TY - GEN
T1 - Peformance cycle analysis of optimum two-bed adsorption chiller
AU - Budiman, Dylan
AU - Rachmat, Asep
AU - Nasruddin,
N1 - Publisher Copyright:
© 2019 Author(s).
PY - 2019/1/25
Y1 - 2019/1/25
N2 - Occording to US Department of Energy, up to 39% of the world's energy reserve is consumed by buildings and up to 52% is contributed by the use of HVAC system. An adsorption system that use physical adsorbent such as silica gel and zeolite with water pairing is used to produce cooling making vapor compression system no longer be used. It will no longer need refrigerants so it will be more energy efficient and environmentally friendly. There are some drawbacks in using adsorption system such as low COP which needs more optimization to make it perform better. The adsorption chiller will be able to produce a higher cooling power at a higher hot water inlet. Using the genetic algorithm optimization technique, it is found that the best control mechanism for this system is 781, 34, and 34 seconds for adsorption, mass recovery, and heat recovery time respectively.
AB - Occording to US Department of Energy, up to 39% of the world's energy reserve is consumed by buildings and up to 52% is contributed by the use of HVAC system. An adsorption system that use physical adsorbent such as silica gel and zeolite with water pairing is used to produce cooling making vapor compression system no longer be used. It will no longer need refrigerants so it will be more energy efficient and environmentally friendly. There are some drawbacks in using adsorption system such as low COP which needs more optimization to make it perform better. The adsorption chiller will be able to produce a higher cooling power at a higher hot water inlet. Using the genetic algorithm optimization technique, it is found that the best control mechanism for this system is 781, 34, and 34 seconds for adsorption, mass recovery, and heat recovery time respectively.
UR - http://www.scopus.com/inward/record.url?scp=85061160374&partnerID=8YFLogxK
U2 - 10.1063/1.5086552
DO - 10.1063/1.5086552
M3 - Conference contribution
AN - SCOPUS:85061160374
T3 - AIP Conference Proceedings
BT - 10th International Meeting of Advances in Thermofluids, IMAT 2018 - Smart City
A2 - Yatim, Ardiyansyah
A2 - Nasruddin, null
A2 - Budiyanto, Muhammad Arif
A2 - Aisyah, Nyayu
A2 - Alhamid, Muhamad Idrus
PB - American Institute of Physics Inc.
T2 - 10th International Meeting of Advances in Thermofluids - Smart City: Advances in Thermofluid Technology in Tropical Urban Development, IMAT 2018
Y2 - 16 November 2018 through 17 November 2018
ER -