4offsets.com Announces Affiliate Program

FROM BLOG: Carbon Neutral Digest - Carbon Neutral Digest discusses all things carbon neutral. There is a rating of all carbon neutral providers, detailed explination of carbon offset projects and up to date news.

On Monday 4offsets.com come is going to launch their affiliate program. An affiliate program is where you sell something, this case carbon offsets, on your site and you get a commission.

There are many many programs like this for websites and blogs to become members of and earn income. This is the first program that I am aware of to be involved in the carbon offset market (The CEO will tell you that that a small Canadian offsetter has an affiliate program too).

This may mark a paradigm shift on how carbon offsets are marketed. Currently many of the large scale offset providers buy ads on Google AdSense. Google AdSense pays the website whenever anyone click on the ad. This is an inefficient method and expensive especially when someone clicks on your ad but doesn’t buy offsets because you pay money for the click and no revenue was generated. I was running AdSense before I started my contest and I only made about $80.00. What is different about this program is that 4offsets.com only pays when someone sells an offset.

The CEO e-mailed me over the information and the payout rates. He asked me to keep them confidential but I can tell you that they seem comparable to other affiliate programs that I have seen. They also provide referral bonuses’ if you refer a website that offers offsets you get money too.

It will be interesting to follow this trend and see if larger sites become members and if more offset providers.

If your interested in becomming a member of the program drop the CEO an e-mail at aff.prog [at] 4offsets [dot] com. Let him know you heard about the site from me =)

Disclaimer: 4offsets.com is part of my contest

Read more from this blogger at Carbon Neutral Digest

2008 Vintage of Microturbines Now Operating on Lafayette Street

FROM BLOG: greenbuildingsNYC - Daily-updated online journal discussing sustainable design and green buildings, with particular emphasis on the LEED Green Building Rating System the New York City real estate industry.

Two years ago, Astor Wines and Spirits relocated to the Theodore De Vinne Press Building at 399 Lafayette Street, on the northeast corner of Fourth Street in the Village. At the time, Andrew Fisher, whose family has owned the building since 1983, installed two microturbines in the basement. Until last December, though, when Mayor Bloomberg signed legislation authorizing the installation and use of microturbines, the Fishers had yet to turn the system on. Mr. Fisher told the New York Times earlier this week that the two microturbines, now operating pursuant to the rule, provide enough energy to heat, cool, and provide electricity for his store and its upstairs cooking school and gallery. He’s also exploring the installation of a third microturbine that would power the space of the building’s six commercial tenants above. “Our goal is to be completely off of the grid,” he told the Times.

Microturbines, as you’ll recall, capture the heat waste generated by their turbines in producing electricity and transform it into usable energy, making them between 70 and 80 percent efficient (compared with 30 to 35 percent efficiency for most types of power plants). The Fishers spent $480,000 on the system, which should produce approximately 120kW of electricity per hour. Ashok Gupta, head of NRDC’s air and energy program, told the Times that “[w]e don’t expect every existing building to put in a microturbine, but we are supportive of this as part of a portfolio of solutions.”

RSP Systems installed the two microturbines at Astor Wines and Spirits; as gbNYC noted previously, the firm also executed the city’s first microturbine installation pursuant to the new rule at LEED Gold-certified Millenium Tower Residences in Battery Park City. In order to install a microturbine system, owners must (1) receive permission from the utility company, (2) file an application with the Department of Buildings, and (3) obtain a permit from the Fire Department in order to operate the system once DOB issues the first permit and the system is actually installed. The rule is codified under Title 1 of the Rules of the City of New York under Chapter 50, Distributed Energy Resource Standards.

• Partly Off the Grid, With a Mini-Utility in the Cellar (NY Times)
• Installation of City’s First Microturbines Under New Rule Completed (gbNYC)

Read more from this blogger at greenbuildingsNYC

Solar Thermal Electricity: Catching the Eye of Utility Companies

FROM BLOG: Triple Pundit - Serving people, planet and profit: An 'integrated bottom-line' approach to looking at business from the next generation of MBAs

The American Southwest has some of the greatest solar resources on the globe, it yet remains largely untapped. This trend may be changing as solar technology matures, market forces shift and concern for climate change mounts.

One of the most common arguments against large-scale use of renewable energy is that it cannot produce a steady, reliable stream of energy, day and night. Ausra Inc. does not agree. They believe that solar thermal technology has the potential to supply over 90% of grid power, while finding solutions to environmental issues.

