Introduction to Combined Heat and Power (CHP)
Combined heat and power (CHP) integrates the production of usable heat and power (electricity), in one single, highly efficient process.
CHP generates electricity whilst also capturing usable heat that is produced in this process. This contrasts with conventional ways of generating electricity where vast amounts of heat is simply wasted. In today’s coal and gas fired power stations, up to two thirds of the overall energy consumed is lost in this way, often seen as a cloud of steam rising from cooling towers.
Cooling as well as heating
Trigeneration is the use of a CHP unit in conjunction with an absorption chiller to provide electricity, heat and cooling.
Buildings with continuous or seasonal cooling demands can install trigeneration as a cost effective and low carbon way to achieve their heating and cooling needs.
The waste heat produced by the CHP unit provides the required energy to produce chilled water.
CHP installations only are workable financially for businesses with large spend and heavy usage of electricity. The bigger the better due to large capital expenditure.
Planning considerations: CHP takes up more size than direct supply due to need for the units. Also need to account for delivery of the unit via a truck and Emissions in urban areas.
This is an ideal technology for hospitals, hotels, large schools, office buildings, factories, in effect any company with a large spend on heat.
The primary benefits of CHP
If our client is leaning towards saving money and some carbon rather than neutralising emissions completely then CHP is an ideal solution. Any emissions not neutralised can be offset with other technologies.
Combined with other technologies such as solar and wind power, the advantages become overwhelming, especially as this is a fully funded initiative.
Did you know that CHP is...
an energy generation process, CHP is fuel neutral. This means that a CHP process can be applied to both renewable and fossil fuels.
The specific technologies employed, and the efficiencies they achieve will vary, but in every situation, CHP offers the capability to make more efficient and effective use of valuable primary energy resources.
By utilising the waste heat, CHP plants can reach efficiency ratings in excess of 80%.
This compares with the efficiency of gas power stations, which in the UK which range between 49% and 52%.
Coal-fired plant fare less well with an efficiency of around 38%.
CHP plants provide local heat, electricity and sometimes even cooling and ventilation to various types of users.
Because the energy is produced locally, CHP has the added benefit of avoiding efficiency losses incurred through transmission and distribution of electricity through the National Grid and local distribution networks.
Around 7% of energy would usually be lost when the network is used to transport energy from the generation source to the user. When taking account of these losses, the respective efficiencies of both coal and CCGT plant fall further at the point of use.