Why Are Heat Pumps a Good Idea?
With the rising popularity of renewable energy sources, heat pumps have become a popular environmentally friendly alternative to fossil fuels. Did you know that heat pumps not only produce clean energy but also provide you with significant savings on your utility bills?
A heat pump, in very simple terms, is a device that moves the heat from one location to another by using a small amount of energy. Heat pumps enable you to make use of renewable energy sources while reducing your carbon footprint. There are two main types of heat pumps that use either the air or the ground as their source of energy.
Does this sound interesting to you? Heat pumps can be easily installed in homes and improve the property’s energy efficiency. BBG is here to help you find the right supplier and compare heat pumps. Fill in the contact form on the right stating your needs and we will connect you with your most suitable suppliers. The service is 100% free of charge, and all quotes are non-binding!
Types of Heat Pumps
There are different types of heat pumps you can choose from. The election will depend on your energy requirements and on the characteristics of your property, among other factors. There are two main categories of heat pumps: geothermal and air source heat pumps. Below we provide a short description of each of them.
Geothermal Heat Pumps
There is a variety of heat pumps under the category of geothermal heat pumps, or ground source heat pumps. Geothermal heat pumps are sometimes referred to as vertical or horizontal systems, closed or open-loop systems, pond heat pumps and so on. Below we provide a full list of heat pumps in this category.
Closed-loop ground source heat pump systems are the most common systems in Canada. These systems circulate an antifreeze liquid through a closed plastic tubing that is buried below the ground. Most common closed loop systems are the vertical and horizontal ground source heat pumps.
Vertical ground source heat pump systems
If there is not a lot of space available, holes are being bored into the ground in five meters distance from each other, each being between 15 to 122 meters deep. Below 15 meters, ground temperatures are not affected by seasonal changes. Water is then pumped into the earth. At greater depths, the temperatures can increase a lot, warming the cold water. It is then coming back out at an exit hole, where it then heats up the refrigerant, which stays in the house within a second system. Then, the energy can be used for various applications. The system’s main disadvantage is its initial investment height.
Horizontal Ground Source Heat Pump Systems
This system is generally used when there is a lot of space available, as it is considerably less expensive than a vertical system. The ground is dug out just below the frost line, and pipes are laid in either a coiled-spirally manner along the ground or in bigger circles if there is enough space. This system basically sends water through the ground, which then heats up the refrigerant in the second pipe system. However, this kind of system is being affected a lot by seasonal changes. Furthermore, a system closer to the earth’s surface will be cheaper, but it very often runs into trouble at the end of long winter.
Radial or Directional Drilling
This kind of system usually comes to mind when the land has already been build upon. Small holes are being drilled into the ground in order to insert the pipes. Using this system, gardens, yards, houses, etc. need not to be opened up. The cost of these systems is usually in the middle between the costs of the vertical and horizontal drillings.
Systems That Utilise a Direct Heat Exchange
In this variant, a liquid refrigerant passes through an underground system of copper tubes. While underground, it is being heated by the surrounding geology. The heated refrigerant is then brought back into the house, where it may be used for a variety of applications.
These systems are also called ground water heat systems because the systems pump up water from below the ground at a certain temperature. After the temperature has been extracted, the water is being pumped back through another pipe into the ground. This system needs constant checking, so the water used is not being affected in any way.
A highly uncommon system as usually in the presence of water, an open loop system is preferred. In a pond system, the pipe coils are being sunk to the bottom of a pond, where the temperature also stays relatively stable. The main problem of the system is that it needs a certain proximity to a pond, which also must be deep enough for the system to run effectively.
Standing well system
The only difference in this system is that the temperatures are being strategically exchanged with certain kinds of rock formations. Otherwise, it is just the same as a ground water heat system.
Air Source Heat Pumps
Air source heat pumps (ASHP) use the principles of vapour compression and can be either air to water heat pumps or air to air heat pumps. Air source heat pumps use the outdoor air to produce heat to your home.
Air source heat pump systems consist of four major elements that allow the refrigerant to pass from the liquid state to gas: a compressor, a condenser, an expansion valve, and an evaporator. When the refrigerant passes through the heating system, the high temperature transforms it into vapour or gas, while the energy produces heat. The gas then goes through the compressor that increases its temperature, and then through the expansion valve, that makes the hot air enter the building. Next, the hot air passes through a condenser which turns the gas into liquid again. The heat produced by the energy in the evaporation phase passes through the heat exchanger again to restart the cycle, and it is then used to make the radiators work for underfloor heating (air-to-air system) or for domestic hot water (air-to-water system).
Further Considerations Regarding Heat Pumps
Heat pumps usually work for 20 years or more, but naturally, they do require regular maintenance. Once a year, you may check certain details of the system yourself, while a professional installer should pay the system a look around every three to five years. After the check up, the installer should leave written details of the system’s state and any indications for possible future issues. According to the Ground Source Heat Pump Association, maintenance requirements are quite low, while there is no need for crucial safety checks. Usual parts to check before starting the heat pump are the pump itself, the external pipes as well as the electronics and parts of the fittings.
Heat pump systems normally have a warranty of two to three years, but there are all kinds of different kinds of sub insurances. For example, a warranty for the workmanship of the heat pump usually lasts for about 10 years. Furthermore, so-called Quality Assured National Warranties also provide different kinds of protection. Apart from the aforementioned, producers and installers offer various kinds of additional warranties as well.
The British government provides its population with two different kinds of programs to support the installation of renewable heat systems:
- Domestic Renewable Heat Incentive (RHI), which is open to homeowners, social landlords, private landlords, and self-builders.
- Non-domestic Renewable Heat Incentive (RHI), which is open to public sector organisations, businesses, and industry.
Concerning the domestic RHI, these incentives guarantee certain prices for the heat generated for seven years to come. For the non-domestic RHI, the helping schemes differ heavily, which should, therefore, be subject to extensive research for each individual case.
Planning Permission for Heat Pumps
As heat pumps usually fall into the category of favourable renewable energy, there often is no need for a planning permission. However, there are some exceptions to this rule:
Geothermal heat pumps
If you live in a conservation area or a listed building, contact your local council to make sure that all requirements are met.
Air source heat pumps
There are different rules for air source heat pumps in both Ontario, Ottawa, and Montreal.
A) Rules for Canada
- The heat pump must be built according to MCS planning standards
- Any additional air source heat pumps, wind turbines, etc. on the property require additional planning permission
- The device has to be more than 1 m from the property boundary
- The device can not be installed on a pitched roof. Also, it should not be near the edge of a flat roof
- Conservation areas, world heritage sites, etc. require additional criteria to be met. Contact your local council for further details
B) Rules for Scotland
- It has to be the only heat pump that surrounds the property on that piece of land
- The heat pump has to be at least 100 meters away from any other dwelling
- If to be built in a conservation area, the heat pump should not be visible from the road
- It cannot be built at a world heritage site or a listed building
C) Rules for Wales
- All air source heat pump installations will require planning permission.
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