NEW YORK, NY, Apr 26, 2012 (MARKETWIRE via COMTEX) -- As temperatures begin to climb this summer, Con Edison and ThinkEco have partnered to launch a window air conditioner program that will allow customers to use less energy, protect the environment and help maintain reliable service during times of peak demand in New York City.
Con Edison and ThinkEco plan to create smart A/C control through modlets on 10,000 New York City air conditioners, resulting in five megawatts of demand reduction, enough power for 5,000 homes. Con Edison plans to distribute the modlets this summer in large apartment buildings throughout New York City, working with building owners and tenants to install the energy saving devices.
The modlet ( http://themodlet.com/demo.html ) is a simple plug-in smart outlet that can be controlled by a smart A/C thermostat and a user's online modlet account, allowing customers to control the temperature setting of any window air conditioner. Customers can remotely turn on/off their A/C from any smart phone or browser, and set the temperature.
In addition, users can preset schedules through any web browser, so that their window air conditioners only turn on when needed, transforming the stand-alone window air conditioner into a smart, networked device that gives users enhanced convenience and control. Customers who participate in the program will also be alerted when a peak usage event is called, and Con Edison will adjust the unit's temperature.
With over six million window air conditioner units in Con Edison's service area -- which sometimes run unnecessarily when residents are not home -- the ability for Con Edison to adjust air conditioner temperatures remotely during a heat wave could help to manage peak summer demand.
"Con Edison continues to increase engagement with our customers by introducing new technologies that help them save energy, save money, and protect the environment," said Rebecca Craft, Director of Energy Efficiency Programs of Con Edison. "Our work with ThinkEco is forging a new way to help reduce the energy waste associated with window air conditioners, while keeping city residents comfortable during heat waves."
The coolNYC program ( www.coolnycprogram.com ), created by ThinkEco and Con Edison, is a new approach to managing residential peak usage by combining ease-of-use in controlling window air conditioner thermostats with an incentivized program that uses real-time energy tracking capabilities. Con Edison can use the ThinkEco system to reduce strain on the grid by sending signals to participating customers' air conditioner units when demand peaks. The program technology allows Con Edison to focus on any geographic area of high priority during an emergency.
"The coolNYC program is proving how New York City residents are highly receptive to using smart consumer-oriented products that save energy and enhance personal convenience," said Erik Katz, CEO of ThinkEco. "As electrical demand continues to increase, we need to ensure a way to relieve pressure on the grid in the absence of new capacity."
Visit www.thinkecoinc.com to purchase a modlet and checkout http://themodlet.com/demo.html to see how easy they are to use. Participating residential customers receive the modlet smartA/C kit, which integrates Con Edison's intellectual property with ThinkEco's modlet platform. The smartA/C kit includes a modlet, a remote-control thermostat and access to a web-based application.
ThinkEco is a former tenant of the New York City Accelerator for a Clean and Renewable Economy (NYC ACRE at NYU-Poly) the NYSERDA-funded clean-tech incubator helping transition New York to a low-carbon future.
About ThinkEco, Inc. New York City-based ThinkEco Inc. is a leading provider of easy-to-use energy efficiency solutions for homes and businesses. Its patented modlet system is a networked and scalable smart-plug platform that wirelessly connects any plug load to ThinkEco's robust cloud solution, powered by proprietary algorithms. The modlet provides the remote metering of plug-load power consumption in real time, and enables users to set savings schedules to better control their energy use and quantify savings.
http://www.marketwatch.com/story/con-edison-and-thinkeco-launch-window-air-conditioner-energy-savings-program-2012-04-26
Thursday, April 26, 2012
Friday, April 20, 2012
Friday, April 06, 2012
A Competitor Emerges for Solar Panels
By KATE GALBRAITH
NY Times
Published: April 4, 2012
AUSTIN, TEXAS — Of all the types of energy embraced by the green community, “combined heat and power” probably has the clunkiest name. But proponents hope that C.H.P. systems, which can be installed in homes, will one day compete with better-known technologies like solar panels.
The idea is to capture two forms of energy at once, namely heat and electrical power (which is why the technology is sometimes called cogeneration). Large systems exist on college campuses like the University of Warwick in England and also at hospitals, chemical factories and even airports. These systems use the heat left over from generating electricity to produce either hot water, which circulates through pipes to nearby buildings to provide heat, or steam, which can be used for industrial purposes.
