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Attempted use of absorption chillers in waste heat applications have been failures.
Now, efficient energy conservation can be achieved by utilizing waste heat to drive an Adsorption Chiller, which can replace an absorption chiller. Waste heat from cogeneration systems (diesel engine, gas engine, gas turbine, or fuel cell) achieves tri-generation. Using the waste heat from various processes including: food (poultry, dairy products, juice, and breweries), chemical, plastic, rubber, paper and cement can enhance the heat balance of the process. Another source of waste heat are steam boilers, that are used year round in such applications as hospitals and hotels, which can use their waste heat in the summer to cool their facilities. Additionally, the Adsorption Chiller also can tap in to natures own waste heat such as geothermal and even, the ever varying, solar heat.
The Adsorption Chiller is highly reliable and safe with low operating cost due its simplicity of operation. The Adsorption Chiller does not contain any Li-Br or other chemical refrigerant which means no crystallization, no corrosion no chemical testing or hazardous leaks. The Adsorption Chiller also does not have any high voltage motors or large compressors. The control system is self contained and trouble-free. No external temperature control valves are required to protect the chiller or for capacity control.
The Adsorption Chiller contains only water as a refrigerant and a proprietary, permanent silica gel (lasts 30 years) as an adsorbent. The evaporator section cools the chilled water by the refrigerant (water) being evaporated by adsorption of the silica gel in one of two adsorbent chambers. It can produce chilled water temperatures of less than 38°F with hot water temperatures ranging from 194°F to as low as 122°F. The hot water regenerates the silica gel in the second of the two adsorbent chambers. The water vapor released from the silica gel by the hot water will be condensed in the condenser section which is cooled by a cooling water, such as, from a cooling tower.
Global Warming could lead paradoxically a catastrophic ice age like 130,000 years ago. The difference between then and now is that we have now the Great Ocean Conveyor Belt that is sending warmth to Greenland area. There the warm sea water forms ice, while the cold and salt rich dense portion descends to the sea bottom, which forms a current passing below South Africa, where it splits into two streams. One stream reaches the Indian Ocean and the other going on, by the way of Australia, to the deepest point in Pacific Ocean off Japan for 2000 years, (scientist are now gathering the water from this point that was in Greenland 2000 years ago). From there the current is heated to ascend to the surface and eventually flowing to back to the Greenland area, thus working as a huge air conditioning duct. The Global Warming heats the sea and making a lot of water vapor, which forms an increased amount of rain, as you know we had a lot of floods all of the world. This excess rain from the land could dilute the salty sea water around Greenland and reduce the salt rich dense portion, which descends to the bottom. The Great Ocean Conveyor Belt would stop and shut down the huge air conditioning duct. The polar area will become colder and colder until freezing to a new ice age. We must stop wasting the fuel and making CO2, which increases the Global Warming for our descendants.
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