Megajoule to Therm (EC)
MJ
thm-ec
Conversion History
| Conversion | Reuse | Delete |
|---|---|---|
| No conversion history to show. | ||
Quick Reference Table (Megajoule to Therm (EC))
| Megajoule (MJ) | Therm (EC) (thm-ec) |
|---|---|
| 1 | 0.0094781698791343777 |
| 3.6 | 0.03412141156488375972 |
| 34.2 | 0.32415340986639571738 |
| 100 | 0.94781698791343777013 |
| 288 | 2.72971292519070077797 |
| 1,000 | 9.47816987913437770128 |
About Megajoule (MJ)
A megajoule (MJ) equals one million joules and is used in energy economics, vehicle fuel consumption comparisons, and industrial processes. Natural gas supply contracts and household gas meters often express energy in megajoules. The kinetic energy of a passenger car traveling at motorway speed is on the order of one megajoule. Electric vehicle battery capacities are sometimes expressed in megajoules to allow direct comparison with fossil fuel equivalents.
A 1-liter bottle of petrol contains about 34.2 MJ of chemical energy. A car traveling at 100 km/h has roughly 0.5 MJ of kinetic energy.
About Therm (EC) (thm-ec)
The therm (EC) is an energy unit defined by the European Community as exactly 105,505,600 joules (approximately 100,000 BTU). It is used for natural gas billing and trading in European energy markets. Gas meters in the UK traditionally measured in cubic feet or therms before metrication moved billing to kWh. One therm (EC) equals 29.3 kWh and is roughly the energy content of about 100 cubic feet of natural gas.
A UK gas bill covering heating and hot water might show 500–800 therms of consumption per year for an average home. One therm heats roughly 300 liters of water from cold to hot.
Megajoule – Frequently Asked Questions
How many megajoules of energy are in a liter of petrol?
About 34.2 MJ per liter (roughly 131 MJ per US gallon). Diesel is slightly higher at ~38.6 MJ/L. This energy density is why fossil fuels remain hard to replace — a Tesla Model 3 battery weighing 480 kg stores about 216 MJ, while 6 liters of petrol (roughly 4.5 kg) store the same energy content.
Why do natural gas bills sometimes show megajoules?
Natural gas is sold by energy content rather than volume because the heating value per cubic meter varies with gas composition. In Australia, billing is in MJ; in the UK and US, it is in therms or kWh. One cubic meter of pipeline-quality natural gas holds about 38–39 MJ. Using megajoules lets suppliers and customers compare across different gas sources fairly.
How much kinetic energy does a car have at highway speed in megajoules?
A 1,500 kg car at 110 km/h (about 30.6 m/s) carries ½ × 1500 × 30.6² ≈ 0.70 MJ of kinetic energy. Double the speed and the energy quadruples to 2.8 MJ. This is why highway crashes are so much more destructive than city collisions — and why braking distance scales with the square of speed.
What is the megajoule equivalent of a kilowatt-hour?
One kilowatt-hour equals exactly 3.6 megajoules (1,000 W × 3,600 s = 3,600,000 J). This conversion pops up constantly in energy-sector work: a power plant producing 1,000 MWh per day delivers 3,600,000 MJ. The 3.6 factor is worth memorising for anyone comparing electrical and thermal energy.
How many megajoules does the average house use per day?
A typical US home uses about 30 kWh/day of electricity (108 MJ) plus another 100–200 MJ of natural gas for heating and hot water — so roughly 200–300 MJ total. A well-insulated European passive house might get by on 50–70 MJ/day. Solar panels on a rooftop generate about 15–25 MJ per panel per day depending on location.
Therm (EC) – Frequently Asked Questions
What is the difference between the EC therm and the US therm?
The EC therm is defined as exactly 105,505,600 joules; the US therm is 105,480,400 joules — a difference of 25,200 J (about 0.024%). The discrepancy arose from slightly different historical BTU definitions. For residential gas billing the difference is negligible, but in large-scale energy trading involving millions of therms, the distinction can affect settlement amounts.
Why did the UK switch from therms to kilowatt-hours for gas billing?
The UK Gas Act 1995 mandated a switch from therms to kWh as part of broader metrication. One therm (EC) equals 29.3071 kWh. The change aligned gas billing with electricity billing, making it easier for consumers to compare energy costs. Older UK customers and industry veterans still refer to therms colloquially, and wholesale gas markets continued using therms for years after the retail switch.
How many therms does a UK household use per year?
A typical UK home uses 500–800 therms (EC) per year for heating and hot water, equivalent to roughly 14,700–23,400 kWh. Well-insulated newer homes may use under 400 therms, while large Victorian houses with poor insulation can exceed 1,200 therms. Ofgem's energy price cap is set in pence per kWh, but converting back to therms gives about £2.50–£3.50 per therm at recent rates.
How does the EC therm relate to cubic meters of natural gas?
One cubic meter of UK pipeline-quality natural gas contains roughly 38.5–39.5 MJ, which is about 0.365–0.374 therms (EC). Gas meters measure volume in cubic meters, and the utility applies a calorific value correction to convert to kWh (or therms). The correction factor varies by region and season because gas composition changes depending on the source field.
Is the therm still used in European energy markets?
The therm (EC) was once the standard trading unit on the UK's NBP (National Balancing Point) gas market. In 2020, the ICE exchange switched NBP contracts from pence per therm to pence per kWh. Continental European hubs like TTF have always traded in euros per MWh. The therm is fading from professional use but remains in legacy contracts and older billing systems.