Posts Tagged ‘Geothermal’

Geothermal Solar Electric Home in Santa Fe, New Mexico, Receives The 2012 Sustainable Santa Fe Award for ?Clean Renewable Energy Project?

Published by fnever on August 12th, 2012 - in Knowledge Base


, NM (PRWEB) August 09, 2012

Faren?s latest award winning residential is a , solar electric that is poised to additionally receive a ?Gold? certification from Build Green New Mexico, based on the . This super green and energy efficient , owned by Karen and Andrew Rodney, has no natural gas or propane and produces enough of its own energy to be considered a zero carbon residence. This leading edge design is the first in Northern New Mexico to utilize geothermal for radiant heating, cooling and hot . Much of the energy requirements are offset by a 3.6 kilowatt Photovoltaic Solar Tracker, which tracks the sun throughout the day, while providing a 20% increase in efficiency beyond a typical roof or ground mount installation. Mr. Dancer ?s show, Unicopia Green Radio, is a featured on radio station Talk 1260 KTRC. is the parent company of .com.

The Rodney residence also incorporates a super high-efficient building envelope utilizing Energy star rated windows, doors and skylights, under slab insulation, blown-in cellulose and closed cell polyurethane foam. This leading edge application of building science also addresses thermal bypass, the movement of air from one plane to another within the framing structure. A filtered air exchange system helps assure the finest possible indoor air quality, as tightly built structures require air exchanges during the heating and cooling seasons when the home is kept closed. This air exchange system also incorporates a dehumidification feature that maintains correct dew point during the summer rainy season, assuring the optimal function of the radiant cooling system.

Certified green products such as adhesives, caulks, paints, plasters and finishes, help achieve the goal of providing a healthy indoor environment by eliminating VOCs (volatile organic compounds). All cabinetry is formaldehyde free, thus eliminating another indoor pollutant typically found in residential construction.

Beyond energy efficiency, the Rodney home incorporates numerous features that assure the home?s commitment to all aspects of sustainability. These features address indoor air quality, resource efficiency, water efficiency and site impact. Bamboo cabinetry, ceramic tile with high recycled content, natural plaster, recycled quartz countertops, energy star rated appliances and lighting package, dual flush toilets and waterless urinals are just a few of the features that demonstrate the attributes of an environmentally conscious and healthy home.

Faren is also in the completion phase of a unique off-grid, passive/active solar building model that utilizes 100% roof water catchment with no well or municipal water source. This home, located on 485 acres in a land conservancy with the Santa Fe Land Trust, also demonstrates land stewardship and restoration.

For further on the Rodney home and other green building models, please visit http://www.unicopia.org. While visiting the website check out the organization?s other endeavor, Unicopia Green Radio. Visitors are encouraged to print a wealth of from the site about the cultural evolution that is driving sustainability from its grassroots.

About SantaFe.com:

SantaFe.com provides locals and visitors to Santa Fe alike the most current interactive platform for events, music, arts, business, dining and lifestyle. SantaFe.com is a division of Hutton Broadcasting, located at 2502 C. Camino Entrada, Santa Fe, NM 87507

Contact Information:

Scott Hutton

SantaFe.com / Hutton Broadcasting

http://www.santafe.com

(505) 471-1067 (Media inquiries only, please)







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Solar Energy For Homeowners

Published by fnever on June 12th, 2012 - in Knowledge Base

Welcome to the revolution! We are all going to be involved in the drive toward energy independence, that is, becoming independent from foreign oil. Gasoline is selling for more than six dollars a gallon in both Germany and the U.K, and we know that, for all kinds of reasons, it’s bound to go up much more in the not-so-far future. Coal is plentiful here in the U. S, but the efforts to clean it up are going to be painful and slow in coming. The transition to solar power is also going to be painful and costly, but eventually it will begin to pay for itself. For homeowners especially, a move toward is really a wise investment, whether they are new or doing remodeling.

Some banks are beginning to loan money for solar retrofits. The solar energy facts clearly show us that once the payoff is complete for such a loan, the homeowner is ahead a great deal-even as much as the whole of his total former energy costs.

