THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This...
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THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This is part of the hydrologic cycle, where water evaporates from the seas and other water bodies, the vapor is carried by air into the upper atmosphere where it forms clouds which then condense into water as rain or snow. The total water vapor in the atmosphere is so large that it can meet all of human water needs. An atmospheric water extractor is a device that extracts water from humid ambient air. Water vapor in the air is condensed by cooling the air below its dew point, exposing the air to desiccants, or pressurizing the air. Unlike a dehumidifier, an atmospheric water extractor is designed to render the water potable. Atmospheric water extractors are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. 2. Each group is required to design an atmospheric water vapor extractor for home purposes at capacity of 15-20 litres/day by using the principle used in dehumidifier of the air-conditioning system. 3. The design not only focuses on the design of water collector but also must be restricted to the refrigeration system that supports the water vapor extractor. For that purposes, students have to choose the refrigerant (from R400 or R500 series make sure the property tables are available) used as the working fluid and show the thermodynamics analysis clearly with an appropriate schematic diagram. Identity and vary some of the variables/design parameters. THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This is part of the hydrologic cycle, where water evaporates from the seas and other water bodies, the vapor is carried by air into the upper atmosphere where it forms clouds which then condense into water as rain or snow. The total water vapor in the atmosphere is so large that it can meet all of human water needs. An atmospheric water extractor is a device that extracts water from humid ambient air. Water vapor in the air is condensed by cooling the air below its dew point, exposing the air to desiccants, or pressurizing the air. Unlike a dehumidifier, an atmospheric water extractor is designed to render the water potable. Atmospheric water extractors are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. 2. Each group is required to design an atmospheric water vapor extractor for home purposes at capacity of 15-20 litres/day by using the principle used in dehumidifier of the air-conditioning system. 3. The design not only focuses on the design of water collector but also must be restricted to the refrigeration system that supports the water vapor extractor. For that purposes, students have to choose the refrigerant (from R400 or R500 series make sure the property tables are available) used as the working fluid and show the thermodynamics analysis clearly with an appropriate schematic diagram. Identity and vary some of the variables/design parameters. THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This is part of the hydrologic cycle, where water evaporates from the seas and other water bodies, the vapor is carried by air into the upper atmosphere where it forms clouds which then condense into water as rain or snow. The total water vapor in the atmosphere is so large that it can meet all of human water needs. An atmospheric water extractor is a device that extracts water from humid ambient air. Water vapor in the air is condensed by cooling the air below its dew point, exposing the air to desiccants, or pressurizing the air. Unlike a dehumidifier, an atmospheric water extractor is designed to render the water potable. Atmospheric water extractors are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. 2. Each group is required to design an atmospheric water vapor extractor for home purposes at capacity of 15-20 litres/day by using the principle used in dehumidifier of the air-conditioning system. 3. The design not only focuses on the design of water collector but also must be restricted to the refrigeration system that supports the water vapor extractor. For that purposes, students have to choose the refrigerant (from R400 or R500 series make sure the property tables are available) used as the working fluid and show the thermodynamics analysis clearly with an appropriate schematic diagram. Identity and vary some of the variables/design parameters. THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This is part of the hydrologic cycle, where water evaporates from the seas and other water bodies, the vapor is carried by air into the upper atmosphere where it forms clouds which then condense into water as rain or snow. The total water vapor in the atmosphere is so large that it can meet all of human water needs. An atmospheric water extractor is a device that extracts water from humid ambient air. Water vapor in the air is condensed by cooling the air below its dew point, exposing the air to desiccants, or pressurizing the air. Unlike a dehumidifier, an atmospheric water extractor is designed to render the water potable. Atmospheric water extractors are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. 2. Each group is required to design an atmospheric water vapor extractor for home purposes at capacity of 15-20 litres/day by using the principle used in dehumidifier of the air-conditioning system. 3. The design not only focuses on the design of water collector but also must be restricted to the refrigeration system that supports the water vapor extractor. For that purposes, students have to choose the refrigerant (from R400 or R500 series make sure the property tables are available) used as the working fluid and show the thermodynamics analysis clearly with an appropriate schematic diagram. Identity and vary some of the variables/design parameters. THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This is part of the hydrologic cycle, where water evaporates from the seas and other water bodies, the vapor is carried by air into the upper atmosphere where it forms clouds which then condense into water as rain or snow. The total water vapor in the atmosphere is so large that it can meet all of human water needs. An atmospheric water extractor is a device that extracts water from humid ambient air. Water vapor in the air is condensed by cooling the air below its dew point, exposing the air to desiccants, or pressurizing the air. Unlike a dehumidifier, an atmospheric water extractor is designed to render the water potable. Atmospheric water extractors are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. 2. Each group is required to design an atmospheric water vapor extractor for home purposes at capacity of 15-20 litres/day by using the principle used in dehumidifier of the air-conditioning system. 3. The design not only focuses on the design of water collector but also must be restricted to the refrigeration system that supports the water vapor extractor. For that purposes, students have to choose the refrigerant (from R400 or R500 series make sure the property tables are available) used as the working fluid and show the thermodynamics analysis clearly with an appropriate schematic diagram. Identity and vary some of the variables/design parameters. THE ATMOSPHERIC WATER VAPOR EXTRACTOR/HARVESTOR/COLLECTOR The atmospheric air always has water vapor present in it. This is part of the hydrologic cycle, where water evaporates from the seas and other water bodies, the vapor is carried by air into the upper atmosphere where it forms clouds which then condense into water as rain or snow. The total water vapor in the atmosphere is so large that it can meet all of human water needs. An atmospheric water extractor is a device that extracts water from humid ambient air. Water vapor in the air is condensed by cooling the air below its dew point, exposing the air to desiccants, or pressurizing the air. Unlike a dehumidifier, an atmospheric water extractor is designed to render the water potable. Atmospheric water extractors are useful where pure drinking water is difficult or impossible to obtain, because there is almost always a small amount of water in the air that can be extracted. The rate of water production depends on the ambient temperature, humidity, the volume of air passing over the coil, and the machine's capacity to cool the coil. These systems reduce air temperature, which in turn reduces the air's capacity to carry water vapor. 2. Each group is required to design an atmospheric water vapor extractor for home purposes at capacity of 15-20 litres/day by using the principle used in dehumidifier of the air-conditioning system. 3. The design not only focuses on the design of water collector but also must be restricted to the refrigeration system that supports the water vapor extractor. For that purposes, students have to choose the refrigerant (from R400 or R500 series make sure the property tables are available) used as the working fluid and show the thermodynamics analysis clearly with an appropriate schematic diagram. Identity and vary some of the variables/design parameters.
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1 An atmospheric water extractor is a device that extracts water from humid ambient air Water vapor in the air is condensed by cooling the air below its dew point exposing the air to desiccants or pre... View the full answer
Related Book For
Thermodynamics An Engineering Approach
ISBN: 978-0073398174
8th edition
Authors: Yunus A. Cengel, Michael A. Boles
Posted Date:
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