Difference between revisions of "Gas units"
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Use the following conversion factors to work out what you need from what information you have: | Use the following conversion factors to work out what you need from what information you have: | ||
| − | {| | + | {| cellspacing="0" cellpadding="6" border="1" |
|- | |- | ||
| − | ! Task | + | !Task |
| − | ! Conversion factor | + | !Conversion factor |
|- | |- | ||
| − | | 100 CU feet (1 unit) to cubic metres | + | |100 CU feet (1 unit) to cubic metres||Multiply by 2.83 |
|- | |- | ||
| − | | 100 CU feet (1 unit) to kWh | + | |100 CU feet (1 unit) to kWh||Multiply by 32.15 |
|- | |- | ||
| − | | Cubic metres to 100s cubic feet | + | |Cubic metres to 100s cubic feet||Divide by 2.83 |
|- | |- | ||
| − | | Convert from m³ to kWh | + | |Convert from m³ to kWh||Multiply by 11.36 |
|- | |- | ||
| − | | Convert from a rate of consumption in kW, to cubic metres per hour || Multiply by 0.09 (approx) | + | |Convert from a rate of consumption in kW, to cubic metres per hour||Multiply by 0.09 (approx) |
|- | |- | ||
| − | | Convert 1000 BTU/h into kWh | + | |Convert 1000 BTU/h into kWh||Multiply by 0.293 |
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So in kWh = 113.2 x 11.36 = 1,286 kWh | So in kWh = 113.2 x 11.36 = 1,286 kWh | ||
| − | You new boiler can produce a maximum | + | You new boiler can produce a maximum input power of 24kW. How much is that in cubic meters of gas per hour? |
24 x 0.09 = 2.16 m³ | 24 x 0.09 = 2.16 m³ | ||
| + | |||
| + | (Note that if the boiler specification states the '''output''' power rather than the '''input''' power, you will likely need to add 10% to 20% to the power stated before conversion to arrive at the actual gas rate to allow for inefficiency in the boiler) | ||
[[Category:Gas]] | [[Category:Gas]] | ||
[[Category:Heating]] | [[Category:Heating]] | ||
Revision as of 09:18, 7 October 2020
Introduction
This article shows ho to convert between the various ways of measure natural gas volume and energy content.
Typically gas meters record usage in cubic metres or hundreds of cubic feet (and its worth checking yours matches the units your gas supplier is billing you in!)
Basic data
The energy density of natural gas is typically in the range of 37.5 to 43 MJ/m³
1 kW equates to 3.6MJ / hour
Converting
Use the following conversion factors to work out what you need from what information you have:
| Task | Conversion factor |
|---|---|
| 100 CU feet (1 unit) to cubic metres | Multiply by 2.83 |
| 100 CU feet (1 unit) to kWh | Multiply by 32.15 |
| Cubic metres to 100s cubic feet | Divide by 2.83 |
| Convert from m³ to kWh | Multiply by 11.36 |
| Convert from a rate of consumption in kW, to cubic metres per hour | Multiply by 0.09 (approx) |
| Convert 1000 BTU/h into kWh | Multiply by 0.293 |
Examples
You have used 40 units on your imperial gas meter. What is that in kWh? Convert 100s of cubic feet to m³: 40 x 2.83 = 113.2m³ So in kWh = 113.2 x 11.36 = 1,286 kWh
You new boiler can produce a maximum input power of 24kW. How much is that in cubic meters of gas per hour? 24 x 0.09 = 2.16 m³
(Note that if the boiler specification states the output power rather than the input power, you will likely need to add 10% to 20% to the power stated before conversion to arrive at the actual gas rate to allow for inefficiency in the boiler)