We have many suppliers in this country who can design systems for every environment and climate.

We’re going to look at four main systems for a homeowner to consider when going solar:

-Solar hot water
-Solar electric or photovoltaic
- heat
- turbine

Solar hot water is a terrific investment due to low cost and high efficiency. Space heating can be incorporated for a slightly higher expenditure. An outlay of three to ten thousand dollars could lower your energy demands from thirty to fifty per cent. Our solar energy facts show us that hot water represents the second highest energy demand in U. S. households.

Solar electric or photovoltaic is another of my personal preferences because this is an arrangement usable by almost every household. A system consisting of photovoltaic panels with a grid-tie unit eliminates the need for storage batteries, and if supplied with enough solar panels, can even pay a homeowner for excess electricity generated. The costs for such a system are probably going to run from five to twenty thousand dollars. Photovoltaic coupled with solar hot water can be an ideal solution for many homeowners.

- Although geothermal is not really solar energy, it is certainly . Geothermal uses the constant temperature of the earth along with a sophisticated heat pump to either heat or cool the . There are also designs which supply hot water as a part of the process. The installation of this scheme requires either a well be drilled or extensive trenching be done. The cost of this along with the heat pump may be somewhat costly. Photovoltaics or wind would also be an important part of any complete .

Wind power is an extremely good source of power for anyone who lives in an area of plentiful wind and preferably doesn’t have neighbors too close. If a grid-tie is not possible, storage batteries can be installed. Costs for wind power machines can range anywhere from five hundred dollars for a small unit to as much as twenty thousand for a high end grid-tie unit with a sixty foot tower.

When we lok at headlines that say, “Pump prices rising despite glut of gasoline” (Chris Kahn-AP) or this: “Oil prices rise again” (APA), the solar energy facts assure us that by investing in solar power we can go a long way toward guarding our energy future. With the abundant sun’s energy in the southwest and the winds available in other parts of the country, our goal of energy independence is much brighter.

Harry Faris has been involved with solar, wind, and renewable energy for many years-since Stewart Brand started the “Whole Earth Catalog.” He generated his own power for twenty years using solar and diesel. “12 volt is great!” solar energy, solar hot water.

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Emerging Geothermal Technology Company Expands Advisory Board

Published by fnever on April 10th, 2012 - in Knowledge Base


Midland, Texas (PRWEB) February 09, 2012

GeoTek Energy, LLC (GeoTek), a geothermal technology company focused on implementation of its Gravity Head Energy System (GHES), announces new additions to its board of advisors. GeoTek has made three additions as a proactive measure for sustained expansion on the heels of recent GHES engineering and funding successes, including a U.S. Department of Energy (DOE) Geothermal Technologies Program(GTP) award in 2011 to advance GHES as an innovative geothermal technology.

“We are honored to have such knowledgeable individuals guiding our team,? said Dave Marshall, chief financial officer of GeoTek. ?GeoTek anticipates an expansion period in 2012-13 as we move from the pilot stage to production of our award-winning Gravity Head Energy System, and we want to continue this growth over the next several years. Our new board members bring a wealth of achievements and expertise that will help us meet that objective.”

The new additions to the GeoTek Advisory Board are: Jill Robinson Haizlip, M.S, senior geochemist/principal for Geologica Inc.; Dr. Ronald DiPippo, chancellor professor emeritus of mechanical engineering at the University of Massachusetts Dartmouth (UMD); and Dr. Jefferson W. Tester, David Croll professor of sustainable energy systems in the School of and Biomolecular Engineering at University. Haizlip, DiPippo and Tester join Lou Capuano, Jr. and Hezy Ram on the GeoTek Board of Advisors.

Jill Robinson Haizlip, M.S., is currently the senior geochemist/principal for Geologica Inc., an environmental and geothermal resource consulting firm. As a GeoTek Advisory board member, Haizlip brings expertise in geology and hydrogeochemistry of geothermal systems, environmental geochemistry, and hydrogeology. Prior to Geologica Inc., Haizlip was a consultant for Dames & Moore and a geologist and geochemist for Geothermal Resources International. She has frequently applied her expertise to the integration of resource characterization to the design and operations for geothermal power generation to maximize the capacity of a wide range of geothermal resources throughout the world.

