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2023 Vol.32, Issue 1 Preview Page

Original Articles

31 January 2023. pp. 48-56
Ahamed M.S., H. Guo, and K. Tanino 2019, Energy saving techniques for reducing the heating cost of conventional greenhouses. Biosyst Eng 178:9-33. doi:10.1016/j.biosystemseng.2018.10.017 10.1016/j.biosystemseng.2018.10.017
Ali S.D., H.S. Ramaswamy, and G.B. Awuah 2002, Thermo‐physical properties of selected vegetables as influenced by temperature and moisture content. J Food Process Eng 25:417-433. doi:10.1111/j.1745-4530.2002.tb00575.x 10.1111/j.1745-4530.2002.tb00575.x
Ballester C., M.A. Jiménez-Bello, J.R. Castel, and D.S. Intrigliolo 2013, Usefulness of thermography for plant water stress detection in citrus and persimmon trees. Agric For Meteorol 168:120-129. doi:10.1016/j.agrformet.2012.08.005 10.1016/j.agrformet.2012.08.005
Brault D., C. Gueymard, R. Boily, and A. Gosselin 1989, Contribution of HPS lighting to the heating requirements of a greenhouse. Paper - Amer Soc Agr Eng (USA) 89.
Buyel J.F., H.M. Gruchow, N. Tödter, and M. Wehner 2016, Determination of the thermal properties of leaves by non-invasive contact free laser probing. J Biotechnol 217:100-108. doi:10.1016/j.jbiotec.2015.11.008 10.1016/j.jbiotec.2015.11.00826608794
Cathey H.M., and L.E. Campbell 1980, Light and lighting systems for horticultural plants. Hortic Rev 2:491-537. 10.1002/9781118060759.ch10
Choi H.Y., T.W. Moon, D.H. Jung, and J.E. Son 2019, Prediction of air temperature and relative humidity in greenhouse via a multilayer perceptron using environmental factors. Protected Hort Plant Fac 28:95-103. (in Korean) doi:10.12791/KSBEC.2019.28.2.95 10.12791/KSBEC.2019.28.2.95
Dhillon R., R. Francisco, J. Roach, S. Upadhyaya, and M. Delwiche 2014, A continuous leaf monitoring system for precision irrigation management in orchard crops. Tarım Makinaları Bilimi Dergisi 10:267-272.
Fisher P., A.J. Both, and B. Bugbee 2017, Supplemental lighting technology, costs, and efficiency. In R Lopez, E Runkle (Eds.), Light management in controlled environments. Meister Media Worldwide, Willoughby, OH, USA, pp 74-81.
Hong S.W., and I.B. Lee 2014, Predictive model of micro-environment in a naturally ventilated greenhouse for a model-based control approach. J Bio-Env Con 23:181-191. (in Korean) doi:10.12791/KSBEC.2014.23.3.181 10.12791/KSBEC.2014.23.3.181
Hwang H.S., K.H. Lee H.W. Jeong, and S.J. Hwang 2022, Selection of supplemental light source for greenhouse cultivation of pepper during low radiation period through growth and economic analysis. J Bio-Env Con 31:204-211. (in Korean) doi:10.12791/KSBEC.2022.31.3.204 10.12791/KSBEC.2022.31.3.204
Jeong I.S., C.G. Lee, L.H. Cho, S.Y. Park, S.J. Kim, D.H. Kim, and J.H. Oh 2021, Environmental prediction in greenhouse according to modified greenhouse structure and heat exchanger location for efficient thermal energy management. J Bio-Env Con 30:278-286. (in Korean) doi:10.12791/KSBEC.2021.30.4.278 10.12791/KSBEC.2021.30.4.278
Jeong K.J., J.G. Yun, Y.S. Chon, H.S. Shin, and S.W. Lee 2018, Effect of supplementary or heating lamps on the yield, vase life, and leaf color of cut rose. Protected Hort Plant Fac 27:158-165. (in Korean) doi:10.12791/KSBEC.2018.27.2.158 10.12791/KSBEC.2018.27.2.158
Jones H.G. 2004, Irrigation scheduling: advantages and pitfalls of plant-based methods. J Exp Bot 55:2427-2436. doi:10.1093/jxb/erh213 10.1093/jxb/erh21315286143
Katzin D., S. van Mourik, F. Kempkes, and E.J. van Henten 2020, GreenLight - An open source model for greenhouses with supplemental lighting: evaluation of heat requirements under LED and HPS lamps. Biosyst Eng 194:61-81. doi:10.1016/j.biosystemseng.2020.03.010 10.1016/j.biosystemseng.2020.03.010
Khorsandi A., A. Hemmat, S.A. Mireei R. Amirfattahi, and P. Ehsanzadeh 2018, Plant temperature-based indices using infrared thermography for detecting water status in sesame under greenhouse conditions. Agric Water Manag 204:222-233. doi:10.1016/j.agwat.2018.04.012 10.1016/j.agwat.2018.04.012
Kim H.J., M.Y. Lin, and C.A. Mitchell 2019, Light spectral and thermal properties govern biomass allocation in tomato through morphological and physiological changes. Environ Exp Bot 157:228-240. doi:10.1016/j.envexpbot.2018.10.019 10.1016/j.envexpbot.2018.10.019
Kurowski P.M. 2015, Thermal analysis with solidworks simulation 2015 and flow simulation 2015. SDC Publications, KS, USA.
