focus on information dissemination and would be a good base for supporting additional wind research.

18. Demonstration of Fish-friendly and VLH Turbines in Existing Low-head Water-control Dams
Lead proponent: Eco Joule Inc.
Strategic Area: Marine/Hydro
Location: Mississippi River System, Ontario
Purpose: This project will demonstrate three in-stream hydro technologies including fish-friendly, low-head hydro turbines along an existing water-controlled river system in Ontario. It has the opportunity to prove the technology concept, demonstrate cooperation with a conservation organization, and reduce the barriers to commercialization.

19. Community-based Geothermal Demonstration in a Remote First Nations Community
Lead proponent: Borealis GeoPower Inc./Acho Dene Koe First Nation
Strategic Area: Hybrid Systems/Northern
Location: Fort Liard, Northwest Territories
Purpose: This project will demonstrate how a northern community can use a geothermal resource to generate electricity and heat, thereby reducing the entire community's fossil fuel demand and energy costs. A successful demonstration will provide a model for other northern and First Nations communities with available geothermal resources.

Major Investments in Biofuels Development

On August 11, 2009 one of the world's largest energy companies, BP PLC, announced that it had entered into a partnership with Martek Biosciences Corp. to advance the development of a technology to convert sugars into biodiesel.

Under the terms of the joint development agreement (the "JDA"), BP agreed to contribute up to $10 million to a research program aimed at enable large-scale, cost-effective microbial biodiesel production. The sugar to diesel technology would use advanced biological science to convert sugars derived from biomass into lipids with the assistance of fermentation micro-organisms; chemical or thermocatalytic processes are then applied to convert the lipids into fuel molecules.

Most noteworthy is the fact that such biodiesel produced from sustainable feedstocks offers the potential to deliver greenhouse gas emission reductions of up to 80-90% when compared to traditional fossil fuel. Other advantages of the proposed sugar to biodiesel pathway over conventional biodiesel made from vegetable oils noted by BP include:

• Acess to a wide variety of biomass feedstocks such as sugar cane, sugar cane waste (bagasse), energy grass and woodchips, which can be produced at scale and in high yield.
• Use of sustainable, non-food, plant biomass as its feedstock.
• Ability to tailor the product for a variety of diesel and jet-fuel needs.
• Reduced exposure to vegetable oil price.

Under the terms of the partnership, all intellectual property developed during the JDA will be owned by BP, with an exclusive license to Martek for application and commercialization in nutrition, cosmetic, and pharmaceutical applications.

The parties will combine Martek's unique algae-based technologies and intellectual property for the creation of sustainable and affordable technology for microbial biofuel production with BP's expertise in fuels markets and applications, and their more recent experience in biofuels production and commercialization.

The BP-Martek partnership announcement comes on the heels of Exxon Mobil Corp.'s July 14, 2009 announcement of a $600 million investment in next-generation algae-based biofuels in partnership with privately held Synthetic Genomics Inc., with the possibility of significantly more investment to follow in order to scale up the technology and bring it to commercial production.

Announcements such as the ones above from industry heavyweights BP and Exxon Mobil - and their underlying funding of the renewable energy sector - clearly demonstrate that the Oil & Gas industry understands that the world faces a significant challenge to supply the energy required for economic development and improved standards of living while managing greenhouse gas emissions and are now decisively positioning themselves to be part of the climate change solution.

Ottawa's GHG offset system to include a "fast track" project approval system for first 6 months

submitted by Grant Boyle

On August 9 the federal government published a draft Guide for Protocol Developers for Canada’s Offset System for Greenhouse Gases. The draft Guide will undergo a 60 day consultation period before a final Guide is published. The Guide is intended to provide details on the requirements to complete an Offset System Quantification Protocol and the steps that must be followed to create offset credits under the federal GHG emissions framework.

Projects must take place in Canada, must have started on or after January 1, 2000, must be surplus to all legal requirements (federal, provincial/territorial and regional) and go beyond what is expected from the receipt of other climate change incentives (federal, provincial/territorial). Credits may be issued for reductions achieved after January 1, 2008.

The quantification requirements in the Guide are based on the ISO 14064 standard. The Guide does not provide or recommend an approach to quantify GHG reductions from specific project types and will rely on project proponents to develop and submit their own protocols to Environment Canada for approval, unless the protocol type has already been approved by the Ministry. The approvals process is expected to take 5-8 months.