Haizlip earned a Bachelor?s degree in geology from Middlebury College and a Master?s degree in geology from Columbia University. She has over 30 years of professional experience in exploration, operation and development, including extensive project experience and has authored numerous publications on geothermal geochemistry in The Geysers and Imperial Valley in and in Turkey.

Dr. Ronald DiPippo is a world authority and consultant on geothermal power plants with over 35 years experience in the field. DiPippo is chancellor professor emeritus of mechanical engineering and former associate dean of engineering at the University of Massachusetts Dartmouth (UMD). He was a visiting research professor and lecturer at Brown University in Providence, R.I. and at Massachusetts Institute of Technology (MIT). In 2008 and 2009, he was a visiting lecturer at the School for Science at the University of Akureyri, Iceland.

DiPippo is the author of four major books including, Geothermal Power Plants: Principles, Applications, Case Studies and Environmental Impact, now in its second edition. DiPippo conducted research in the area of thermodynamic and transport properties of gases at high temperatures and pressures. As part of this effort he was a U.S. delegate to the Seventh International Conference on the Properties of Steam, held in Tokyo in 1968. His work has taken him to Canada, Costa Rica, El Salvador, Guatemala, Iceland, Italy, , Kenya and Mexico in addition to the following geothermally active U.S. states: California, Hawaii, Idaho, Montana, Nevada, New Mexico, Oregon, Utah, Washington and Wyoming.

Dr. Jefferson W. Tester is the David Croll professor of sustainable energy systems in the School of Chemical and Biomolecular Engineering at . He also is the of the Energy Initiative in the College of Engineering at Cornell University and associate of the Cornell Center for a Sustainable Future (CCSF), with special responsibility for the energy focus of CCSF. Until 2008, Tester was the H.P. Meissner professor of chemical engineering at MIT (1980-2008), of MIT’s Energy Laboratory (1989-2001), of MIT’s School of Chemical Engineering Practice (1980-1989) and a group leader in the Geothermal Engineering Group at Los Alamos National Laboratory (1974-1980).

Tester has authored or co-authored eight books and published numerous papers on topics ranging from renewable fuels, to the assessment of local, regional and global environmental effects caused by energy supply and use. Tester holds memberships on other advisory boards and has served as an advisor to the U.S. Department of Energy and the National Research Council in areas related to concentrating solar power, geothermal energy and other renewable technologies. Tester received a Bachelor of Science and a Master of Science with distinction in chemical engineering from Cornell University. He also earned a Ph.D. in chemical engineering from MIT.

About the GeoTek GHES

GeoTek, based in Midland, Texas, was formed in 2004 to advance geothermal power technology. GeoTek has spent several years and significant private resources to re-design the GHES, originally developed in the 1970s. GeoTek has used advanced computer modeling to engineer a more compact and efficient system and is working with a DOE award to complete and validate the design and renewable energy economic potential of the GHES and has scheduled a pilot-well installation for later this year.

GeoTek?s patent-pending GHES achieves increased net energy generation through higher cycle efficiency. GHES offers advantages beyond the additional clean power through reduced land use and accelerated production of electricity. This compact, well-based power system eliminates the large central power plants and associated hot-water piping currently used. GeoTek?s GHES produces electric power at each well-site which enables a distributed generation system for use in remote locations and developing countries.

Simply stated, the GeoTek GHES uses the natural force of gravity to produce and deliver more affordable electricity from the same -friendly resource, nature?s hot sub-surface water. GHES will provide an additional $ 200 million of clean electricity over the 30-year life of a typical geothermal binary power plant. This additional clean power could eliminate 1.9 million tons of CO2 emissions.

About GeoTek Energy, LLC

GeoTek Energy, LLC is an alternative energy/geothermal technology leader. Geothermal power is an affordable renewable resource that has no emissions?neither hydrocarbon nor carbon dioxide. GeoTek is developing its Gravity Head Energy System technology which produces significantly greater power compared to the present state-of-the-art binary cycle power plant technology. GeoTek has strong leadership and technology partners. For more information, go to: http://www.GeoTekEnergy.com.

