/ Center Introduction
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/ Center Introduction
/ Organization
/ Center Introduction
/ Organization
/ Center Introduction
/ Organization
/ Center Introduction
/ Organization
/ Center Introduction
/ Organization
Items
Water soaks into a water energy system with 5 energies
Energy saving
Comply with nature, absorb energy during the day, emit energy at night, and increase the efficiency of energy conversion by 20%
Energy transfer
The energy (cold/heat) demand in the building is automatically converted and balanced, with the lowest energy consumption for conversion, and the energy saving benefit reaches 20%-40%
Production capacity
Carry out water gravity production capacity and air buoyancy production capacity in the water energy reservoir
Chuangneng
Using water energy reservoirs, water electrolysis produces hydrogen and oxygen, creating different types of energy
Energy storage
Utilize water energy reservoirs, different levels of water energy storage
Technical Architecture of Water Energy Conversion System
Introduction of water energy conversion system
Introduction of closed water energy reservoir
The closed water energy reservoir can be classified and graded according to the actual use, and it can also provide stable water supply during droughts, and store rainwater during extreme rainstorms to effectively prevent flood disasters.
1. Use: reclaimed water / temperature range: normal temperature
2. Application: domestic water / temperature range: cold water (10~20℃), hot water (40~45℃)
3. Application: drinking water / temperature range: cold water (10~20℃), hot water (70~100℃)
4. Application: Air-conditioning water / Temperature range: ice water (0~10℃), hot water (40~55℃), cooling water (20~45 ℃)
Differences between closed water energy reservoirs and general reservoirs
Specific Contributions of Water to Energy Conversion Systems
Water to Energy Conversion System - Flood and Disaster Prevention Assessment
Take Greater Taichung City as an example
Total area: 2215 km2
Total population: about 3.5 million people
Total number of buildings: about 500,000
Disaster description:
2016/4/11, at 2:30 pm, it rained continuously for 2 hours, with a cumulative rainfall of 65 mm, causing flooding in many areas.
Statistics of total rainfall:
2215 km2 X 1000000 = 2215000000 m2
2215000000 m2 X 65 mm = 143.97 million tons of water
For example, the construction level of each building is calculated as 100 m2, and the depth of the raft foundation is calculated as 3 m.
Water storage capacity: 300 tons of water/building
500,000 buildings X 300 tons of water/building = 150 million tons of water
Rapidly falling rainwater can be stored in the raft foundation of buildings to prevent floods; during drought, the water stored in the raft foundation can be used for domestic water.