Application of the surface renewal technique in two types of screenhouses: Sensible heat flux estimates and turbulence characteristics

•We examined the performance of the surface renewal technique in two screenhouses.•Surface renewal performed better in the shading than in the insect-proof screenhouse.•In both screenhouses optimal height was above the screened roof.•Under certain conditions sampling frequency could be lowered from...

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Published in:Agricultural and forest meteorology 2015-04, Vol.203, p.229-242
Main Authors: Mekhmandarov, Yonatan, Pirkner, Moran, Achiman, Ori, Tanny, Josef
Format: Article
Language:English
Subjects:
Coefficients
Eddy covariance
Ejections and sweeps
Enthalpy
Estimates
Fine-wire thermocouple
Fluid dynamics
Flux
Insect-proof screen
Musa
Screens
Shading
Shading screen
Surface renewal
Thermocouples
Turbulent coherent structure
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cited_by cdi_FETCH-LOGICAL-c381t-d56a52ac62285310bdef1ad1f0f81403dcf5fb84b2249d71e60c80c42db681343
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container_title Agricultural and forest meteorology
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creator Mekhmandarov, Yonatan
Pirkner, Moran
Achiman, Ori
Tanny, Josef
description •We examined the performance of the surface renewal technique in two screenhouses.•Surface renewal performed better in the shading than in the insect-proof screenhouse.•In both screenhouses optimal height was above the screened roof.•Under certain conditions sampling frequency could be lowered from 10Hz.•Ejections and sweeps were the governing coherent structures in the screenhouses. While the usefulness of screenhouses in crop improvement and water savings is rarely disputed in semi-arid regions, reliable evapotranspiration (ET) estimates in screenhouses remain a challenge. The surface renewal (SR) technique utilizes high frequency readings of air temperature near or above the vegetation by low-cost fine-wire thermocouples, to indirectly estimate the sensible heat flux from which the latent heat flux can be estimated assuming energy conservation. The SR technique had been successfully used in open fields, and this research investigates its applicability in screenhouses. Experiments were carried out in two field campaigns, in banana and pepper screenhouses covered with shading and insect-proof screens, respectively. The SR technique was employed by installing several miniature thermocouples at different heights. Reference measurements of sensible heat flux were conducted using the eddy covariance (EC) technique. A calibration coefficient, α, was calculated using linear regressions between SR and EC outputs. In agreement with observations in open fields, in both experiments, α was found to decrease with height, and values were smaller for stable than unstable conditions. In a separate validation period, R2 reached 0.93 and 0.65 for measurements above the shading and insect-proof screen, respectively. For both the shading and the insect-proof screens, best coefficients of determination (R2) of these regressions were obtained just above the screen, at 1.02 and 1.12 of the screen height, respectively. Turbulence characteristics were observed to be affected by the porosity of the screen, which is conjectured to be the main cause for reduced performance of the SR technique in the insect-proof than the shading screenhouse. In addition, it was concluded that in screenhouse conditions sampling frequency can be relaxed to as low as 2Hz with little effect on performance. The specifications provided here allow for a low cost deployment of the SR system in shading screenhouses. Such systems can be available for day-to-day use by farmers to improve irrigation management
doi_str_mv 10.1016/j.agrformet.2015.01.010
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While the usefulness of screenhouses in crop improvement and water savings is rarely disputed in semi-arid regions, reliable evapotranspiration (ET) estimates in screenhouses remain a challenge. The surface renewal (SR) technique utilizes high frequency readings of air temperature near or above the vegetation by low-cost fine-wire thermocouples, to indirectly estimate the sensible heat flux from which the latent heat flux can be estimated assuming energy conservation. The SR technique had been successfully used in open fields, and this research investigates its applicability in screenhouses. Experiments were carried out in two field campaigns, in banana and pepper screenhouses covered with shading and insect-proof screens, respectively. The SR technique was employed by installing several miniature thermocouples at different heights. Reference measurements of sensible heat flux were conducted using the eddy covariance (EC) technique. A calibration coefficient, α, was calculated using linear regressions between SR and EC outputs. In agreement with observations in open fields, in both experiments, α was found to decrease with height, and values were smaller for stable than unstable conditions. In a separate validation period, R2 reached 0.93 and 0.65 for measurements above the shading and insect-proof screen, respectively. For both the shading and the insect-proof screens, best coefficients of determination (R2) of these regressions were obtained just above the screen, at 1.02 and 1.12 of the screen height, respectively. Turbulence characteristics were observed to be affected by the porosity of the screen, which is conjectured to be the main cause for reduced performance of the SR technique in the insect-proof than the shading screenhouse. In addition, it was concluded that in screenhouse conditions sampling frequency can be relaxed to as low as 2Hz with little effect on performance. 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While the usefulness of screenhouses in crop improvement and water savings is rarely disputed in semi-arid regions, reliable evapotranspiration (ET) estimates in screenhouses remain a challenge. The surface renewal (SR) technique utilizes high frequency readings of air temperature near or above the vegetation by low-cost fine-wire thermocouples, to indirectly estimate the sensible heat flux from which the latent heat flux can be estimated assuming energy conservation. The SR technique had been successfully used in open fields, and this research investigates its applicability in screenhouses. Experiments were carried out in two field campaigns, in banana and pepper screenhouses covered with shading and insect-proof screens, respectively. The SR technique was employed by installing several miniature thermocouples at different heights. Reference measurements of sensible heat flux were conducted using the eddy covariance (EC) technique. A calibration coefficient, α, was calculated using linear regressions between SR and EC outputs. In agreement with observations in open fields, in both experiments, α was found to decrease with height, and values were smaller for stable than unstable conditions. In a separate validation period, R2 reached 0.93 and 0.65 for measurements above the shading and insect-proof screen, respectively. For both the shading and the insect-proof screens, best coefficients of determination (R2) of these regressions were obtained just above the screen, at 1.02 and 1.12 of the screen height, respectively. Turbulence characteristics were observed to be affected by the porosity of the screen, which is conjectured to be the main cause for reduced performance of the SR technique in the insect-proof than the shading screenhouse. In addition, it was concluded that in screenhouse conditions sampling frequency can be relaxed to as low as 2Hz with little effect on performance. 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1873-2240
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source Elsevier:Jisc Collections:Elsevier Read and Publish Agreement 2022-2024:Freedom Collection (Reading list)
subjects Coefficients
Eddy covariance
Ejections and sweeps
Enthalpy
Estimates
Fine-wire thermocouple
Fluid dynamics
Flux
Insect-proof screen
Musa
Screens
Shading
Shading screen
Surface renewal
Thermocouples
Turbulent coherent structure
title Application of the surface renewal technique in two types of screenhouses: Sensible heat flux estimates and turbulence characteristics
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