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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2022年01

Page:

59-64

Research Field:

Publishing date:

Info

Title:

Test and Analysis of Strawberry Root Zone Heating Environment in Greenhouse Under Different Cultivation Modes

Author(s):

HE Fen1; 2; HOU Yong1; 2; YIN Yilei1; 2; TIAN Jing1; 2; DING Xiaoming1; 2; LI Zhonghua1; 2

(1.Academy of Agricultural Planning and Engineering of Ministry of Agriculture and Rural Affairs,Beijing 100125；2.Key Laboratory of Farm Building in Structure and Construction of Ministry of Agriculture and Rural Affairs,Beijing 100125)

Keywords:

greenhouse; elevated cultivation; strawberry; air temperature; substrate temperature

PACS:

-

DOI:

10.11937/bfyy.20212016

Abstract:

The root zone heating system by hot water pipe in multi-span greenhouse under two different elevated cultivation modes of H-type and A-type was proposed as experimental object,and its performance was tested in the coldest period of winter and spring in Beijing.The effects of different cultivation modes on temperature environment and heating uniformity were studied and analyzed,in order to provide practical basis for the optimization of heating mode in strawberry root zone.The results showed that the air temperature average of H-type and A-type was 14.4 ℃ and 15.5 ℃ respectively,and the highest air temperature of A-type was 1 ℃ higher than H-type;the substrate temperature average of both cultivation modes was 13.8 ℃,and the highest substrate temperature of A-type was 1.3 ℃ higher than H-type;the lowest substrate temperature of middle trough under A-type cultivation mode was 1.3 ℃ higher than left and right trough.The minimum deviation of substrate temperature was 0%-11% and the average was 1.1% under H-type cultivation mode.The minimum deviation of substrate temperature was 4.5%-25.3% and the average was 17.4% under A-type cultivation mode.The air and substrate temperature of two cultivation modes basically met the needs of strawberry growth environment,and the heating uniformity of H-type cultivation mode was higher than that of A-type cultivation mode.

References:

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Last Update: 2022-04-01