1 ton of water is equivalent to 1,000 liters of water.
One liter of water can: 1. Pour five cups of water. 2. You can wash a car. 3. Can water 6 flower pots. 4. Enough for a person living in the disaster area to drink for 2 days. 5. You can wash your hair once. 6. Can wash 1 item of clothing. 7. Clean 30 square meters of floor... This is a household task that a liter of water can accomplish, but what about 1,000 liters of water (1 ton)? Multiply the above activities by 1000 times, okay~ To put it simply:
It can be used by a family of three for two months (the ultimate ultra-water-saving low-carbon family) or 3 days (At present, urban households include bathing, cooking, washing, washing, flushing, etc.).
For mainland China, the unnecessary use of one ton of water can generate 100 kilowatt hours of electricity (potent hydroelectric poweriel), 2,500 kilowatt hours of electricity (steam thermal energy, but heat loss must be excluded). ), and can melt 40 kilograms of steel (steel water), produce 500 kg of fertilizer (petrochemical water), weave 200 meters of fabric (textile water), produce 3,000 pencils, produce 200 kg of cement, produce 250 kg of edible oil, produce 2,000 kg of oil, produce 11 televisions, produce 100 kg of paper, produce 2,000 pieces of red bricks can make 80 sets of school uniforms (all water used in manufacturing)... too many to mention, so let me give you a formula to calculate it yourself:
< p>If the height of the total 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 delivered by the water is P = 9.8 ηQH (kW), where η 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)