1 kilowatt hour of electricity = 1 kilowatt hour (kW·h) = 3.6×10^6 Joules (J) = 860.04 kcal It takes 1 kcal to increase the temperature of one liter of water of 1 degree. .
1 ton of water = 1000 liters If your water is 25℃, add it to 100℃ and it will rise to 75 degrees. Or: 1000x75=75000 kcal.
75000/860.04=87.2 kWh.
Electricity consumption refers to the amount of active electrical energy consumed by electricity consumers, with kWh (kilowatt hour) as unit of measurement. This is the accumulated amount of active power multiplied by time and is commonly measured by electrical energy meters. According to different objects of electricity consumption, it can be divided into electricity consumption of single electrical equipment, electricity consumption of product production and electricity consumption of enterprises (workshops, processes, processes) (including including consumptionn electricity in the process of transmission and internal power transformation).
Electricity consumption of industry, etc. Electricity consumption is mainly used for energy consumption statistics, trade settlement and evaluation of energy consumption of equipment and products. Electricity consumption is a very important characteristic quantity in the process of electricity consumption and an important indicator of energy consumption.
Reference for the above content: Baidu Encyclopedia - Electricity Consumption
What can a ton of water be used for?
11.63 kWh. The heat required to raise a ton of water one degree is 4.1868×10(7) joules. The energy of one degree of electricity is 1 kilowatt hour, or 3599712 joules when converted to joules. If electrical energy is converted into thermal energy without any loss, the quantityof electricity required is 11.63 kWh.
1 ton of water is equivalent to 1000 liters
One liter of water can pour five cups of water. 2. You can wash a car. 3. Can water 6 flower pots. 4. Enough for a person in the disaster area to drink for 2 days. 5. Can take 3 baths. 6. Can wash clothes for 3 days. 7. Clean the floor for 6 days
How much electricity is produced? Do you know that hydropower generation is related to many factors, such as water volume, water level difference, etc.
I will give you a formula and calculate it for you -same.
If the total height of the fall is H meters, the flow rate is Q cubic meters of water per second and the power is expressed in units. of watts (kW), the power produced by the water is P = 9.8ηQH (kW), eta in the formula is the overall efficiency. Let's take an example: there is a power plant with a total height100 meters and a flow rate of 10 cubic meters per second. The theoretical output power it can produce is: P = 0.8×0.9×10×100= 8,820 (. kW)