Strategy of Intelligent Energy-Saving Optimization Control and Energy Consumption Analysis on Regulator Control System of Closed Greenhouse

Min Gyu Zhang; Guang Hua Wu; Feng Liu

doi:10.4028/www.scientific.net/AMM.666.184

Paper Titles

Robust Control of Weight Compensation of the Sections of Spascraft on the Weightlessness Simulation Bench
p.166

Design of the Production Line Control System of Beverage Filling Based on PLC
p.171

Simulation Research of Anti-Sliding Control of Urban Rail Brake System Based on AMESim and Simulink
p.175

Automatic Control of the Electric Cross Sliding Welding Based on VC++
p.179

Strategy of Intelligent Energy-Saving Optimization Control and Energy Consumption Analysis on Regulator Control System of Closed Greenhouse
p.184

Speed Control System Research on Hydraulic Torque Forklift
p.188

Effect of Variation of Fuel Composition on Gas Turbine Off-Design Performance
p.194

Performance Analysis of Linear Permanent Magnets Synchronous Motor by Scalar Control Method (v/f)
p.199

Fault Diagnosis for Electrical Control System of Automobile Based on Support Vector Machine
p.203

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 666Strategy of Intelligent Energy-Saving Optimization...

Strategy of Intelligent Energy-Saving Optimization Control and Energy Consumption Analysis on Regulator Control System of Closed Greenhouse

Abstract:

Adopting the integrated TOPSIS intelligent energy optimization control strategy, and compared to conventional single control strategy on energy consumption of greenhouse equipment under closed condition, this paper arrives at the best energy saving optimization control strategy with comprehensive benefits. The result shows that, integrated intelligent optimizing control was obviously more energy saving compared to those did not take optimization control. Specific results as follows: TOPSIS integration strategy with energy saving of 725.39kwh, energy-saving rate of 44.19%.This shows that the proposed integrated intelligent energy optimization control strategy and energy saving effect is remarkable.

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Periodical:

Applied Mechanics and Materials (Volume 666)

Pages:

184-187

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.666.184

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Online since:

October 2014

Authors:

Min Gyu Zhang*, Guang Hua Wu, Feng Liu

Keywords:

Closed Greenhouse, Energy Saving, Intelligent Integration, Optimal Control

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* - Corresponding Author

References

[1] DONG Xiaoyu, CAI Xiaohong, ZHAI Chunfeng: Research progress and Prospect of new organic cultural substrat [J]. . Shaanxi Jgric Sci, 2007(4)88-90.

Google Scholar

[2] S. Kurpaska, Z. Slipek, B. Bozek: Simulation of Heat and Moisture Transfer in the Greenhouse Substrate due to a Heating System by Buried Pipes [J]. Biosystems Engineering, 2004, 90(1): 63-74.

DOI: 10.1016/j.biosystemseng.2004.10.012

Google Scholar

[3] Bucldin RA, L. W. Turner: Methods to relieve heat stress in hot humid climates[J]. Applied Engineering in Agriculture, 1 99l, (7): 45-49.

Google Scholar

[4] O. Jolliet, L. Danloy, J.B. Gay, G.L. Munday and A. Reist, HORTICERN: an improved static model for Predicting the energy consumption of a greenhouse [M]. Agric. and For. Meteorol. (1991).

DOI: 10.1016/0168-1923(91)90066-y

Google Scholar

[5] Hashimot V, etc: Somes peaking plant approach to the synthesis of control system in the greenhouse [J]. Acta Hort, 1985, 174: 219-226.

Google Scholar