Regenerative Suspension: How Bumps In The Road Can Generate Electrical Power

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See on Scoop.itGreen Energy Technologies & Development

ZF Friedrichshafen AG and Levant Power Corp. have joined together to produce the first fully-active advanced suspension system that recovers energy and directs it to charge the battery while the car is moving.

Duane Tilden‘s insight:

>Gas2 says it’ll be “a while” before the system will go mainstream — likely several years — but it seems a no-brainer for every hybrid and electric vehicle to install this system or one like it to eke out battery charge through energy that is normally wasted. Gas-powered cars also have batteries that get a charge while the engine is running, but they use a belt attached to the engine itself to charge the battery. This causes gas-powered engines to be less efficient, and with most conventional cars using only around 15 percent of the potential energy of gasoline, efficiency comes at a premium.

Most hybrid car drivers will be familiar with the concept of recovering energy from normal car functions because of the increasingly frequent use of brake systems that, when used, transfer heat and friction of normal braking to the battery. As fuel economy standards improve over the next decade, car manufacturers are looking for anything they can do to make cars more efficient.<

See on thinkprogress.org

Net Energy Metering Policies Helping To Spur Solar Growth

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See on Scoop.itGreen Building Design – Architecture & Engineering

All across the United States, rooftop solar panels are popping up on homes, businesses and schools like mushrooms in a forest, and utility-scale solar projects are bringing huge amounts of clean energy into our communities.  Why?

Duane Tilden‘s insight:

>Today, smart policies — likeRenewable Portfolio Standards (RPS) and Net Energy Metering (NEM) — are helping to fuel solar’s explosive growth. Our industry now employs 120,000 Americans at 5,600 U.S. companies. What’s more, we’re now generating enough electricity to power more than 1.5 million homes…

Part of this amazing success story can also be attributed to the fact that the average cost of a solar system has dropped by nearly 40 percent over the past two years and by a whopping 50 percent since 2010.  As a result, American consumers, businesses and schools are flocking to rooftop solar.  According to the most recent statistics, the residential market alone grew by 48 percent in the second quarter of 2013 compared to the same time period a year ago. […]

NEM has significantly contributed to this growth.  Simply put, NEM is a credit on your bill that represents the full value of electricity delivered.  Think of it this way: surplus energy generated by a home or business system is exported to the electricity grid, allowing a consumer’s meter to spin backwards.  This allows the homeowner or business owner to have greater control over their energy use and prices.  […]”<

See on www.renewableenergyworld.com

Call for Energy Efficient Air-Conditioning with Technological Development

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See on Scoop.itGreen Building Design – Architecture & Engineering

Innovations could cut the growing amount of energy used for air-conditioning and refrigeration

Duane Tilden‘s insight:

>Conventional air conditioners employ refrigerants such as chlorofluorocarbons to absorb heat from the room to be cooled. That heat is then expelled outside, requiring electrically powered pumps and compressors.

One idea to conserve energy is to replace coolant fluids and gases—which are often super-powered greenhouse gases capable of trapping more than 1,000 times more heat than CO2—with solid materials, such as bismuth telluride.

A new device from Sheetak, developed in part with ARPA-E funding, uses electricity to change a thermoelectric solid to absorb heat, and could lead to cheaper air conditioners or refrigerators.

Such refrigerators, which lack moving parts and are therefore less likely to break down, can be lifesavers in remote, rural areas for keeping medicines cool or food fresh.<

See on www.scientificamerican.com

Monitoring Motivates Less Electricity Use

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Researchers found that families that were simply told they were in a study to track electricity use reduced electricity use more than 2.5 percent.

Duane Tilden‘s insight:

>The general phenomenon is called the Hawthorne effect: study subjects change their behavior because they’re being observed. So researchers collaborated with a utility to test for the Hawthorne effect in electricity use.

They monitored almost 5,600 randomly selected households. Half received a postcard saying that their energy use would be monitored for a month for research purposes. They also got four follow-up reminder postcards over the month. They received no other information, instructions or incentives.

The control group monitored for the study got no notifications. That group continued using the same amount of electricity. But the families being tracked reduced energy use 2.7 percent. And when the study period ended, their energy use shot back up. The report is in the Proceedings of the National Academy of Sciences. [Daniel Schwartz et al., The Hawthorne effect and energy awareness]<

See on www.scientificamerican.com

Art about climate change: a new trend

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This post comes to you from Culture|Futures “Wow, I wish I knew someone dealing with climate change. How is it that no artists are working with the most compelling issue that affects all of us?” (more)

See on www.sustainablepractice.org

Supply of Renewable Wind Power Surges in Texas with some Plant Closures

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Market Upheaval In the U.S., hydraulic fracturing techniques used to drill shale have produced a flood of cheap natural gas. That, combined with the growth in wind and tepid customer demand, is upending power markets, leading to plant closures and bankruptcy for some generator owners.

Duane Tilden‘s insight:

>Traditional power companies across the U.S. and Europe are struggling to compete in wholesale markets with newer generators supplying subsidized wind and solar energy. In Texas, wind has more than doubled in the past six years and now makes up 13 percent of the state’s generation capacity.[…]

Falling Prices – Electricity prices for 2014 also have fallen. The on-peak North Texas power price for next year has dropped 19 percent since reaching a peak on May 23, according to data compiled by Bloomberg.

