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DBpiaDrying process is involved in the production of various products including food, textiles, paper, pharmaceuticals, and batteries. Phase change of liquid to vapor generally requires enormous thermal energy, so in order to save energy, it is advantageou...
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RISS 인기검색어
통기밴드식 건조기의 성능 평가 실험 장치 = Lab-scale experimental setup to evaluate the performance of band driers
한글로보기https://www.riss.kr/link?id=A108368176
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2022
-
작성언어
Korean
-
주제어
Drying ; Band dryer ; Heat and mass transfer ; 건조 ; 통기밴드식 건조기 ; 열 및 물질 전달
-
등재정보
KCI등재
-
자료형태
학술저널
- 발행기관 URL
-
수록면
36-41(6쪽)
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Drying process is involved in the production of various products including food, textiles, paper, pharmaceuticals, and batteries. Phase change of liquid to vapor generally requires enormous thermal energy, so in order to save energy, it is advantageous to develop an appropriate drier and use it under appropriate operating conditions, depending on the characteristics of materials. However, due to the complex, multiscale heat and mass transfer occurring during drying processes, predictions of appropriate drying conditions before actual operation are not easily achieved, leading to challenges in designing driers. Here, we developed a lab-scale experimental setup to evaluate the performance of band dries. The experimental setup was used to measure the moisture content and temperature change in the materials being dried in a belt dryer. Experimental results obtained using our lab-scale setup allow us to predict the performance of a full-scale band drier, thus suggesting a practical framework for predicting the drying process of various materials and developing band driers.
참고문헌 (Reference) 
1 Tang, Y., "Water film coverage model and its application to the convective air-drying simulation of a wet porous medium" 131 : 999-1008, 2019
2 A. Zhu, "The model and mass transfer characteristics of convection drying of peach slices" 72 : 345-351, 2014
3 K. Abascal, "The effect of freeze‐drying and its implications for botanical medicine: a review" 19 (19): 655-660, 2005
4 Chen, Guohua, "Sludge dewatering and drying" 20 (20): 883-916, 2002
5 Sharif, M. A. R., "Numerical analysis of heat transfer due to confined slot-jet impingement on a moving plate" 29 (29): 532-540, 2009
6 Defraeye, T., "Numerical analysis of convective drying of gypsum boards" 55 (55): 2590-2600, 2012
7 Polat, S., "Heat and mass transfer in impingement drying" 11 (11): 1147-1176, 1993
8 A.S. Mujumdar, "Handbook of industrial drying" CRC press 2006
9 Akan, A. E., "Experimental examination and theoretical modeling of drying behavior in the ram machine" 38 (38): 1760-1775, 2020
10 C. Chen, "Effective moisture diffusivity and drying simulation of walnuts under hot air" 150 : 119283-, 2020
1 Tang, Y., "Water film coverage model and its application to the convective air-drying simulation of a wet porous medium" 131 : 999-1008, 2019
2 A. Zhu, "The model and mass transfer characteristics of convection drying of peach slices" 72 : 345-351, 2014
3 K. Abascal, "The effect of freeze‐drying and its implications for botanical medicine: a review" 19 (19): 655-660, 2005
4 Chen, Guohua, "Sludge dewatering and drying" 20 (20): 883-916, 2002
5 Sharif, M. A. R., "Numerical analysis of heat transfer due to confined slot-jet impingement on a moving plate" 29 (29): 532-540, 2009
6 Defraeye, T., "Numerical analysis of convective drying of gypsum boards" 55 (55): 2590-2600, 2012
7 Polat, S., "Heat and mass transfer in impingement drying" 11 (11): 1147-1176, 1993
8 A.S. Mujumdar, "Handbook of industrial drying" CRC press 2006
9 Akan, A. E., "Experimental examination and theoretical modeling of drying behavior in the ram machine" 38 (38): 1760-1775, 2020
10 C. Chen, "Effective moisture diffusivity and drying simulation of walnuts under hot air" 150 : 119283-, 2020
11 S. Stenström, "Drying of paper: A review 2000–2018" 38 (38): 825-845, 2019
12 Fagernäs, L., "Drying of biomass for second generation synfuel production" 34 (34): 1267-1277, 2010
13 K.J. Chua, "Batch drying of banana pieces—effect of stepwise change in drying air temperature on drying kinetics and product colour" 34 : 721-731, 2001
14 Jiang, Y., "A numerical study on the convective heat transfer characteristics of pulsed impingement drying" 30 (30): 1056-1061, 2012
15 Y.S. Zhang, "A Review of Lithium‐Ion Battery Electrode Drying: Mechanisms and Metrology" 12 : 2102233-, 2022
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