How a heat pump works
A heat pump not only provides heating in the winter, but can also provide cooling in hot weather.
Offices use a large number of electrical devices, which can result in considerable energy usage. Solar panels can help to significantly reduce operating costs, particularly in times of very high energy prices.
Electricity that is not used by the offices can be fed back into the grid, generating additional income for the office owners. It can also be used to power electric cars, with the option for the owners of KWIKOFFICES to charge car owners for the electricity.
Sunlight falls on high performance solar panels, converting the sun's energy to Direct Current (DC)
Stage 1
The electricity is sent to an inverter which converts the direct current to Alternating Current
Stage 2
When the system produces too much electricity it is sent to the grid or to an energy storage system - such as a battery
Stage 3
Power from the grid or storage system is provided at night or when demand exceeds solar production
Stage 4
Our commercial battery storage system comes as self contained units and offers 2 MW capacity. This creates a plug and play, highly adaptable and efficient system for housing projects, stadiums, sports clubs and venues of all kinds. It adds great flexibility to our commercial solar panel solutions.
A heat pump takes energy from outside and transfers it into heat to be circulated around a heating and hot water system. A heat pump uses electricity to run the components of a heat pump, principally a fan, compressor and circulating pumps to transfer the energy from the heat source into the heat sink or heating system, making it a perfect compliment to domestic solar panels.