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    Numerical Modeling of Soil Water–Heat Transport under Oxo-Biodegradable Film Mulch and the Optimal Mulching Period

    Source: Journal of Irrigation and Drainage Engineering:;2021:;Volume ( 147 ):;issue: 009::page 04021035-1
    Author:
    Yayang Feng
    ,
    Haibin Shi
    ,
    Xuesong Cao
    ,
    Qingfeng Miao
    ,
    Qiong Jia
    ,
    Jingwei Li
    ,
    Ning Wang
    ,
    Kunlun Zhu
    DOI: 10.1061/(ASCE)IR.1943-4774.0001555
    Publisher: ASCE
    Abstract: Timely monitoring and regulation of the transport and distribution of soil water and heat are appropriate methods to ensure and improve crop yields. With the degradation of the oxo-biodegradable film, the upper boundary condition is a time-variable boundary, and soil water-heat transport is more complicated, comparing with conventional plastic film. Based on HYDRUS-2D version 2.02 and the characteristics of mulching films, a soil water-heat coupled transport mathematical model of drip irrigation was established, and the simulated soil water content and temperature were tested against three-year field observations for calibration and validation purposes. The model prediction demonstrated that the induction periods of oxo-biodegradable film mulching differed in different hydrological years. In normal flow years, an induction period of 50–80 days had higher water use efficiency. While the window would increase to 50–100 days in low flow years. As for temperature, comparing with conventional plastic film mulching, the decreasing trend of temperature started to slow down when the induction period increased to 70 days. Therefore, the optimal induction period of the oxo-biodegradable film is 50–70 days.
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      Numerical Modeling of Soil Water–Heat Transport under Oxo-Biodegradable Film Mulch and the Optimal Mulching Period

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4272384
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    • Journal of Irrigation and Drainage Engineering

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    contributor authorYayang Feng
    contributor authorHaibin Shi
    contributor authorXuesong Cao
    contributor authorQingfeng Miao
    contributor authorQiong Jia
    contributor authorJingwei Li
    contributor authorNing Wang
    contributor authorKunlun Zhu
    date accessioned2022-02-01T21:58:06Z
    date available2022-02-01T21:58:06Z
    date issued9/1/2021
    identifier other%28ASCE%29IR.1943-4774.0001555.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4272384
    description abstractTimely monitoring and regulation of the transport and distribution of soil water and heat are appropriate methods to ensure and improve crop yields. With the degradation of the oxo-biodegradable film, the upper boundary condition is a time-variable boundary, and soil water-heat transport is more complicated, comparing with conventional plastic film. Based on HYDRUS-2D version 2.02 and the characteristics of mulching films, a soil water-heat coupled transport mathematical model of drip irrigation was established, and the simulated soil water content and temperature were tested against three-year field observations for calibration and validation purposes. The model prediction demonstrated that the induction periods of oxo-biodegradable film mulching differed in different hydrological years. In normal flow years, an induction period of 50–80 days had higher water use efficiency. While the window would increase to 50–100 days in low flow years. As for temperature, comparing with conventional plastic film mulching, the decreasing trend of temperature started to slow down when the induction period increased to 70 days. Therefore, the optimal induction period of the oxo-biodegradable film is 50–70 days.
    publisherASCE
    titleNumerical Modeling of Soil Water–Heat Transport under Oxo-Biodegradable Film Mulch and the Optimal Mulching Period
    typeJournal Paper
    journal volume147
    journal issue9
    journal titleJournal of Irrigation and Drainage Engineering
    identifier doi10.1061/(ASCE)IR.1943-4774.0001555
    journal fristpage04021035-1
    journal lastpage04021035-13
    page13
    treeJournal of Irrigation and Drainage Engineering:;2021:;Volume ( 147 ):;issue: 009
    contenttypeFulltext
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