1 terawatt-hour per year = 114 megawatts
1 TWh/year = 114 MW
or
1.14 X 108 Watt
The unit "terawatt-hour per year" is a convoluted method of saying (what calculates to) 114 megawatts.
1 megawatt =106 watts
The year and the hour are different units of time. They are related to each other:
1 year = 8 765.81277 hours
terawatt = 1012 watts
Therefore
(1012 watts X 1/8765.8 year)/year = 1.14 X 108 Watt = 114 X 106 watts = 114 Megawatts
ten million per year
Delaware averages more inches of rainfall per year
They make a starting salary of around $125,000 per year, and can reach up to over $250,000 per year.
India, around 450 full length movies per year
About a foot per year.
Electric power plants produced 17,320 terawatt-hours (TWh) in 2005. In 2030, the world is projected to need about 33,264 TWh-nearly double the amount of 2005. (Source: 2008 EIA International Energy Outlook Report.)
Not sure about twh thousand but the scientific notation for two thousand is 2*103.
There are 1 million kilowatt hours (kWh) in one terawatt hour (tWh).
TWH
88.42 TWh
It might refer to tera-watt-hour.
Tennesee Walking Horse
Australia's total electricity consumption is approximately 250 terawatt-hours (TWh) per year, which translates to about 250 billion kilowatt-hours (kWh). This figure can vary slightly each year due to changes in demand, population, and economic activity. On average, this equates to a power usage of roughly 28,500 megawatts over the course of the year.
California's annual electricity consumption typically hovers around 300 terawatt-hours (TWh). To convert this to megawatts, we can use the formula that 1 TWh equals approximately 1,000 megawatt-hours (MWh). Thus, California's average power use is roughly 34,000 megawatts (MW) when calculated across a year, considering continuous usage. However, demand can vary significantly throughout the year, especially during peak periods.
Wikipedia :Average annual residential electricity usage by city, 2000-2005. ... yet domestic production is only 6 million barrels per day (950000 m3/d).
The output of nuclear reactors varies but if we take 1000 MWe as typical, and there are 8760 hours in a year, this gives 1000 x 8760 MegaWatthours, or 8760 GigaWatthours, or 8.760 TeraWatthours.
TWH originated from Tennessee, but now they live all over the world.