editedbook
STUDY OF COOLING TOWER WITH THE APPLICATION OF HEAT PIPE ON THE ENVIRONMENT
Area/Stream: Chemical, Material Sciences & Nano Technology,
Authors: Garima Khare, Dr. Garima Sharma, Jaspreet Singh Chhabra
Keywords: Cooling Tower, Effectiveness, Efficiency, Heat Pipe
Book Name /series: Futuristic Trends in Chemical, Material Sciences & Nano Technology, Volume 2, Book 13, Part 2, Chapter 1
Publication: IIP Proceedings
Year: 2022,
Month: November
Page No: 103-114,
ISSN/ISBN: 978-93-95632-67-6,
DOI/Link: https://www.rsquarel.org/assets/docupload/rsl20232FEFFAE2B82815C.pdf
Abstract:
People's needs are growing more and more in demand today, which is why industries are so important. However, to keep up with the rising demands, businesses need a lot of energy.Which can be fulfilled by setting up a power plant but more the power plants, more the use of cooling towers, which can affect, the effectiveness and the efficiency of the power plant?As well as the environment as more the power plants more the carbon footprint which means more effect on ozone layer So, to enhance such influencing factors and to tackle the question of how to save the environment. We came up with an innovation: we are applying heat pipe in the system or cycle of a power plant. We use heat pipes between the condenser and the cooling tower to see the factors affected by innovation. The effectiveness of the cooling tower and the entire power plant can be greatly improved by the use of a heat pipe, a device that operates on the principle of thermal conductivity and exhibits a capillary action to allow hot water coming from the condenser to automatically cool down without the aid of any external source before entering the cooling tower. A fantastic gadget where the phase transition takes place is the heat pipe. Water is the working fluid most frequently utilised in heat pipes. Water absorbs heat from the source at the hot end, changes phases to become vapour, and then travels via capillary action to the cold end. The cycle then continues as the fog at the stern end rejects heat from the atmosphere and transforms back into liquid water. This liquid water then travels back to the hot end to absorb additional heat from the heated source. The heat pipe's material is often determined by the fluid, heated basis, and other factors. Typically, copper-nickel alloys are utilised as alloy materials.
Cite this: Garima Khare, Dr. Garima Sharma, Jaspreet Singh Chhabra,"STUDY OF COOLING TOWER WITH THE APPLICATION OF HEAT PIPE ON THE ENVIRONMENT", Futuristic Trends in Chemical, Material Sciences & Nano Technology, Volume 2, Book 13, Part 2, Chapter 1, November, 2022, 103-114, 978-93-95632-67-6, https://www.rsquarel.org/assets/docupload/rsl20232FEFFAE2B82815C.pdf