During a heat wave in the first week of August, ample wind supplies served to keep a lid on prices that would’ve normally spiked from the higher demand, NRG Chief Executive Officer David Crane said during a call with investors on Aug. 9. “Wind energy reduces electricity prices and that is good for consumers,” said Michael Goggin, an analyst for the American Wind Energy Association, an industry trade group. “Wind energy has no fuel costs, allowing it to replace more expensive and polluting sources of energy.”

Once complete, Oncor’s power lines will be part of a system that can eventually deliver about 18,500 megawatts of wind power, nearly double the amount now available in Texas and 25 percent of the state’s current generation capacity.<

See on www.renewableenergyworld.com

Coal Power Plants to be retired – Duke Energy Settles Edwardsport air permit Dispute

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Duke Energy Corp. said it reached a settlement with the a handful of environmental and activist organizations over outstanding issues with the.

Duane Tilden‘s insight:

>The Indiana Department of Environmental Management issued the new Knox County, Ind., plant’s air permits in 2008, and- -under the settlement with the Sierra Club, Citizens Action Coalition, Save the Valley and Valley Watch–they remain approved with no changes. The dispute centered on technical issues surrounding the permits that enabled the company to build and operate the plant, the company said.

The settlement also addresses deadlines for retiring units at Duke’s Wabash River Station in Vigo County, Ind. Prior to the settlement, the company had said it planned to retire four, 1950s-vintage units totaling 350 megawatts at the station by the 2015 federal mercury rule deadline. In the agreement, the company agreed to finish the retirements by the compliance deadline or, if the mercury rule is vacated or delayed, by June 1, 2018, whichever comes first.

Duke also had been exploring converting another unit at the Wabash station to natural gas, and, under the settlement, the company agreed to cease burning coal at that 318-megawatt unit by June 1, 2018. The deadline won’t prevent Duke Energy from converting the unit to natural gas earlier.

The settlement also includes a commitment to pursue additional green energy sources.<

See on www.nasdaq.com

Are developing Microgrids the Answer to supply next generation Electricity Markets?

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Managing the effect of intermittent renewables on the grid is one of the critical challenges we address in making the transition to renewables. One of the primary goals of grid modernization (aka “Smart Grid”) is to adapt grid management to account for the effects of intermittency in real time.

Duane Tilden‘s insight:

>Microgrids are one possible solution to these challenges. Microgrids, part of the Smart Grid toolbox, are autonomously managed and powered sections of the distribution grid that can be as small as a single building, or as large as a downtown area or neighborhood. Automation and digital communications are used to manage rooftop solar, small scale combined heat and power systems and storage systems, along with matching supply to demand.  Heating or cooling may also be a part of a microgrid. Microgrids can efficiently manage smaller sections of the grid, according to the local demand patterns and availability of renewable resources. They can also disconnect, or “island” from the larger grid to provide higher reliability.

Can microgrids reduce complexity and increase options for electricity market participants? What are the major barriers to microgrid implementation, and how might they be overcome? Are there other approaches, besides the microgrid, that might be employed as well?<

See on www.ourenergypolicy.org

Proliferation of wireless devices and networks detrimental to environment

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Cloud computing should be driving sustainable development, but its turning us into energy consuming monsters, write Stuart Newstead and Howard Williams

Duane Tilden‘s insight:

>There is a familiarity and comfort in our almost-everywhere connection to always-on communications networks and to the ever-increasing array of services they deliver us. We don’t just consume these network services directly, they give us what economists call “options” – options to connect, options to seek out new services, options to find new information. Clearly we don’t use this network services 24/7, but we value highly the options for instantaneous and simultaneous access at any time.

Cloud-based applications – those stored and managed by massive data centres run by the likes of Amazon, Google, Facebook or Apple – are providing step changes in the financial and environmental efficiency of delivering these services. But the centralising power of the cloud has its corollary in the dispersing effect of wireless networks and devices.

In wireless networks and devices we see fragmentation, duplication and a fundamental shift from mains power and green sources of energy to battery powered always-on devices. In environmental terms here lies the rub. Rather than the “aggregation of marginal gains” (the Sir Dave Brailsford strategy that has propelled success in British cycling), in which lots of tiny improvements add up to a large visible improvement, we are witnessing the aggregation of environmental disadvantages from billions of low-powered but fundamentally energy-inefficient antennas and devices providing the ‘last metre’ connectivity to global networks.

Wireless networks and devices, technologies that should drive sustainable development, are turning into energy-consuming monsters.<

See on www.theguardian.com

Waste Heat Energy Recovery – ThermoAcoustic Refrigeration for Transportation Industry

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Revisiting the Automotive ThermoAcoustic Refrigerator – ATAR

Diagram of Simplified ThermoAcoustic Engine

I wish to further investigate the idea of thermoacoustics for waste heat recovery processes.  Also, will in future look into latest developments in thermoacoustics, including any applications, studies, reviews or products and manufacturers.

In today’s new economy of energy efficiency, there are technologies available that are worth further investigation that can be utilized for improved performance.  Automotive air conditioning is one industry which could bear further scrutiny, where running compressors consume valuable fuel, decreasing the energy efficiency and increasing operating cost of a vehicle.

For professional drivers where fuel consumption increases will come out of pocket, the utilization of air conditioning is an important consideration.  The idea of using the waste heat in the exhaust system to provide the cooling energy necessary to provide air conditioning is a novel approach to improving vehicle efficiency and comfort.  The concept of thermoacoustic refrigeration is not new, and was previously reviewed by concerns of the ozone layer depletion and refrigerants, which ultimately lead to changes in the refrigeration and HVAC industries.

See original reference paper presented at 2005 Proceedings of Acoustics:  http://bit.ly/17qwTYK