Kwon J.K., I.H. Yu, K.S. Park, J.H. Lee, J.H. Kim, J.S. Lee, and D.S. Lee 2018, Supplemental lighting by HPS and PLS lamps affects growth and yield of cucumber during low radiation period. J Bio-Env Con 27:400-406. (in Korean) doi:10.12791/KSBEC.2018.27.4.400 10.12791/KSBEC.2018.27.4.400
Lam J.C., C.L. Tsang, D.H.W. Li, and S.O. Cheung 2005, Residential building envelope heat gain and cooling energy requirements. Energy 30:933-951. doi:10.1016/ 10.1016/
Lee C.G., J.S. Lee, H.J. Jeong, J.H. Lee, J.H. Kim, J.E. Son, I. Hwang, J.H. Shin, K.S. Park, and J.W. Lee 2021, Greenhouse supplemental lighting technology. National Institute of Horticultural & Herbal Science, RDA, Wanju, Korea, p 82. (in Korean)
Lee T.S., G.C. Kang, H.K. Kim, J.P. Moon, S.S. Oh, and J.K. Kwon 2017, Analysis of air temperature and humidity distributions and energy consumptions according to use of air circulation fans in a single-span greenhouse. Protected Hort Plant Fac 26:276-282. (in Korean) doi:10.12791/KSBEC.2017.26.4.276 10.12791/KSBEC.2017.26.4.276
Leinonen I., and H.G. Jones 2004, Combining thermal and visible imagery for estimating canopy temperature and identifying plant stress. J Exp Bot 55:1423-1431. doi:10.1093/jxb/erh146 10.1093/jxb/erh14615133055
Nam S.W., and H.H. Shin 2015, Development of a method to estimate the seasonal heating load for plastic greenhouses. J Korean Soc Agric Eng 57:37-42. (in Korean) doi:10.5389/KSAE.2015.57.5.037 10.5389/KSAE.2015.57.5.037
Nelson J.A., and B. Bugbee 2015, Analysis of environmental effects on leaf temperature under sunlight, high pressure sodium and light emitting diodes. PLoS One 10:e0138930. doi:10.1371/journal.pone.0138930 10.1371/journal.pone.013893026448613PMC4598144
Ouzounis T., H. Giday, K.H. Kjaer, and C.O. Ottosen 2018, LED or HPS in ornamentals? A case study in roses and campanulas. Eur J Hortic Sci 83:166-172. doi:10.17660/eJHS.2018/83.3.6 10.17660/eJHS.2018/83.3.6
Palmitessa O.D., A.E. Prinzenberg, E. Kaiser, and E. Heuvelink 2021, Led and HPS supplementary light differentially affect gas exchange in tomato leaves. Plants 10:810. doi:10.3390/plants10040810 10.3390/plants1004081033924106PMC8074298
Pino A., W. Bustamante, R. Escobar, and F.E. Pino 2012, Thermal and lighting behavior of office buildings in Santiago of Chile. Energy Build 47:441-449. doi:10.1016/j.enbuild.2011.12.016 10.1016/j.enbuild.2011.12.016
Righini I., B. Vanthoor, M.J. Verheul, M. Naseer, H. Maessen, T. Persson, and C. Stanghellini 2020, A greenhouse climate-yield model focusing on additional light, heat harvesting and its validation. Biosyst Eng 194:1-15. doi:10.1016/j.biosystemseng.2020.03.009 10.1016/j.biosystemseng.2020.03.009
Saberian A., and S.M. Sajadiye 2019, The effect of dynamic solar heat load on the greenhouse microclimate using CFD simulation. Renew Energy 138:722-737. doi:10.1016/j.renene.2019.01.108 10.1016/j.renene.2019.01.108
Shin H.H., Y.S. Kim, and S.W. Nam 2019, Effect of pipes layout and flow velocity on temperature distribution in greenhouses with hot water heating system. Protected Hort Plant Fac 28:335-341. (in Korean) doi:10.12791/KSBEC.2019.28.4.335 10.12791/KSBEC.2019.28.4.335
Yang S.H., C.G. Lee, A. Ashtiani-Araghi, J.Y. Kim, and J.Y. Rhee 2015, Heat gain and contribution to heating from supplemental lighting in greenhouse. Eng Agric Environ Food 8:67-71. doi:10.1016/j.eaef.2015.04.001 10.1016/j.eaef.2015.04.001
Yu I.H., M.W. Cho, S.Y. Lee, H. Chun, and I.B. Lee 2007, Effects of circulation fans on uniformity of meteorological factors in warm air heated greenhouse. J Bio-Env Con 16:291-296. (in Korean)
Zhang R., Y. Zhou, Z. Yue, X. Chen, X. Cao, X. Ai, B. Jiang, and Y. Xing 2019, The leaf-air temperature difference reflects the variation in water status and photosynthesis of sorghum under waterlogged conditions. PLoS One 14:e0219209. doi:10.1371/journal.pone.0219209 10.1371/journal.pone.021920931295276PMC6624001
  • Publisher :The Korean Society for Bio-Environment Control
  • Publisher(Ko) :(사)한국생물환경조절학회
  • Journal Title :Journal of Bio-Environment Control
  • Journal Title(Ko) :생물환경조절학회지
  • Volume : 32
  • No :1
  • Pages :48-56
  • Received Date :2023. 01. 09
  • Revised Date :2023. 01. 19
  • Accepted Date : 2023. 01. 20