Baoer Hao scite author profile

Baoer Hao

4Publications

1Citation Statement Received

37Citation Statements Given

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Inner Mongolia Agricultural University

Publications

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Feasibility analysis using a porous media model to simulate the wind protection effect of windbreak forests

et al. 2022

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The porous media model theory has been applied to the study of soil wind erosion, and the accuracy of simulation test results using the resistance source term instead of the windbreak geometry model has received much attention. A common shrub windbreak was used as the research object, and a porous media model with a similar shape was established to synthetically compare the wind tunnel experimental data with the results of computational fluid dynamics numerical simulations, analyze its feasibility for windbreak research instead of wind tunnel experiments, and try to elaborate the causes of errors arising from numerical simulations. The relative standard deviation of more than 80% of the sampling points in the porous media model and wind tunnel experimental results was less than 5%, and the wind speed difference at the maximum relative standard deviation was only 0.257 m s À1 ; the difference in wind speed variation was most obvious on the leeward side of the lower part of the vegetation canopy, but this error does not affect the wind speed recovery trend of the Caragana shrub/forest belt array. The combination of numerical simulations and wind tunnel experiments gives a reference for the accuracy of porous media models used to simulate plant wind protection.

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Wind Erosion Resistance Effect of Conservation Tillage: The Case of Chestnut Soil in Mongolian Plateau

Tong¹,

Hao²,

Chen³

et al. 2023

RCA

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Calibration of simulation parameters for wind erosion gas-solid two-phase flow in arid and semiarid soils

Hao

Tong

Chen

et al. 2022

Rev. bras. eng. agríc. ambient.

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To construct a coupled simulation model of soil wind erosion and two-phase flow in arid and semiarid regions, the proper contact parameters of the soil discrete element simulation model are obtained based on the angle of repose (AoR) calibration test. The coupled simulation model is established by combining computational fluid dynamics. The response value of the wind speed of sand initiation is used to verify the model’s accuracy. Due to the characteristics of arid and semiarid soils, this paper uses the Hertz-Mindlin with JKR contact model in EDEM software to calibrate the soil parameters based on soil physical tests and designs the Plackett-Burman, steepest climb, and Box-Behnken tests according to Design-Expert software to obtain the soil AoR second-order regression. With the AoR of 33.52° as the target, the best combination of parameters is obtained: soil-soil collision recovery of 0.64, soil-steel static friction coefficient of 0.31, JKR surface energy of 3.302 J m-2. Finally, by using calibrated parameters and the threshold wind velocity as the response value, the wind-sand air-solid two-phase flow test is conducted in ANSYS Fluent and EDEM, with the relative error between the starting wind speed recorded by the high-speed camera in the wind tunnel test and the threshold wind velocity shown in the simulation model calculated to be 8.7%, and the calibrated soil parameters met the requirements of the coupled simulation.

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Thermal airflow sensor design and temperature compensation research based on the thermostatic method

Tong

Hao

Chen

et al. 2022

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Purpose This paper aims to solve the typical thermal airflow sensor's high power consumption and integration difficulties, based on the FS5 thermal element and constant temperature measurement method, a flow sensor is developed with high measurement accuracy, low power consumption, small size, low cost and easy system integration. Design/methodology/approach A small wind tunnel was used to test and assess the sensor's measurement range, reaction time, stability, repeatability, measurement accuracy and multi-temperature calibration was performed in the temperature range of −10°C to 30°C. The effect of ambient temperature on the sensor's measurement data is investigated, and the coefficient correction method of power function was investigated to implement the sensor's software temperature compensation function. Findings The results show that the sensor is stable and repeatable, the output voltage has a power function relationship with the airflow rate, the flow rate measurement range is 0–18 m/s, the response time is less than 3 s, the measurement accuracy at high flow rates is within 0.4 m/s and the temperature-corrected airflow rate measurement error is less than 5%. Setting the temperature calibration interval to 2°C and 5°C has the same temperature compensation effect, reducing the sensor's calibration effort significantly. Originality/value This paper demonstrates that a thermostatic method is used to construct a thermal wind speed sensor that delivers accurate measurements in the wind speed measuring range of 0–18 m/s under test conditions. In addition, the sensor's performance is evaluated, and calibration tests for a wide range of temperatures are done. Finally, based on the power function correction method, a temperature compensation algorithm is proposed.

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Baoer Hao

Feasibility analysis using a porous media model to simulate the wind protection effect of windbreak forests

Wind Erosion Resistance Effect of Conservation Tillage: The Case of Chestnut Soil in Mongolian Plateau

Calibration of simulation parameters for wind erosion gas-solid two-phase flow in arid and semiarid soils

Thermal airflow sensor design and temperature compensation research based on the thermostatic method

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