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Brooks Cooper
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Buy Ground Source Heat Pump ((FULL))


The heating efficiency of ground-source and water-source heat pumps is indicated by their coefficient of performance (COP), which is the ratio of heat provided in Btu per Btu of energy input. Their cooling efficiency is indicated by the Energy Efficiency Ratio (EER), which is the ratio of the heat removed (in Btu per hour) to the electricity required (in watts) to run the unit.




buy ground source heat pump



Look for the ENERGY STAR label, which indicates that the unit meets ENERGY STAR criteria. Manufacturers of high-efficiency geothermal heat pumps (GHPs) voluntarily use the EPA ENERGY STAR label on qualifying equipment and related product literature. Many GHPs carry the U.S. Department of Energy (DOE) and Environmental Protection Agency (EPA) ENERGY STAR label.


These geothermal heating and cooling units installed in the basement of a new home are tied to a complex array of underground coils to keep indoor temperatures comfortable. Photo courtesy of iStockphoto/BanksPhotos


Shallow ground temperatures are relatively constant throughout the United States, so geothermal heat pumps (GHPs) can be effectively used almost anywhere. However, the specific geological, hydrological, and spatial characteristics of your land will help your local system supplier/installer determine the best type of ground loop for your site.


Factors such as the composition and properties of your soil and rock (which can affect heat transfer rates) require consideration when designing a ground loop. For example, soil with good heat transfer properties requires less piping to gather a certain amount of heat than soil with poor heat transfer properties. The amount of soil available contributes to system design as well -- system suppliers in areas with extensive hard rock or soil too shallow to trench may install vertical ground loops instead of horizontal loops.


Ground or surface water availability also plays a part in deciding what type of ground loop to use. Depending on factors such as depth, volume, and water quality, bodies of surface water can be used as a source of water for an open-loop system, or as a repository for coils of piping in a closed-loop system. Ground water can also be used as a source for open-loop systems, provided the water quality is suitable and all ground water discharge regulations are met.


The ground heat exchanger in a GHP system is made up of a closed or open loop pipe system. Most common is the closed loop, in which high density polyethylene pipe is buried horizontally at 4 to 6 feet deep or vertically at 100 to 400 feet deep. These pipes are filled with an environmentally friendly antifreeze/water solution that acts as a heat exchanger. In the winter, the fluid in the pipes extracts heat from the earth and carries it into the building. In the summer, the system reverses and takes heat from the building and deposits it to the cooler ground.


Ductwork in the home distributes the heated or cooled air through the house, just like conventional systems. The box that contains the indoor coil and fan is sometimes called the air handler because it moves house air through the heat pump for heating or cooling. The air handler contains a large blower and a filter just like conventional air conditioners.


The biggest benefit of GHPs is that they use 25% to 50% less electricity than conventional heating or cooling systems. This translates into a GHP using one unit of electricity to move three units of heat from the earth. According to the EPA, geothermal heat pumps can reduce energy consumption -- and corresponding emissions -- up to 44% compared with air-source heat pumps and up to 72% compared with electric resistance heating with standard air-conditioning equipment. GHPs also improve humidity control by maintaining about 50% relative indoor humidity, making GHPs very effective in humid areas.


Geothermal heat pump systems allow for design flexibility and can be installed in both new and retrofit situations. In addition, the hardware may require less space than a conventional HVAC system, thus possibly freeing up space for other uses. GHP systems also provide excellent "zone" space conditioning, allowing different parts of your home to be heated or cooled to different temperatures.


The underground piping associated with GHP systems often carry warranties of 25 to 50 years, and the heat pumps often last 20 years or more. In addition, the components in the living space are easily accessible, which increases the convenience factor and helps ensure that the upkeep is done on a timely basis.


Swimming pools, hot tubs, boat sheds, boats, water parks: you name it, we've fitted it! Ground source heat pumps offer an energy-efficient solution to heating & cooling water sources, as well as using water sources to heat & cool buildings.


Small but packing a punch, the award-winning Kensa Shoebox series produces temperatures up to 65C. It features the quietest & smallest ground source heat pump on the market, offering an efficient, practical & affordable heating & hot water solution.


Looking for a verified heat pump installer? Kensa has a nationwide network of trusty installers to help you with your project. Simply submit your plans & Kensa will recommend the right installer for you.


The Boiler Upgrade Scheme is a government-proposed scheme to deliver grants of up to 6,000 towards heat pump installations in UK households. The scheme, which was known as the Clean Heat Grant, is intended to replace the Domestic Renewable Heat Incentive (RHI) from April 2022 to March 2025.


Self-builders, property renovators & those looking simply to upgrade their heating system can receive a 7-year guaranteed income through the Government's Domestic RHI for their ground source heat pump installation.


You could be eligible for a 0% VAT rate for the installation of a ground source heat pump. Applicable to domestic purchases of heat pumps, installation services, materials, and supplies that make up the system. 0% VAT is available to homeowners until 31st March 2027.


Besides our extensive range of heat pump products, we pride ourselves on our unrivalled technical support and services. All Kensa customers have access to our support to ensure seamless heat pump installations across the UK.


Geothermal heating and cooling systems are the most energy efficient HVAC systems available. Unlike conventional air conditioning, the efficiency of geothermal isn't affected by extreme air temperatures due to its use of more moderate year-round ground temperatures. Our geothermal heat pumps have energy efficiency ratings as high as 35 EER, a level of efficiency virtually no conventional system can match.


Geothermal energy involves harnessing heat that is produced below the earth's surface and using it to heat your home. While geothermal energy is often referred to as just heat distribution, you'll need geothermal heat pumps to effectively move air, whether you need to have your home heated or cooled off.


Most geothermal heat pump systems, also referred to as ground source heat pumps, use underground pipes to capture the heat energy the earth stores from the sun. Homeowners have the option of choosing open or closed-loop designs, although in the United States the majority of homes utilize a closed-loop system:


Homeowners have a huge variety of choices for heating and cooling their homes. While you can opt for traditional heating and cooling setups, one of the best sources of whole-home comfort is directly below your feet. While geothermal heat pumps can be expensive to purchase and install, there are several unbeatable benefits to adopting geothermal heating and air conditioning for your home. The main perks of installing a geothermal heat pump are:


The New York Geothermal Energy Organization is a non-profit organization representing ground source heat pump (GSHP) installers, manufacturers, distributors, general contractors, engineers, renewable energy consultants and industry stakeholders from throughout New York State.


An air source heat pump (ASHP) uses the outside air to heat or cool a building. When used to heat a Building, this is achieved by transferring heat inside from the outside air. When used to cool a building, this is achieved by transferring heat from inside to the outside air. To achieve heat transfer in either direction, air source heat pumps use a system that includes a heat exchanger, a compressor and means to transfer heat from one area to the other, e.g., pipes filled with a refrigerant. Air source heat pumps are driven by electricity, and systems exist that are powered by solar panels, making them both clean and energy efficient.


Cold-Climate heat pump systems heat and cool your building at a fraction of the cost of oil or propane. Coupled with your existing oil or propane heating system, these hyper-efficient and quiet heat pumps work down to sub-zero temperatures to comfortably and efficiently heat your living and working spaces. During summer months, these units reverse and efficiently keep your building cool. 041b061a72


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