“The U.S. could nearly eliminate our dependence on coal, oil and gas for electricity and transportation, drastically slashing global warming pollution without increasing costs for energy,” said David Mills, chief scientific officer and founder of Ausra.

You may be wondering, how will we have electricity at night or during cloudy weather if solar power is generating a majority of our electricity? Will we use large banks of batteries or burn candles?

Solar Thermal with Storage Capacity
The ability to utilize solar thermal technology after the sun sets is made possible by a storage system that is up to 93% efficient, according to Ausra’s executive vice president John O’Donnell.

High efficiency is achieved because solar thermal plants do not need to convert energy to another form in order to store it and do not rely on battery technology. Flat moving reflectors or parabolic troughs focus solar energy to generate heat. This heat generates steam that turns turbines, thus generating an electric current.

If you want to generate electricity at 3 am, heat from the sun can be stored for later use. This gives solar thermal technology the ability to not just produce peak power, but also generate base load electricity.

Heat storage is not a new technology, having been used for plastic manufacturing and petroleum production for a long time. Solar thermal plants have a cost advantage compared to photovoltaic technology because energy can be stored as heat without being converted to another form or relying on batteries.

“My favorite example in comparing energy storage options is on your desktop,” said John O’Donnell. “If you have a laptop computer and a thermos of coffee on your desk, the battery in your laptop and the thermos store about the same amount of energy. One of them costs about $150 and the other one costs maybe $3 to $5. On the wholesale level, storing electric power is at least 100 times more expensive than storing heat.”

Peak Power: Low Hanging Fruit for Solar Thermal Energy
The maximum amount of electricity demand on the power grid occurs during weekday afternoons and evenings in the summer months in most regions of the United States. This is largely caused by air conditioning loads, which gobble up electricity. Solar energy availability however starts to drop in the late afternoon, before peak load has started to wane.

Because the electric grid needs to be able to handle these peak loads, capacity is built to specifically handle these loads. Natural gas typically comes to the rescue to produce this electricity. Although these plants are expensive to operate, they are cheaper to construct than most of the alternatives. They are fast to start, producing power in 30 minutes or less.

Additional power plants are constructed just to generate electricity for the times when it is needed most. This causes peak electricity to be more expensive. A kilowatt hour of electricity at 3 pm and 3 am does not come with the same price tag to the utility company.

Now add the uncertainty of the price of natural gas. “No utility can tell you what the cost of power will be from a gas plant, five or ten years from now,” said Frederick Morse, senior advisor for the U.S., Abengoa Solar. “From a solar plant, the price is fixed. There is no fuel component to alter it.”

This is where solar energy can truly shine. “Adding solar plants that reliably generate until 10 pm displaces the highest cost alternative power,” said John O’Donnell. “That is the first wave of solar thermal plants. The daily and seasonal variation in grid load in the United States matches solar availability.”

Due to cost, infrastructure and technology hurdles, it will be a while until we see solar energy generating large-scale base load capacity, thus replacing nuclear and coal power plants. Some of the factors that will push this along are a strong national high voltage transmission system, solar technology advances, high fossil fuel costs, a longer-term extension of the commercial solar tax credit, and a carbon tax.

Photo: Ausra’s facility in New South Wales, Australia. Courtesy of Ausra.

Read more from this blogger at Triple Pundit

World Wide Wind energy capacity grows to 100 GW

According to a post in Treehugger and the Earth Policy Institute, global energy generation from wind is growing in leaps and will very soon -estimated within a month- reach 100 GW! This considerable amount covers the needs of 150 million people!.Last year was a record year with wind power capacity increasing by 20,000 megawatts, bringing the world total to 94,100 megawatts.

Although certainly not solving global energy problems, it is a great start and holds even more promise for the future, since rates of installations are increasing in several countries. In 13 of them, generation exceeds 1 GW and growth exceeds any other type of energy, including natural gas.

EU champions are Germany, Spain and Denmark, all with almost 10% or more of total energy generation from wind. Other countries leading the installation statistics are the US, China and India. Despite all the pessimism, green energy increases are happening in the background with conventional technology. Taking into account other eco-friendly sources -especially solar- and the promise of efficiency increases, the next technological revolution will definitely have to do with energy generation.

Link: Treehugger

China's wind power to hit 10 mln kw

China's installed capacity of wind power will hit 10 million kilowatt this year, and the figure is expected to double by 2010, China?s Xinhua news agency reported.

