2.0/2 Ton Horizontal Geothermal Heat Pump 27.6
WARRANTY:- 10 YEARS ALL PARTS
Unit Model HPX024HSS
2.0/2 Ton Horizontal Geothermal Heat Pump 27.6
- FEATURE INFORMATION
- UNIT PERFORMANCE
2.0-ton Horizontal Geothermal heat pump EER 27-6
Buy horizontal geothermal heat pumps with 2.0- and 2-Ton capacities for the lowest price available in the USA. Miami heat pump is well-versed in producing geothermal heating systems to suit the needs of every single person and family. We offer you a product for every cooling or heating need with the assurance of the best designs in engineering and machinery. Depending on your requirements, Miami heat pumps can be modified. In order to enjoy the comfortable and hassle-free cooling or warm environment inside your home after our product is installed, stop worrying about energy conservation, electricity bills, and other things.
What is a 2.0-ton Horizontal geothermal heat pump in USA?
Horizontal geothermal ground loops are typically one of the more affordable options if sufficient soil or clay-based land is available. A backhoe or chain trencher is used to dig several hundred feet long, five to six-foot-deep trenches for horizontal geothermal ground loops. The trench is then backfilled after piping is laid there. For every tonne of heating and cooling, a typical horizontal ground loop will be 400 to 600 feet long. Horizontal ground loops are typically used for new construction due to the amount of trenching required. Last but not least, because horizontal geothermal ground loops are so shallow, they are frequently inappropriate for regions with extreme climates, like the far north or the deep south.
Slinky Ground Loops for Geothermal Systems
Slinky coil geothermal ground loops are becoming more and more common, especially for home geothermal system installations. In essence, slinky coil ground loops are a more space- and cost-effective variation of the horizontal ground loop. Slinky coils, as you might expect, use overlapped loops of piping laid out horizontally along the bottom of a wide trench as opposed to the straight pipe. Slinky coil trenches can be between one-third and two-thirds shorter than conventional horizontal loop trenches, depending on the soil, climate, and a run fraction of your heat pumps.
Why use a 2.0-ton Horizontal geothermal heat pump USA?
- Dual-purpose heating and cooling: All HVAC systems should function as one. Our smart, Wi-Fi-connected heat pump provides the most effective heating and cooling system.
- Low Cost of Operation: Price consistency you can rely on. There’s no need to haggle over yearly delivery agreements or consider how the news cycle will impact your heating costs.
- Convenient: Less hassle, more time. Say goodbye to repeated service calls, maintenance visits, and heating deliveries.
- Increases the Value of Your Home: Benefit from your home improvement investments. Every year, customers of fuel and propane can save more on heating and cooling.
- Hyper-Efficient: For less than you are currently paying, it is four times more efficient. More money is saved when productivity is higher.
- Safe: No smoke or flames. Serious health risks like carbon monoxide, Sulphur dioxide, and nitrogen dioxide could be produced by furnaces.
- Alternative Energy: Good for the environment (and your wallet). When it comes to air pollution, home heating is only second to automobiles, and oil-burning furnaces use more fossil fuels than diesel trucks.
- Long-Lasting Tools: Lasting heating and cooling dependability. The ground loops that are installed in the yard can last more than 50 years, and geothermal heat pumps typically last 20 to 25 years. even to a hundred!
How Does Horizontal Geothermal Heating and Cooling Work?
Systems for geothermal heating and cooling operate very differently from how a conventional furnace generates heat. In contrast to a geothermal heat pump, which uses heat exchange to heat the home, a furnace generates heat by burning fuel. It is possible to use the ground as a heat source because of its constant temperature of 50 to 60 degrees year-round. The fluid in the ground loop absorbs heat from the planet and cycles it to the heat pump, and the heat exchanger in the heat pump then transfers the fluid’s heat to the surrounding air.
The way an air conditioner or air-source heat pump operates and how geothermal cooling operates are very similar. The air inside the house is heated and then dispersed. Geothermal heat pumps use the earth as their heat sink as opposed to air conditioners and air-source heat pumps, which release heat into the atmosphere. Depending on how the loop is set up, it releases heat either underground or into a body of water.
Savings by Geothermal Heating and Cooling System
Let’s talk about the savings instead of the costs now. Currently, homes with installed geothermal systems are eligible for a 30% federal tax credit. Additionally, the majority of states or electric utilities give homes with geothermal energy systems rebates or grants. Costs for geothermal heat pumps may decrease significantly as a result of this. Your utility bills for electricity will also skyrocket. Heating demands account for an estimated 42% of household energy use. Depending on the particulars of the site, the use of geothermal systems can reduce this usage by 50%. With regard to greenhouse gas emissions, the same is true.
Do You Need to Think About Horizontal Geothermal heat pump USA?
In a word, yes. Geothermal systems are appealing due to the energy savings and emissions reductions they produce. Geothermal systems can be used as backup systems even if they don’t offer the full package.
The ultimate decision is based on your unique circumstances, including whether the home is new or old, the required heating and cooling capacities, and much more. The financial situation must also be considered. The price of a geothermal heat pump may seem prohibitive. However, as is always the case with HVAC systems, make sure to get advice from a seasoned expert before spending any money! Order now!
|CABINET-||Stainless Steel, Insulated Evaporator Section, Access Panels|
|DRAIN PAN-||Stainless Steel, Insulated|
|SAFETY-||High/Low Press, Switches, Condensate Over Flow Switch, Overload Protection, AntiShort Cycle Relays, Lock Out Relays|
|BLOWERS-||Centifugal Galvanized Wheel, X13 ECM Motor|
|REF CIRCUITS-||Thermal Expension Valve 1 Circuit|
|COND COIL-||Coaxial Cupronickel Heat Exchanger|
|EVAP COIL-||Copper Tubes, Alumininium Fins|
|EVAP COOLING CAPACITY – BTU/HR||WLHP 25,500||GWHP 27,500||GLHP 25,500|
|HEATING CAP. – BTUIHR (HEAT PUMP MODE)||WLHP 27,500||GWKP 20,500||GLHP 16,500|
|FACE VELOCITY – FPM||222|
|COIL ENTERING AIR TEMP. DB/WB- F||80.6/66.2|
|AIR VOLUME – CFM||800|
|BLOWER SIZE & QTY||10”x7” / 1|
|FAN MOTOR-HP&QTY||1/3 / 1||FLA(EA)= 2.8A|
|WATER FLOW – GPM||6.0|
|ENTERING WATER TEMP. °F||WLHP 86.0||GWHP 59.0||GLHP 77|
|WATER PRESS. DROP – FT H2O||11.4|
|NO. OF CIRCUIT CAPACITY STEPS||1/1|
|TYPE & OTY||Scroll/1||RLA(EA)= 12.8 A||LRA(EA)=60.0A|
|VOLTAGE RATING I PHASE / HERTZ||230/1/60|
|E.E.R.||WLHP 17.0||GWHP 27.6||GLHP 19.7|
|C.O.P (HEAT-PUMP ONLY)||WLHP 5.0||GWHP 4.2||GLHP 3.6|
|MIN AMP. / MAX FUSE – AMPS.||19/30|
|DIMENSION W” X L X H”||21.5” X 33.50” X 20.75”|
|WEIGHT – NET – LBS.||210|
|WATER CONNECTION SIZE||3/4|
|DRAIN CONNECTION SIZE||3/4|