1 |
Hwang, W.-B., Kim, Y.-C., Lee, D.-Y. (2012). A Study on the Performance Evaluation of a Hybrid Desiccant Cooling System. Korean Journal of Air-Conditioning and Refrigeration Engineering, 24(2), 121-128.
DOI
|
2 |
Moon, H.-K., Han, M.-Y. (2016). Development of Low Temperature Regenerative Polymeric Desiccant Rotor. Magazine of the SAREK, 45(6), 36-45.
|
3 |
Rincon-Casado, A., Martinez, A., Araiz, M., Pavon-Dominguez, P., Astrain, D. (2018). An experimental and computational approach to thermoelectric-based conditioned mattress. Applied Thermal Engineering, 135, 472-482.
DOI
|
4 |
Vian, J. G., Astrain, D., Dominguez, M. (2002). Numerical modelling and a design of a thermoelectric dehumidifier. Applied Thermal Engineering, 22, 407-422.
DOI
|
5 |
Yao, Y., Sun, Y., Sun, D., Sang, C., Sun, M., Shen, L., Chen, H. (2017). Optimization design and experimental study of thermoelectric dehumidifier. Applied Thermal Engineering, 123, 820-829.
DOI
|
6 |
Yoo, S.-Y., Hong, C.-P., Shim W.-S. (2004). A Study on the Performance of Thermoelectric Module and Thermoelectric Cooling System. Korean Journal of Air-Conditioning and Refrigeration Engineering, 16(1), 62-70.
|
7 |
Zhao, D., Lu, X., Fan, T., Wu, Y.S., Lou, L., Wang, Q., Fan, J., Yang, R. (2018). Personal thermal management using portable thermoelectrics for potential building energy saving, Applied Energy, 218, 282-291.
DOI
|
8 |
Kim, H.-J., Cho, S.-H., Jeong, J.-W. (2015). Applicability Analysis of Thermoelectric Cooling System in Dedicated Outdoor Air System. Conference Proceeding of the KIAEBS, 121-122.
|