CONVECTIVE HEAT TRANSFER COEFFICIENT OF CROWN OF <i>ZELKOVA SERRATA</i>-Reference-Cited by-同舟云学术

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CONVECTIVE HEAT TRANSFER COEFFICIENT OF CROWN OF ZELKOVA SERRATA

Published:2016 Issue:720 Volume:81 Page:235-245
ISSN:1348-0685
Container-title:Journal of Environmental Engineering (Transactions of AIJ)
language:en
Short-container-title:Nihon Kenchiku Gakkai Kankyokei Ronbunshu

Author:

ASAWA Takashi¹,FUJIWARA Kunihiko²,HOYANO Akira³,SHIMIZU Katsuya⁴

Affiliation:

1. Assoc. Prof., Tokyo Institute of Technology, Dr.Eng.

2. Takenaka Research & Development Institute, M.Eng.

3. Prof., The Open University of Japan, Dr.Eng.

4. TOYOTA Motor Corporation, Biotechnology & Afforestation Division

Publisher

Architectural Institute of Japan

Subject

Environmental Engineering

Link

https://www.jstage.jst.go.jp/article/aije/81/720/81_235/_pdf

Reference36 articles.

1. 1) DeRocher, T. R., Walker, R. F., Tausch, R. J. : Estimating whole-tree transpiration of Pinus monophylla using a steady-state porometer, J. Sustainable For, 3(1), pp. 85-99, 1995

2. 2) Köstner, B., Granier, A., Germák, J. : Sapflow measurement in forest stands : methods and uncertainties, Ann. Sci. For., 55, pp. 13-27, 1998

3. 7) Defraeye, T., Verboven, P., Ho, Q. T., Nicolai, B. : Convective heat and mass exchange predictions at leaf surfaces: Applications, methods and perspectives, Comput. Electron. Agric., 96, pp. 180-201, 2013

4. 9) Balding, F. R., Cunningham, G. L. : A comparison of heat transfer characteristics of simple and pinnate leaf models, Bot. Gaz., 137, pp. 65-74, 1976

5. 10) Schuepp, P. H. : Heat and moisture transfer from flat surfaces in intermittent flow: a laboratory study, Agric. Meteorol., 22(2-4), pp. 351-366, 1980

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