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A Brief Introduction to Geothermal Energy – Pros and Cons, Yes or No? Find Out!

Published by fnever on March 25th, 2012 - in Knowledge Base

Article by Joe Markson

There tend to be quite a bit of discussion going on regarding energy however it clearly is perhaps the most cost effective alternatives that exists. energy works all year round and it can save lots on your energy bills. It is actually more affordable than plus its absolutely clean and sustainable.

The best part of tends to be that it can be used in all weather conditions. No matter if it’s freezing or sizzling hot outside the system constantly works (as opposed to solar panels for example where you actually need the sun’s rays to shine for the solar panels to generate anything at all). Geothermal solutions demand negligible upkeep and they’re made to function for a long time. They could be scaled to suit one’s circumstances. This can be a perfect solution for either residential or industrial use.

But just what is geothermal energy anyway?

The term “geothermal” is of Greek origin, meaning “warmth out of the ground”. We generally differentiate 2 types of geothermal energy. The first is geothermal which is generated from the magma of the , thanks to atomic reactions. In the center of our planet conditions are so incredibly hot (~7200 °F or ~4000 °C) that rock will become liquefied which then slowly moves towards the surface of the .Typically, the temperature increases about 120 °F (~50 °C) with each mile (~1.6 km) towards the middle of the . The other kind of geothermal heat actually comes from sunlight. The sun heats up the first few meters of the surface of our and this may also be harnessed.

So what’s in it for me?

Geothermal energy is normally used for warming or cooling. It can generate warmth during wintertime and cooling can be done with it during summer. It can also help to meet hot needs of a household. Of there are pros and cons of geothermal energy, but the advantages usually outweigh the disadvantages.

Final thoughts

There is much more talk about climate change and the search for alternative energy has never been such a hot topic as nowadays. With geothermal heat pump systems getting more inexpensive, more efficient, and a lot more reliable geothermal energy is amongst the most talked about green solutions around. Despite the fact that installing a is typically more pricey than a regular system, the original investment will probably pay off in a couple of years time.

And finally, if you are interested in geothermal energy pros and cons please check out GeothermalEnergyHQ at http://www.geothermalenergyhq.com.










solar-energy-pros-and-cons.org Solar energy will be a resource that will be utilized more and more in the future.Discover if power would be a viable option.

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Benefits of DIY option energy

Published by fnever on December 17th, 2011 - in Home Solution

by

Jason Heath invites you to visit http://www.diyalternateenergy.com to obtain a cost-free ten component mini on how you too can appreciate the positive aspects and savings of a “green” power effective residence, &amp get began with a DIY . Just follow the prompts to have it emailed to you nowadays!










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GRC 2012 Annual Meeting Announced, Call for Papers Issued

Published by fnever on December 16th, 2011 - in More About Green


, (PRWEB) December 13, 2011

The Resources Council issued a call for papers nowadays with the announcement of the planet?s largest event taking spot September 30-October 3, 2012, in Reno, Nevada, at the . Themed ?Geothermal: Trustworthy, Renewable International? the (GRC) is the sponsor of the Annual Meeting.

Instructions for the Call for Papers for the 2012 GRC Annual Meeting

Submission Form for Technical Papers for the 2012 GRC Annual Meeting

The GRC Annual Meeting is the industry?s largest annual gathering of leading scientists, geologists, academicians, producers, business stakeholders, regulators, utilities, and important connected company leaders. The 4-day event will supply technical, policy, and marketplace conference sessions, educational seminars, a trade show exhibition, tours of local geothermal and projects, and quite a few networking opportunities.

The GRC 2011 Annual Meeting attendees came from 32 various countries about the planet highlighting the GRC?s function in connecting the international community. With growing interest in geothermal as a trustworthy supply of renewable power, the GRC is looking ahead to an even stronger program in 2012.

Curt Robinson, GRC?s executive mentioned, ?The 2011 event was an extraordinary good results. With over two,000 attendees representing the geothermal industry and more than 150 vendors involved in numerous facets of enterprise, the GRC engaged the expanding global geothermal community.?

