Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/97793
標題: PM2.5與溫室內補光環境之研究
Development of Lighting Environment and PM2.5 in Greenhouses
作者: 郭庭瑋
Ting-Wei Kuo
關鍵字: PM2.5
霧霾
溫室
補光環境
照度
PM2.5
haze
illumination
supplemental lighting
引用: 1.于永梅、劉海芝、解運娟、閆童、劉士亮。連續霧霾對溫室番茄生產的影響及應對措施。安徽農學通報 20(23):54-55。 2.王康。2014。霧霾的散射與傳輸特性研究。碩士論文。中國: 西安電子科技大學。 3.宋羽。2017。株間LED補光與溫室番茄光能利用特性與生長發育關係的研究。博士論文。中國:中國農業大學 4.邵茂丰。2015。霧霾變化的光度學特性及評價研究。碩士論文。中國:中國計量學院。 5.徐何辰,饒丰,薛文濤,談茜。2012。中間視覺亮度條件下常用光源透霧性研究。照明工程學報23(5):47-50。 6.許依純。2007。光質處理對豆科苗株生長與發育之影響。碩士論文。臺中:亞洲大學。 7.連芬潔。2015。人工光源對番茄'豐年二號'生長發育之影響。碩士論文。宜蘭: 國立宜蘭大學。 8.郭孚燿。2014。番茄栽培技術。彰化台中農業改良場農業專訊38:12-18。   9.陳正暐。2014。中部空品區PM2.5排放汙染源分析。碩士論文。臺中:國立中興大學。 10.黃奕群。2015。微型光照控制系統之建立。碩士論文。臺中:國立中興大學。 11.楊清富、林聖泉。2012。LabVIEW圖控程式應用於溫室環控之研究。臺南農業改良場研究彙報 59:54-70。 12.戴振洋。2009。設施番茄介質耕栽培技術。彰化台中農業改良場農業技術專刊 173:1-14。 13.韓帥,唐宇,李坤,陳壬賢,周小雨,包熙鴻,劉木清。2014。模擬霧霾條件下光源的透過性實驗研究。照明工程學報25(5):111-115。 14.顏怡雯。2014。香支燃燒排放PM2.5及PM2.5-10中水溶性離子組成之特性研究。碩士論文。臺中:國立中興大學。 15.環保署網站,http://www.epa.gov.tw/. 16.Lebio,http://www.lebiotek.com/zh-hant/. 17.Campbell. 2005. Influence of day length on stem growth. flowering, morphology of flower clusters and seed set in buckwheat (Fagopyrum esculentum Moench). Plant Prod Sci 8: 44-50 18.Harry Stijger.2004. All colours in light are equal for photosynthesis. Flower Tech.9-11. 19.Heuvelin E, Bakker MJ, Hogendonk L, Janse J, Kaarsemaker RC, Maaswinkel RHM . 2006. Horticultural lighting in the Netherlands : new developments. Acta Hortic 711:25-33. 20.Janhall,S. 2015. Review on urban vegetation and particle air pollution – deposition and dispersion. Atmospheric Environment 105 :130-137. 21.Kedar Mohapatra, S.K.Biswal.2014. Effect of Pariculate matter on plants, climate, ecosystem and human health. International Journal of Advanced Technology in Engineering and Science 2(4) 118-129. 22.Michiyama , H., K. Tsuchimoto, K. I. Tani, T. Hirano, H.Hayashi, and C. Campbell. 2005. Influence of day length on stem growth. flowering, morphology of flower clusters and seed set in buckwheat (Fagopyrum esculentum Moench). Plant Prod Sci 8: 44-50 23.Na Lu., and Cary A. Mitchell.2016.Supplemental Lighting for Greenhouse Grown Fruiting Vegetables.LED Lighting for Urban Agriculture 219-232. 24.Philinis, C., & Seinfeld,j.H. 1988 . Development and evaluation of an Eulerian photochemical gas-eaerosol model. Atmospheric Environment(1967) 22(9) 1985-2001. 25.T.A. Dueck, J. Janse, B.A. Eveleens, F.L.K. Kempkes and L.F.M. Marcelis.2012. Growth of Tomatoes under Hybrid LED and HPS Lighting. Acta Horticulturae 952 335-342. 26.Vänninen, I., D. M. Pinto, A. I. Nissinen, N. S. Johansen and L. Shipp.2010. In the light of new greenhouse technologies: Plant-mediated effects of artificial lighting on arthropods and tritrophic inteactions. Annals of Applied Biology 393-414 .
摘要: 本研究希望找出PM2.5與光環境之間的關係,求出照度透過率,以及對溫室內光環境的影響,主要分為模擬實驗與溫室內作物實驗。模擬實驗主要探討PM2.5與光照度之間的關係。溫室內作物實驗主要探討PM2.5在實地溫室中對番茄光環境及其生長的影響。 模擬實驗中,隨PM2.5的濃度增加,低光源的照度值有一定程度的降低。在高PM2.5的濃度下,照度透過率低。 溫室內作物實驗中,在特定時間,溫室內的平均照度,霧霾天比起晴天有顯著的降低,照度透過率也較低。而溫室內外的PM2.5濃度平均值,霧霾天溫室內的PM2.5濃度平均值明顯高於晴天。 作物生長方面,在生長勢的比較上,一周間的伸長量,前兩周補光組略高於對照組,後兩周對照組略高於補光組。莖粗兩組間沒有明顯的差異。下位葉面積補光組之平均值高於對照組。100顆果實總鮮重補光組比對照組多34 g ,其果實平均鮮重多約 0.34 g。
The purposes of this study was to find out the relation among PM2.5 and the light environment, illumination transmittance, and the impact on lighting environment in greenhouse. The study included simulation experiment and the tomato experiment in the greenhouse. The aim of the simulation experiment was to find out the relation between PM2.5 and illuminance. Another aim was to find out the effect of PM2.5 on tomato growing and lighting environment in the greenhouse. The results of simulation experiment showed that with the increase of the concentration of the PM2.5 , the illumination of lamp had reducing of a certain degree. And under the high concentration of the PM2.5 , illumination transmittance was low. The results of the comparison between the haze and fog weather and sunny day, the average illumination and illumination transmittance on haze and fog weather was lower than sunny day. And the average concentration of the PM2.5 on haze and fog weather was higher than sunny day. The respect that the crop grows, in the comparison of the growth tendency, the extending amount among one week, the tomato with supplemental lighting (SL) was higher than the without supplemental lighting (SL) in the first two weeks, but the tomato without SL was higher than the with SL in last two weeks. There is no significant difference in stem thick. The average of lower leaf area , the tomato with SL was higher than without SL. In the total fruit fresh weight (100 tomatoes), the tomato with SL was higher than the without SL.
URI: http://hdl.handle.net/11455/97793
文章公開時間: 2018-08-07
Appears in Collections:生物產業機電工程學系

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