Heat exchanger design, Arthur P. Fraas and M. Necati Ozisik, John Wiley & Sons, Inc., New York (). pages, $ Donald Q. Kern. D. Q. Kern. Download and Read Free Online Heat Exchanger Design Arthur P. Fraas & M. Necati Ozisik. From reader reviews: Eunice Bourque: Do you have favorite book?. Trove: Find and get Australian resources. Books, images, historic newspapers, maps, archives and more.
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The web link that our company offer in this website is readily available to click and after that download this Heat Exchanger Design, By Arthur P. Refrigerators and air-conditioners , for example, use heat exchangers in the opposite way from central heating systems: they remove heat from a compartment or room where it's not wanted and pump it away in a fluid to some other place where it can be dumped out of the way.
Photo: A heat pump extracts heat from a natural geothermal hot spring, used to heat buildings at Hot Springs Lodge and Pool in Glenwood Springs, Colorado. The exchanger is the algae-covered plate full of copper tubes in the center of the water. In power plants or engines , exhaust gases often contain heat that's heading uselessly away into the open air.
That's a waste of energy and something a heat exchanger can certainly reduce though not eliminate entirely—some heat is always going to be lost. The way to solve this problem is with heat exchangers positioned inside the exhaust tail pipes or smokestacks.
As the hot exhaust gases drift upward, they brush past copper fins with water flowing through them. The water carries the heat away, back into the plant. There, it might be recycled directly, maybe warming the cold gases that feed into the engine or furnace, saving the energy that would otherwise be needed to heat them up.
Or it could be put to some other good use, for example, heating an office near the smokestack. Photo: How a shower waste-water heat exchanger works. Hot outgoing waste-water warms incoming cold water, reducing the energy you need to get the water hot and making the whole thing more efficient.
In buses, fluid used to cool down the diesel engine is often passed through a heat exchanger and the heat it reclaims is used to warm cold air from outside that is pumped up from the floor of the passenger compartment. That saves the need for having additional, wasteful electric heaters inside the bus. A car radiator is another kind of heat exchanger. Water that cools the engine flows through the radiator, which has lots of parallel, aluminum fins open to the air.
As the car drives along, cold air blowing past the radiator removes some of the heat, cooling the water and heating the air and keeping the engine working efficiently. The radiator's waste heat is used to heat the passenger compartment, just like on a bus.
If you have an energy-efficient shower, it might have a heat exchanger installed in the wastewater outlet. As the water drips past your body and down the plug, it runs through the copper coils of a heat exchanger. Meanwhile, cold water that's feeding into the shower to be heated pumps up past the same coils, not mixing with the dirty water but picking up some of its waste heat and warming slightly—so the shower doesn't need to heat it so much.
Types of heat exchangers All heat exchangers do the same job—passing heat from one fluid to another—but they work in many different ways. In shell and tube heat exchangers, one fluid flows through a set of metal tubes while the second fluid passes through a sealed shell that surrounds them.
That's the design shown in our diagram up above. The two fluids can flow in the same direction known as parallel flow , in opposite directions counterflow or counter-current , or at right angles cross flow. Boilers in steam locomotives work this way. Photo: Two types of heat exchanger. There are lots of tubes in this one and they're easy to see.
Heat exchangers used to minimize heat losses from buildings, engines, and machines are sometimes called recuperators or regenerators. Fraas in soft data forms. It will not disrupt you making heavy of you bag.
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