The GRC 2012 Annual Meeting planning committee will take into account papers for its Technical and Poster Sessions for these topics:

Conference Paper Subjects

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Japan Embraces LIMNION Geothermal Technologies

Published by fnever on December 4th, 2011 - in Conferences

Haliburton, (PRWEB) November 06, 2011

Just back from last week?s International Ground Source Pump Association?s (IGSHPA) annual conference in Oklahoma, representatives from Corporation (http://www..com), the Canadian developer and manufacturer of LIMA-1, an exclusive compact and high-tech transfer program, report a very high level of interest in their products, especially by the Japanese. In the of the IGSHPA conference, LIMNION launched a live feed from their organization headquarters in central Ontario that demonstrated the LIMNION LIMA- at perform. The live-feed may also be viewed on the firm?s web site. ?We were really pleased to launch our ?live? feed from our study and testing facility in Canada,? states , Founder and CEO of LIMNION Corporation. ?Those that watched the feed had been impressed with the chance to truly see a method functioning with all the numbers. I was personally impressed with the interest from Japan. It appears Japan has a clear view toward clean energy,? explains Heise.

Till lately, geothermal power has received limited government funding and assistance in Asia. Since the disastrous 2010 earthquake and tidal wave that severely damaged Japan and its nuclear market, the Japanese have been exploring alternatives to nuclear power. Geothermal technologies is now attracting a fantastic deal of interest as governments and investors rethink their dependency on nuclear energy. A lot of the government?s disaster relief funds are now getting put towards green technology. According to Heise, there are at the moment just 300 heat pumps in Japan. “More than the subsequent ten years, the market place for geothermal merchandise for each residential and commercial applications is expected to explode,” says Heise.

Launched a little more than a year ago, the LIMNION LIMA-1 has proven to be a tremendously successful product for LIMNION Corporation. Featuring several break-via innovations in geothermal power transfer technology, the LIMA-1 is a high efficiency geothermal transfer system designed for installation in lakes, ponds, rivers and oceans. This compact geothermal heating/cooling system is engineered and manufactured making use of fluoropolymer tubing in a modern day and strictly controlled facility. As opposed to conventional field built loops or mats, the LIMA -1 technique has extremely limited impact on ecologically sensitive and river bottoms. Appropriate for each residence and commercial applications, LIMA-1 brings geothermal capability to the forefront, providing consumers green technologies that is not directly reliant on fossil fuels.

?We are extremely excited about the future of the LIMNION LIMA-1 and the future of geothermal in general. Judging by our success at the IGSHPA Conference and the remarkable quantity of interest our products generated, specifically from the Japanese, we anticipate a extremely bright future for geothermal at house and abroad,? adds Heise.

Get in touch with Info:

Lorne Heise, CEO

LIMNION Corporation

Limnion Geothermal Transfer Systems

PO Box 4100

Carnarvon ON K0M 1J0

Phone: 705 754-4545

Toll Free of charge: 800-584-4944

(at)limnion(dot)com

http://www.limnion.com

About Limnion Geothermal Transfer Systems: LIMNION Geothermal Transfer Systems for heat pumps delivers energy saving heating and cooling solutions for new and retrofit heat pumps, with no the clutter and upkeep linked with underwater lake heat transfer loops. A high efficiency closed loop source heat exchanger Limnion Geothermal Transfer Systems are engineered for lake loops, pond loops, river loops, and oceans loops, and are compatible with to air and to heat pump technologies. For much more data about LIMNION LIMA-1, GeoCirculator, and LimaSol, pay a visit to http://www.limnion.com or call 1-800-584-4944.

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Installing Geothermal Home Heating Method

Published by fnever on December 1st, 2011 - in Home Solution

Article by Stephen Mcclure

A lot of people have headaches when it comes to selecting a heater for their houses. Most heaters tend to have many side effects that people want to stay away from at all costs. The electric is very costly simply because of power utilized whilst the gas heater is harmful and equally high-priced. Coal is cumbersome and environmental degrading. residence heating program has gained popularity over the years since of many factors.

