What is WaterFurnace Geothermal Systems?
WaterFurnace geothermal systems are revolutionary heating and cooling systems that utilize the Earth's natural temperature to provide energy-efficient heating and cooling for homes and businesses. These systems are typically installed in the ground outside, where they tap into the Earth's thermal energy to provide reliable and consistent heating and cooling throughout the year.
One of the key advantages of WaterFurnace geothermal systems is their efficiency, which is much higher than traditional heating and cooling systems. This is because geothermal systems use the Earth's natural heat, which is much more constant than the temperature of the air outside. This means that WaterFurnace geothermal systems are able to provide consistent heating and cooling, regardless of the outside temperature.
Another advantage of WaterFurnace geothermal systems is their sustainability. These systems use renewable energy, which makes them a much more environmentally friendly alternative to traditional heating and cooling systems. Additionally, they require very little maintenance and can last for several decades, making them a cost-effective and long-lasting investment for homeowners and businesses alike.
Overall, WaterFurnace geothermal systems are an innovative and sustainable solution for heating and cooling needs. They offer incredible efficiency, reliability, and sustainability, making them an excellent choice for anyone looking to reduce their environmental footprint while also enjoying the benefits of modern air conditioning and heating.
Frequently Asked Questions about waterfurnace geothermal systems
A geothermal system uses small-diameter, High-Density Polyethylene (HDPE) pipes buried underground called a "loop." The loop circulates water to move heat energy to and from your home. It's the heart of a geothermal system and its biggest advantage over ordinary heat pumps, air conditioners and fossil fuel furnaces.
Fort Wayne, Indiana
In 1990, explosive sales and a quest for a state-of-the-art facility that would spotlight the advantages of using geothermal energy led WaterFurnace International, Inc., to build its 115,000-square-foot corporate headquarters and manufacturing plant in Fort Wayne, Indiana.
NIBE
WaterFurnace is acquired by NIBE, a leading heat pump manufacturer for the European market.
WaterFurnace ground source systems provide heating, cooling, and hot water for homes and buildings all around the world. Tap into savings, efficiency, and the ultimate in comfort.
This type of system uses well or surface body water as the heat exchange fluid that circulates directly through the GHP system. Once it has circulated through the system, the water returns to the ground through the well, a recharge well, or surface discharge.
WaterFurnace systems are rated number one in energy efficiency because they can deliver more than five units of energy for every one unit of electrical energy used. Compare that to even the best ordinary system that delivers less than one unit of energy for every unit it consumes.
Calpine
1. Calpine. Calpine is headquartered in Texas, U.S. It is America's largest electricity generator from natural gas and geothermal resources with strong industrial, commercial, and residential retail operations in prime competitive power markets.
Magma exists in the mantle and lower crust, and sometimes bubbles to the surface as lava. Magma heats nearby rocks and underground aquifers. Hot water can be released through geysers, hot springs, steam vents, underwater hydrothermal vents, and mud pots. These are all sources of geothermal energy.
The heart of a geothermal system is the heat pump unit, and ClimateMaster's Trilogy® 45 Q-Mode (QE) is the very best available, offering the highest certified efficiency in the industry.
Geothermal Benefits. WaterFurnace systems are rated number one in energy efficiency because they can deliver more than five units of energy for every one unit of electrical energy used. Compare that to even the best ordinary system that delivers less than one unit of energy for every unit it consumes.
Water is also used by geothermal plants for cooling and re-injection. All U.S. geothermal power facilities use wet-recirculating technology with cooling towers. Depending on the cooling technology used, geothermal plants can require between 1,700 and 4,000 gallons of water per megawatt-hour.
Geothermal water generally is heavily mineralized with chloride, sulfide, boron, mercury, arsenic, and other heavy metals, and contains large amounts of heat. Discharges of used geothermal fluid to rivers can lead to increases in the concentrations of these minerals and of heat load to the river.
In modern direct-use systems, a well is drilled into a geothermal reservoir to provide a steady stream of hot water. The water is brought up through the well, and a mechanical system – piping, a heat exchanger, and controls – delivers the heat directly for its intended use.
Because geothermal units aren't subjected to the punishing effects of outdoor weather or fuel combustion, they last longer than nearly any other heating and cooling system. Geothermal units have an average equipment life of 25 years while the underground loop system has a rated material life of more than 100 years.
Heat Pump Hot Water Heaters
Heat pump water heaters use electricity and operate like a reverse refrigerator to make hot water in a tank very efficiently, making essentially 2-3 units of hot water for every unit of electricity used. This means they're 200-300% efficient!
Here the Top 10 geothermal countries year-end 2021:
- United States* – 3,794 MW (updated our numbers as per the notes below)
- Indonesia – 2,356 MW – additions at Sorik Marapi, Sokoria and a small binary plant at Lahendong.
- Philippines – 1,935 MW – a small binary plant was added.