What is CHP?
As the name suggests it is the simultaneous production of electricity (power) and heat. The most common technology used is a natural gas fuelled reciprocating engine. Rather than throw away the heat in the exhaust gases and from engine cooling, it is recovered as hot water (steam is possible) and put to good use. For every 1kWh of gas burnt, a modern CHP engine produces around:
- 0.4kWh of electricity
- 0.45kWh of hot water
- So an overall efficiency of 85%.
But it is not just the higher overall efficiency of CHP that makes it financially interesting…
The cost of electricity
You may have noticed how the cost of grid electricity seems to keep going up no matter what is happening with the energy markets. Well, the energy suppliers are the easy target to blame, but it’s not all their fault!
The massive increase in renewable electricity in recent years is great news, but it has to be paid for and the subsidies are not covered by the Government (aka our taxes). In fact, they are paid for by adding extra charges to our import electricity bills, looking at a client’s electricity bill for April 2018 the ‘green payments’ totalled 3p/kWh. Then there are the network charges, Climate Change Levy and a collection of more obscure charges, combined we call these the non-commodity costs.
Cost of gas:
- To generate 1kWh of electricity with a modern CHP you will burn 2.5kWh of gas. At current prices (c. 2.2p/kWh delivered) that means burning 5.5p of gas.
- This depends on the size of the CHP but 1p/kWh of electricity generated is a fair starting point.
Example: A simple (pessimistic) investment model
A site with electricity demand that is at least 100kW all year, but a negligible heat demands:
- Cost of import electricity
- Perhaps 9.0p/kWh (average day/night)
- 100kW x 24 hours x 365 days = £78,840 p.a.
- Cost of electricity from CHP
- £56,940 p.a. (assumes no heat at all is used)
- Saving
- £21,900 p.a.
Value of heat:
- For every 1kWh of electricity, we also get 1.1kWh of heat
- If this would otherwise have come from a gas boiler, the gas burnt to produce it would have cost 2.4p.
Another scenario might be an electricity demand that is only 100kW during daytime hours, but has a significant heat demand.
- Cost of import electricity
- Perhaps 9.0p/kWh (average day/night)
- 100kW x 12 hours x 365 days = £39,420 p.a.
- Cost of electricity from CHP
- £17,958 p.a. (assumes all heat produced is used)
- Saving
- £21,462 p.a.
Of course the figures aren’t quite as simple as those presented above and there are plenty of twists and turns:
- The site specific energy match
- The optimum size CHP for you
- Connecting electricity generation to the grid (even if you use it all on site).
- Selecting a CHP provider
- On-going maintenance
- Setting optimum run regimes
- On-going compliance such as CHPQA.
FEC Energy
Tim Pratt
024 7669 8899
tim.pratt@fec-energy.co.uk
www.fec-energy.co.uk