China will develop clean energy by expanding the installed capacity of nuclear power, making it account for more than 5 percent of the national total power installed capacity by the year 2020, according to Vice Chairman of the National Development and Reform Commission Zhang Guobao.

The country's 11th five-year plan for economic and social development (2006-2010) has pledged to develop nuclear power and aims to have 40,000 megawatt of operating installed capacity by 2020.

Currently, China's operating installed capacity of nuclear power stations stands at 8,600 megawatt, Xinhua said.

Subaru to Evaluate Quick Charge Electric Car with New York Power Authority

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Subaru today announced that it would begin evaluating its R1e electric vehicle (EV) in the United States this summer. The Subaru R1e will be on display at the New York International Auto Show, from March 21-30 at the Jacob Javits Convention Center.

Based on the Subaru R1 minicar sold in Japan, the R1e was developed by Subaru in partnership with the Tokyo Electric Power Company, Inc. (TEPCO). The utility has been testing a fleet of R1e electric cars since 2006. As part of a U.S. test program, two of the Subaru R1e electric cars will join the New York Power Authority (NYPA) fleet (NYPA is USA's largest state-owned electric utility).

The Subaru R1e employs state-of-the-art, fast-charge lithium ion battery technology that eliminates typical lithium ion battery issues of charge memory loss, allowing partial charges and quick charges that do not decrease battery life. The two-seat Subaru R1e is capable of driving at speeds up to 65 mph with a range of up to 50 miles, making it an ideal urban commuter. The Subaru R1e can be "quick-charged" to 80 percent capacity in only 15 minutes using quick-charge technology. The vehicle can be fully charged overnight (eight hours) while connected to a standard household electrical outlet. The R1e uses an AC permanent magnet synchronized motor producing 40 kW.

There are currently 40 Subaru R1e vehicles in use and Subaru parent Fuji Heavy Industries will place an additional 100 electric vehicles for test marketing in Japan in 2009. Subaru is focusing on the development of new battery technology for future power train applications. Compared with nickel metal hydride or nickel-hydrogen battery technology, lithium-ion battery technology offers a number of advantages, among them easier packaging, higher power density and better cooling for longer life.

Service life for the high-density lithium-ion battery is estimated at 10 years and 100,000 miles, another environmental benefit. The battery pack is also designed to be easily recycled. The laminated battery packs are flat, rather than cylindrical, offering EV manufacturers wide latitude in vehicle design and packaging. The battery's basic design and composition consist of laminate, manganese, and lithium ion.

Subaru of America, Inc. is a wholly owned subsidiary of Fuji Heavy Industries Ltd. of Japan.

World's Largest Tidal Power Station to be Built in South Korea, will Power 200,000 homes

South Korea (TGW) – British tidal power company Lunar Energy has agreed to build the world’s largest tidal power system in South Korea.

The $1 billion project will use power from fast-moving tidal streams, caused by rising and falling tides, to turn a field of 300 60ft-high tidal turbines on the sea floor.

The project is expected to power 200,000 homes by 2015.

William Law, chairman of Lunar Energy, said that there was the potential around the British coast for tidal stream turbines to generate up to 20% of Britain's energy needs.

Via :: Telegraph

Solar Energy Collected Through Asphalt In Netherlands

FROM BLOG: EcoFuss - Ecofuss is an environmental-friendly blog with daily posts written by our dedicated writers. We speak about environmental issues and ways to get the Earth greener.

A Dutch company called Ooms Avenhorn Holding BV has developed a system which aborbs energy coming from the sun through the asphalt. One Road Energy System is installed in the village of Avenhorn and it stretches on 200 yards of a read, enough for powering a 70-unit four-story building.Another system is installed on an 160,000 industrial park in the city of Hoorn which is heated during winter and cooled during summer. The power comes with the help of 36,000 square feet of pavement.

(AP Photo/ Bas Czerwinski) :: A model of a lattice work of flexible plastic pipes, held firmly in place by a plastic grid, covered over by asphalt, which magnifies the sun's thermal power, is shown at Ooms Avenhorn Holding BV in Scharwoude, northern Netherlands, Friday, Dec. 14, 2007. The pipe-work by Dutch civil engineering firm Ooms, is claimed to be capable of siphoning the warmth from roads and parking lots to heat homes and offices.

In a few years, after we realize the importance of using the endless solar power, maybe we will start to use more and more of its enormous potential. The first step to a greener world is to make use of renewable energy and the most important source is the sun.

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