During the first six months of the operation of the Offset System, Environment Canada will implement a modified and accelerated process to review and approve Offset System Quantification Protocols that are derived from a list of 40 “external protocols” from other systems, including: the Clean Development Mechanism, Alberta’s Specified Gas Emitters Regulation, the California Climate Action Registry, the Greenhouse Gas Abatement Scheme in New South Wales, France’s Offset System, and the Regional Greenhouse Gas Initiative. The Guide includes a proposed list of external protocols for “fast track” approval:

Agriculture
*Including Edible Oils in Cattle Feeding Regimes (Alberta)
*Reducing Days on Feed of Cattle (Alberta)
*Reducing the Slaughter Age of Cattle (Alberta)
*Anaerobic Decomposition of Agricultural Materials (Alberta)
*Livestock Project Reporting Protocol Capturing And Combusting Methane From *Manure Management Systems (California)
*GHG Emission Reductions From Manure Management Systems (CDM)
*Innovative Feeding Of Swine and Storing and Spreading of Swine Manure (Alberta)
*Tillage System Management (Alberta)

Energy Efficiency
*Waste Gas Or Waste Heat Or Waste Pressure Based Energy Systems (CDM)
*Residential Buildings (Alberta)
*Commercial Buildings(Alberta)
*Waste Heat Recovery Projects (Alberta)
*Waste Heat Recovery Project - Streamlined(Alberta)
*Energy Efficiency Projects (Alberta)

Forestry
*Afforestation Projects (Alberta)
*Forest Management (California)

Fossil Fuels
*Industrial Fuel Switching From Coal Or Petroleum Fuels To Natural Gas (CDM)
*Switching From Coal And/Or Petroleum Fuels To Natural Gas In Existing Power Plants For Electricity Generation (CDM)

Geological Sequestration
*Acid Gas Injection (Alberta)
*Enhanced Oil Recovery (Alberta)

Methane
*Landfill Gas Capture And Combustion (Alberta)
*Landfill Project Reporting Protocol Collecting And Combusting Methane From Landfills (California)
*Landfill Gas Project Activities (CDM)
*Coal Bed Methane, Coal Mine Methane And Ventilation Air Methane Capture And Use For Power (Electrical Or Motive) And Heat And/Or Destruction By Flaring Or Catalytic Oxidation (CDM)
*Aerobic Composting (Alberta)
*Aerobic Landfill Bioreactor Projects (Alberta)
*Coalmine Methane and Abandoned Mine Methane Capture and Destruction Projects (General Electric AES)
*Waste Water Treatment Methane Capture and Destruction Projects (General Electric AES)

Renewable Energy
*Biomass to Energy from Biomass Combustion Facilities (Alberta)
*Electricity Generation From Biomass Residues (CDM)
*Run Of River Power Generation (Alberta)
*Solar Power Generation (Alberta)
*Wind Power Generation (Alberta)
*Introduction Of A New Primary District Heating System (CDM)
*Grid Connected Electricity Generation From Renewable Sources (CDM)

Transportation
*For Gravel And Lightly Surfaced Road Re-Surfacing Projects (Alberta)
*For Freight Modal Shifting (Alberta)

Waste
*Recovery & Utilization Of Gas From Oil Wells That Would Otherwise Be Flared (CDM)
*Non-Incineration Thermal Waste Management (Alberta)

Other
*Biofuels Productions And Usage (Alberta)
*Catalytic Reductions Ofn2o Inside The Ammonia Burner Of Nitric Acid Plants (CDM)

BC Energy Plan Calls For Two New BC Hydro Power Calls

BC Hydro has been tossing around the idea of issuing a call for power focused on 'near commercial' technologies for a while now.  Near commercial technolgies include both hydrogen fuel cell plants and tidal/wave power, two sectors which are poised to take off, but with the exception of a test project at Race Rocks, have not had an opportunity to enter into the commercial realm.

 As recent as early February, a BC Hydro spokesperson admitted that a near commercial call was still a possability, but would ultimately depend on the BC Energy Plan.  Well that plan was released today, and a the BC Government announced its intention to instruct BC Hydro to explore to new power calls. 

The first call will focus on biomass facilities that utilize waste wood, and is poised to take advantage of the millions of Bone Dry Tonnes of wastewood that are burnt in beehive stacks in BC every year without producing any power and the estimated 1 billion Bone Dry Tonnes of wastewood that will result from the Mountain Pine Beetle infestation.  Coincidentally, the BC government also stated that beehive burning is not an option on a go forward basis in their Throne Speech earlier this month.

The second call will be an open call for small (under 10MW) non-firm sources of energy.  These sources include wind, ocean (tidal and wave), run-of-the-river hydro and solar.  Prices are to be set at the same price as was offered in the most recent call for power. 

To further help near commercial technologies, the soon to be formed "Innovative Clean Energy Fund" will be used partially to help market, showcase and develop 'near commercial' renewable technologies and commercial renewable technologies that have the potenital to be exported abroad.  As for the wood matter call, a new Bioenergy Strategy will be implemented to help develop the bioenergy market.  This initative should also benefit the development of bioenergy from other sources such as agricultural crop residue, organic municipal waste and animal manure.

As always, we will keep on top of these developments on this blog as more details on the Calls for power or any other 'enabling' legislation is released.