Because the process of making electricity wastes a lot of energy, combining heat and power generation leads to greater efficiencies, said Jürgen Weiss, head of the climate practice at the Brattle Group, a consulting firm based in Cambridge, Massachusetts.
“The idea of C.H.P. is to make electricity and not waste the heat that gets generated in the process, but rather to use it for something useful,” Mr. Weiss said. That means lower utility bills and fewer greenhouse gas emissions.
In recent years, engineers have started designing more residential-scale systems. These may be about the size of a refrigerator and can fit into a basement. In Britain, a system run by a Stirling engine may cost more than £6,000, or $9,500, including installation, and in Germany — where heating systems are generally more expensive — a C.H.P. system may run from €15,000 to €20,000, or $19,800 to $26,400, according to Delta Energy & Environment, a research company based in Edinburgh. Delta said it would often take homeowners 10 years to make back the cost, in the form of lower utility bills. Getting prices down will be critical, experts say.
The small systems work best in cold climates, where homes need plenty of heat. They are often fueled by natural gas and make a bit of noise, but the extra electricity they produce can be sold into the power grid. Big-name automakers like Honda Motor and Volkswagen have applied their technology to help develop small-scale systems, sometimes known as micro C.H.P.
Small systems are gaining traction in Japan after the nuclear disaster last year, which led officials to order that nearly all of the country’s reactors be taken offline. Orders have “increased dramatically” since that event and are likely to rise even more sharply in the future, according to a recent report by Pike Research, a research and consulting group in Boulder, Colorado. Honda has sold micro-C.H.P. systems in Japan since 2003 and said last year that about 108,000 households were using its units, called the Ecowill.
The home systems in Japan tend to be much smaller than those in Germany or the United States, according to Kerry-Ann Adamson, a research director for smart energy who is based in London for Pike.
Elsewhere in the world, the picture is mixed. In the United States, a basic obstacle is lack of knowledge, said Daniel Bullock, director of the Gulf Coast Clean Energy Application Center, a U.S. Department of Energy group based in a Houston suburb that promotes C.H.P. and related sources of energy.
“Most people don’t even know about C.H.P.,” Mr. Bullock said. As a result, he added, “People are willing to pay a lot more money for solar panels than what a C.H.P. system would cost.”
The low price of natural gas in the United States — a result of the plentiful supplies created by the hydraulic fracturing boom — may make the systems more appealing, Mr. Bullock said, though homeowners, lacking the negotiating power of large industrial users, may not reap the full benefit of the lower gas prices.
In Europe, Delta Energy & Environment forecasts that 40,000 to 70,000 units a year will be sold by 2015, but “an outcome with substantially lower sales is possible,” said Jon Slowe, a director for the company, adding that Britain and Germany are using incentives to push the hardest for micro-C.H.P. technology.
Germany has a target of getting 25 percent of its power from C.H.P. systems of all sizes by 2020. A draft proposal now under consideration would increase incentives for the systems, although Ulrich Fikar, a spokesman for the industry group Cogen Europe, said it was “not ambitious enough for micro-C.H.P.”
The Netherlands used to be a promising market, but the new government sharply cut spending and incentives, according to Mr. Slowe. Belgium, too, is cutting spending.
“It’s a really tough time in Europe, with governments trying to tighten their belts,” Mr. Slowe said.
The United States has even fewer incentives for micro-C.H.P., as it does for most alternative energy sources.
“Look at the difference between the U.S. and, say, Germany,” Mr. Bullock said. In Germany, “you’ve got feed-in tariffs, a much more active regulatory environment, you have programs that support financing and implementation.”
At least one U.S. company has struggled to introduce the technology. Freewatt, a micro-C.H.P. unit developed by ECR International in Utica, New York, was installed by some U.S. customers. But “it’s unavailable commercially right now,” said Maggie Reed, a representative for the company.
Nonetheless, some analysts view the United States, with its large number of buildings and potential for energy-efficiency gains, as a sleeper market.
“The Japanese market is a given,” said Ms. Adamson, the researcher for Pike. “What will change the face of the residential C.H.P. market is if the U.S. wakes up to this.”
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