The 1st advantage is the cheaper costs of utilizing this cooling and heating technique. This is since it has been recognized to lessen energy consumptions of cooling houses by 50% and that of heating up the residence by 70% and above. This for that effectively reduces the costs utilized in heating and cooling of the residence. In contrast to the electric, gas and coal heaters and coolers the strategy has been identified to be the least expensive.

The geography and topography of your location are of prime significance as far as installation of this technique is concerned. This is since the technique demands some source of for it to be installed in an area. For those living close to bodies, there are higher chances of speedier installation. However, for those without having bodies there are other alternatives that your contractor can function with.

Given that the pipes employed in this approach are installed underground the users are at less danger of any hazards. Electric heaters and coolers can electrocute a person while gas can blow if left under dangerous circumstances or used wrongly. This approach is for that reason the safest amongst all other techniques of cooling the residence.

Additionally, this technique is well-known for its durability. It normally has 10 year warranties but lasts for longer when maintained nicely. Most users have confessed that they did not encounter any troubles employing the approach for decades. Its efficiency also lasts for longer as compared to other systems utilized in coolers and heaters.

This strategy is also effective as the energy is more consistent. Underground temperatures are generally maintained at 50 degrees and as such it is less difficult for the pipes to preserve consistency in either cooling off or escalating the room temperatures in contrast to in other approaches where so considerably power has to be utilised and sources of energy are less consistent and unreliable. It is also far more reliable when huge buildings are involved.

While most folks are rebuffed by the high costs of installing the geothermal heating system, the above advantages overlook these costs. In truth this strategy is so advantageous so that the government offers rebates of up to 30% for those men and women who want to install the pipes in their houses. You can uncover out what tax exemptions are offered in your location and install your heater as soon as possible.

It’s time to enhance your power overall efficiency and save money by using the amazing source of geothermal! Geo-Hydro Supply supplies all geothermal flow center and the geothermal pipe necessary to set up a system in your location. Wise up and secure for your place now!










Google Tech Speak (more beneath) June 9, 2011 Presented by Chris Bruer. ABSTRACT Have you heard that you can heat and cool your house or enterprise with energy that already exists in the ground? Like sunlight or , this power is cost-free for the taking and is renewable. Question is, how do you harness it? And how considerably does it price to install? Chris Bruer, Creative Services Manager at GeoSmart Energy, will be talking about these comparatively basic systems and how they are expense successful, energy effective and environmentally friendly. He will explain how they work and give examples of how they can save money more than time as properly as other positive aspects of the systems. GeoSmart Energy is a Canadian organization, based in Cambridge, that distributes Geothermal systems by way of a network of 300+ dealers across Canada and the United States.

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How Geothermal Heating and Cooling Functions

Published by fnever on November 25th, 2011 - in Home Solution

Post by Dave Allaire

The term means from the . Each near the and deep inside the ground, our planet can supply a continuous source of heat and power.

Over a million homes in the United States these days use . The US Environmental Protection Agency considers the cleanest and most energy efficient way to conditioning a nowadays.

Geothermal systems use the earth’s capacity to shop solar power. A mild level of heat exists in steady supply at depths ranging from six feet to a few hundred feet beneath the surface of the earth. A geothermal method effectively uses this temperature source to both heat and cool houses.

The engine of a geothermal heating and cooling program is the ground source heat . Heat pumps transfer heat from 1 source to an additional. In some systems this heat is produced employing drawn from a nearby nicely. This is referred to as an open loop system simply because is taken from the ground, run by means of the heat pump and returned to the ground in a diverse .

In a much more typical named a closed loop , a fluid mix is piped through places around the home permitting it to absorb the mild temperatures present. This fluid mix can be circulated in 1 of three approaches. At a web site which contains lots of effortlessly excavated space outside the property, pipes are buried roughly 4 to eight feet below ground. Where these circumstances are not offered, one or two wells might be dug to location the piping. In a third way, pipes are run by way of a nearby pond to absorb the mild temperatures of the surrounding water.

