Estimation of dehumidifying performance of solid polymer electrolytic dehumidifier for practical application
A two-layer model for a solid polymer electrolytic (SPE) dehumidifier is applied to a system in which the chamber to be dehumidified has some leakage area. By introducing this area, the attainable humidity in the chamber, which is the steady-state humidity to be attained after a long-time dehumidifi...
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| Published in | Journal of applied electrochemistry Vol. 40; no. 12; pp. 2153 - 2160 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.12.2010
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| Abstract | A two-layer model for a solid polymer electrolytic (SPE) dehumidifier is applied to a system in which the chamber to be dehumidified has some leakage area. By introducing this area, the attainable humidity in the chamber, which is the steady-state humidity to be attained after a long-time dehumidification, can be defined. Experimental results of dehumidification by an SPE dehumidifier are compared to the calculations based on the two-layer model for the SPE dehumidifier, which was presented in our previous paper. Equations for the two-layer model are simplified by making use of assumptions for the current characteristics and a constant environmental condition, and it is reduced to equations including a differential equation on the time variation of the humidity in the chamber. The differential equation to describe the attainable humidity in the chamber and time constant for the dehumidification is obtained. The current flowing in the dehumidifier under steady state conditions is also given as a function of the humidities in the spaces facing the anode and the cathode. A diagram to estimate the attainable humidity and the time required for dehumidification from the dehumidifying area and leakage area is also given. |
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| AbstractList | A two-layer model for a solid polymer electrolytic (SPE) dehumidifier is applied to a system in which the chamber to be dehumidified has some leakage area. By introducing this area, the attainable humidity in the chamber, which is the steady-state humidity to be attained after a long-time dehumidification, can be defined. Experimental results of dehumidification by an SPE dehumidifier are compared to the calculations based on the two-layer model for the SPE dehumidifier, which was presented in our previous paper. Equations for the two-layer model are simplified by making use of assumptions for the current characteristics and a constant environmental condition, and it is reduced to equations including a differential equation on the time variation of the humidity in the chamber. The differential equation to describe the attainable humidity in the chamber and time constant for the dehumidification is obtained. The current flowing in the dehumidifier under steady state conditions is also given as a function of the humidities in the spaces facing the anode and the cathode. A diagram to estimate the attainable humidity and the time required for dehumidification from the dehumidifying area and leakage area is also given. |
| Author | Takai, Osamu Yamauchi, Shiro Sakuma, Shuichi |
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| Keywords | Solid polymer electrolytic membrane Steady-state current characteristics Physical model Dehumidifier |
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| References | Society of Polymer Science Japan (1972) Polymer and humidity, 242 AnantaramanAVGardnerCLJ Electroanal Chem199641411510.1016/0022-0728(96)04690-6 HinatsuJTMizuharaMTakenakaHJ Electrochem Soc1994141614931:CAS:528:DyaK2cXmtVOitLc%3D10.1149/1.2054951 ZawodzinskiTADerouinCRadzinskiSShermanRJSmithVTSpringerTEGottesfeldSJ Electrochem Soc1993140410411:CAS:528:DyaK3sXis1Wmu7c%3D10.1149/1.2056194 SakumaSYamauchiSTakaiOJ Appl Electrochem2009398151:CAS:528:DC%2BD1MXlsF2mt7o%3D10.1007/s10800-008-9727-8 SpringerTEZawodzinskiTAGottesfeldSJ Electrochem Soc1991138823341:CAS:528:DyaK3MXls1ejs7o%3D10.1149/1.2085971 YamauchiSSakumaSNakataniHMitsudaKTrans IEE Jpn2000120-A5607 TA Zawodzinski (197_CR1) 1993; 140 S Sakuma (197_CR5) 2009; 39 197_CR7 JT Hinatsu (197_CR6) 1994; 141 AV Anantaraman (197_CR2) 1996; 414 TE Springer (197_CR3) 1991; 138 S Yamauchi (197_CR4) 2000; 120-A |
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| SubjectTerms | Chambers Chemistry Chemistry and Materials Science Dehumidification Differential equations Electrochemistry Estimates Humidity Industrial Chemistry/Chemical Engineering Leakage Mathematical analysis Mathematical models Original Paper Physical Chemistry Steady state |
| Title | Estimation of dehumidifying performance of solid polymer electrolytic dehumidifier for practical application |
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