The Week in Cleantech News (May 5-12, 2008)

[Originally posted at CleanTechnica on 5.18.08]
For those of you who are bettin' folks, traders on the Chicago Climate Exchange view the Democrats as more bullish on cap-and-trade systems. So if you're betting on a Democratic victory, you'll want to buy those contracts now, in anticipation of a price spike on Nov. 5 (Politico).

Toyota Prius sales have topped 1 million and dealers in most markets simply can't keep them on the shelves. Toyota says domestic inventory is limited by production capacity in Japan, which is shared by the Asian and European markets. The U.S. supply is at its lowest level in two years (Wired).

Imagine a high-speed train that could get you from San Francisco to Los Angeles in two hours forty minutes. Well, that dream is now one step closer to reality as the California High Speed Rail Authority has cleared environmental impact assessments and is beginning construction of what will be the most substantial high-speed rail network in the U.S. But don't make travel arrangements just yet. The project is not scheduled to be completed until 2030 (gas 2.0).

A joint biofuel effort was announced Thursday involving Air Bus, JetBlue, Honeywell, and Aero Engines that plans to study ways to make commercial aviation fuels out of second-generation feedstocks such as algae (Green Tech Blog).

A new wave of nuclear power plants in the U.S. is likely to cost $5 billion to $12 billion a plant, two to four times previous estimates, driving up electricity bills for consumers and inevitably reigniting public concerns about the costs and benefits of nuclear power (The Wall St. Journal).

Photo credits:

Karl Gunnarrsson via flickr Creative Commons License

compicpie via flickr Creative Commons License

Bistrosavage via flickr Creative Comons License

Dept. of Energy Selects Grid R&D Projects

The U.S. Department of Energy (DOE) announced that it will contribute $50 million in federal funding to nine demonstration projects to modernize the nation's electrical energy grid, with the goal of reducing the peak load electricity demand by 15 percent over five years. The list of demonstration projects are as follows:

1.Allegheny Power will develop the “West Virginia Super Circuit” in conjunction with West Virginia University, North Carolina State Universiy will improve distribution system performance, reliability, and security of electric supply through the integration of distributed resources and advanced technologies.

2. Rocky Mountain Power and P&E AUTOMATION, will demonstrate load reduction through an integrated network of diverse renewable generation technologies and intelligent automation. The project will integrate renewable generation and energy storage resources, including compressed-air generation technology, wind-turbines, heat recovery systems, solar trough booster technology, a steam turbine, and hydro-turbine resources.

3. Chevron Energy Solutions will collaborate with Alameda County, PG&E, the University of Wisconsin, the National Renewable Energy Laboratory, Lawrence Berkeley National Laboratory, and Energy and Environmental Economics to significantly reduce peak load and measurably improve power reliability at the Santa Rita Jail.

4. The City of Fort Collins, in cooperation with Larimer County, Colorado State University, InteGrid Lab, and others will research, develop, and demonstrate a 3.5 megawatt coordinated and integrated system of Mixed Distributed Resources in Fort Collins to achieve a 20-30 percent peak load reduction on multiple distribution feeders.

5. Consolidated Edison Co. of New York, Inc., along with Verizon, Innovative Power, Infotility, and Enernex, will develop and demonstrate methodologies to achieve true interoperability between a delivery company and end-use retail electric customers, enhancing the reliability of the distribution grid and the efficiency of its operations.

6. The Illinois Institute of Technology (IIT) and others will work to balance loads with distributed resources, advanced sensing, switching, feeder reconfiguration, and controls. This effort will be replicable at any municipality-sized system.

7. San Diego Gas and Electric will develop a dispatchable distribution feeder for peak load reduction and wind-farming in conjunction Pacific Northwest National Laboratory, the University of San Diego, Motorola, and Lockheed Martin. The project aims to prove the effectiveness of integrating multiple distributed energy resources with advanced controls and communication systems to improve stability and reduce peak loads on feeders/substations.

8. The University of Hawaii, in cooperation with General Electric, Hawaiian Electric Company, Inc., Maui Electric Company, Columbus Electric Cooperative, New Mexico Institute of Mining and Technology, Sentech, and UPC Wind, will explore the management of distribution system resources for improved service quality and reliability, transmission congestion relief, and grid support functions.

9. The University of Nevada will partner with Nevada Power Company, and GE Ecomagination to address the construction of energy efficient homes that overcome electricity grid integration, control, and communications issues by building integrated photovoltaic systems, battery energy storage, and consumer products linked to advanced meters that enable and facilitate an efficient response to consumer energy demands.

Department of Energy press release
Photo: johnnyalive

Did CSU Name Their New 'Clean Energy Supercluster' Biz After an Oilfield Logistics Company?

One of my almae matres, Colorado State University has finally launched the business-end of its long-awaited renewable energy "supercluster." The supercluster will serve as a clean tech incubator, moving research and development of clean energy and energy efficiency from the lab to the marketplace. CSU President Larry Penley joined Colorado Gov. Bill Ritter and Colorado Senators Wayne Allard and Ken Salazar to make the announcement Thursday at the state Capitol.

"CSU is home to the world's finest faculty and student brain trust in the environmental sciences, in the development of alternative energy technology and biofuels and in the management of state forest lands," said CSU President Penley. "In the long run, all these achievements are insufficient if we can't get our research to market rapidly and in ways that are sustainable from a business perspective," Penley said.


The university's new business arm of the Clean Energy Supercluster took the painfully ironic name, Cenergy. Not to be confused with the large corporation of the same name, that provides logistical support for onshore and offshore oilfields worldwide. You'd think that someone at the university would have done a Google search on the name 'Cenergy' before getting the new stationery printed!

These are supposed to be researchers we're talking about, right?

Photo: Tim Hurst
Press Release
Colorado State University Clean Energy Supercluster

Feast or Famine Cycles of American Clean Energy Development

[Originally posted at CleanTechnica on March 13, 2008]. In my first post about the feast or Famine Cycles of American Clean Energy Development, I touched upon the up and down nature of federal funding for renewable energy deployment in the late 70s and early 80s. The following examination adds some more context with a historical-institutional perspective of what went down in the early 80’s, how, and why. And in the spirit of some of the earlier posts this week that covered the technology of solar thermal, and the practical application of solar thermal technology to entire neighborood developments, I have decided to follow suit by writing about solar thermal as well. I hope to show that the decline and slow fazing out of federal support for solar thermal research and development during the Reagan and George Bush administrations has had a substantial effect on where the industry is today. More...