MU is Amount of Energy uswed while Watts is amount of power delivered.
1 U = 1KW HR that is 1 unit is amount of power consumed by 1 KW Bulb when on for 1 Hr.
1MU= 1MKWhr=1BWHr
MW stands for megawatt. MWe means megawatts of electrical output when referring to a power plant.
1000
1 MW is 1000 kilowatts, so in 1 Hour it will sell 1000 units (taking a unit as 1 kilowatt hour)
There are two concerns here regarding loading on transformers of this size. First is the difference between MVA and MW. MW is just real power -- watts. MVA is total power which includes real power (MW) and reactive power (MVAR).--- http://en.allexperts.com/q/Electric-Power-Utilities-2405/operation-limit-oof-power.htm
The term, 'electricity', is a generic, all-encompassing term for a branch of science. Electricity, therefore, isn't a quantity, so it cannot be measured.A megawatt is an unit of measurement for power, the rate of transfer of energy.
The units mw and mW are the same. They mean milliwatts. The terms Mw and MW, however, means megawats, which is a billion (1x109) times greater than a mw or a mW.Another AnswerThe correct symbol for a watt is an upper-case 'W'. So the correct symbol for a milliwatt is 'mW' (not 'mw'), and the correct symbol for a megawatt is 'MW' (not 'Mw').
MWe and MWt are units for measuring the output of a power plant. MWe means megawatts of electrical output, and MWt means megawatts of thermal output. For example, a nuclear power plant might use a fission reactor to generate heat (thermal output) which creates steam to drive a turbine to generate electricity (electrical output). A reactor that generates 200 MWt (50 MWe), and another reactor that generates 800 MWt (200 MWe).
As of 2007, worldwide there were 439 operational nuclear reactors with total capacity of 372,002 MW; making the average output 846 MW. However, the average new reactor can be expected to be larger. The reactors so far built in the US range up to about 1100 MWe electrical output, but new ones up to about 1500 MWe are planned
For an electrical output of say 1000 MWe, the reactor output will be about 3000 MW thermal.
* Electricity - total installed capacity: 19,505 MW(2007) * Electricity - Sources (2007) ** fossil fuel - 12,580 MW - 65% of total ** hydro - 6,463 MW - 33% of total ** nuclear - 462 MW - 2% of total But currently(2008-09) government is producing only 12-14000 MW.
MWh is a unit of energy whereas, MW is a unit of power. Energy and power are two words often confusingly interchanged. Energy is the amount of work done, whereas power is the rate of doing work. One MWh (Mega Watt Hour) is a million watts of power applied over the period of an hour. One MW (Mega Watt) is a million watts. 1 Watt is 1 Joule per second. To convert MWh to MW, you should divide MWh by the time applied in hours. MWh = MW * Hours, and respectively MW = MWh / Hours E.g. Some electrical equipment used 84 MWh is the total energy measured by a electricity meter over 12 hours operation. What is the power rating of the equipment in MW? 84 MWh / 12 hours = 7 MW
1000
A megawatt ('MW', not 'Mw') is used to measure power, which is the rate at which you use energy.A megawatt hour ('MW.h', not 'mwh') is used to measure energy, and is defined as 'the amount of energy consumed, per hour, at a rate of one megawatt'.
mw (mega watt) is one million watt and that is a unit of electricity, whereaskwh(kilowatt hour) is rate of consumption of one thousand watt of electricity for one hour.AnswerFirst of all, let's get our symbols correct. There are nounits having the symbols: 'mw' or 'kwh'! Presumably, you are either trying to express a 'milliwatt' (mW) or a 'megawatt' (MW), and a kilowatt hour (kW.h)?You cannot convert either milliwatts or megawatts into kilowatt hours, as they measure completely different quantities!The milliwatt and the megawatt both measure power(not 'electricity'!). The kilowatt measures energy(which is not a 'rate of consumption'!).
100 MW
2,000 MW
an all nighter
Currently, Iraq's power generation output averages less than 6,000 MW, while the demand is typically more than 10,000 MW.[1] For 2006, the average peak electricity supply was 4,280 MW exceeding demand averaged 8,180 MW by about 3,950 MW. According to U.S. agency officials, demand for electricity has been stimulated by a growing economy and a surge in consumer purchases of appliances and electronics. In addition, electricity is subsidized in Iraq, which leads to increased demand. If the Ministry of Electricity's master plan for 2006 to 2015 to rehabilitate and expand the national grid is implemented, the ministry estimates that Iraq will be able to meet its projected demand for electricity in 2009 [2] http://en.wikipedia.org/wiki/Electricity_in_Iraq