In the of the warmer months, the heat pump settings are reversed to transfer heat back into the ground. This helps to cool the home. Because the heat pump transfers heat rather than producing it via combustion, efficiencies are a lot greater. Heat pumps are estimated to be four occasions much more efficient than fuel burning furnaces, producing them far much less costly to operate.

Here is one more thing to keep in thoughts. For those thinking about installing a geothermal technique in the United States between now and 2016, a tax credit of 30% is available. What a excellent incentive to get a excellent heating and cooling technique and save income on taxes!

Any person constructing a property nowadays would be wise to think about the benefits of geothermal heating and cooling.

Visit us to learn a lot more about the positive aspects of geothermal heating and cooling. Here you can also uncover details about how to save money with the geothermal tax credit presently obtainable.










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AltaRock Energy Releases a Video Explaining Enhanced Geothermal Systems in Detail

Published by fnever on November 10th, 2011 - in Home Solution


La Pine, Oregon (PRWEB) October 21, 2011

?What if we could produce ideal conditions practically anywhere? That?s exactly what Enhanced Systems, or EGS, proposes to do.?

In a new video from Power, narrator and Emmy-award nominated actor , Jr. explains the approach and benefits of Enhanced Geothermal Systems (EGS), a technologies poised to create a new power economy in the United States. The video can be viewed at http://www.AltaRockEnergy.com.

Video Explains Enhanced Geothermal Systems in Detail

The eight-minute video explains how geothermal power is utilized and outlines the specific benefits of EGS. Utilizing the ?s heat to produce electricity or heat properties, is a trustworthy and renewable source of power. However, traditional geothermal power is restricted to locations exactly where hydrothermal reservoirs naturally occur. But EGS has the prospective to produce nearly anywhere.

As illustration of EGS in practice, the video focuses on the Newberry EGS Demonstration underway in the Deschutes National Forest in central Oregon.

Newberry EGS Demonstration Process

As . explains in the video, the Newberry EGS Demonstration is being conducted in 3 phases. In Phase I, scientists and engineers reviewed data about the demonstration internet site, conducted , created plans for the demonstration, and are securing all necessary permits.

In Phase II, an EGS reservoir will be created around an existing well utilizing a procedure called ?hydroshearing.? Hydroshearing entails injecting water at high pressure into the earth, to open and stimulate existing in the rock. Utilizing genuine-time microseismic monitoring, the ?s engineers will establish the size, location, and orientation of the fractures that make up the new reservoir. When the reservoir is complete, the water it contains will heat up and flow via wells to the surface. Careful measurement of temperature, pressure and flow from the wells will be employed to assess reservoir efficiency.

In Phase III, AltaRock will summarize the data collected all through the demonstration. This data will be utilized to create a conceptual model of a commercial-scale EGS system.

About The Video

The new EGS video was created by AltaRock Energy. It is offered for viewing at http://www.AltaRockEnergy.com.

Narrator Ed Begley, Jr. is a 6-time Emmy award-nominated actor and prominent environmentalist. Begley was an early advocate for environmentally- and socially-responsible options and policy he continues to function to promote awareness of ecological problems.

About the Newberry EGS Demonstration

The purpose of the project is to demonstrate the technologies required to create geothermal reservoirs to extract heat from the earth in locations exactly where high temperatures can be reached by conventional drilling methods ? in an effort to advance geothermal power?s promise and prospective in the U.S.

The Newberry Volcano EGS Demonstration, getting conducted by AltaRock Power in partnership with Davenport Newberry, is partially supported by the Department of Energy under Award Quantity DE-EE0002777, with $ 21.five million in grant funds from the Department of Power matched by an additional $ 22.four million from the AltaRock-Davenport partnership. The project is also benefiting from the study efforts of faculty and students at the Oregon State University, the University of Utah, Lawrence Berkeley National Laboratory, Texas A&ampM, and Temple University. AltaRock Energy is a renewable power development business focused on the analysis and development of Enhanced Geothermal Systems (EGS). Davenport Newberry specializes in the development and management of geothermal opportunities. Please contact us toll-free of charge with your comments and concerns at 855-USA4EGS (855-872-4347).

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