Analysis of the Effect of the CaCl2 Mass Fraction on the Efficiency of a Heat Pump Integrated Heat-Source Tower Using an Artificial Neural Network Model

Wei, Xiudong; Li, Nianping; Peng, Jinqing; Cheng, Jianlin; Hu, Jinhua

doi:10.3390/su8050410

Cited by 13 publications

(7 citation statements)

References 31 publications

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“…Control strategy is very important in improving the performance of a heat pump [8]. Wei et al [17] used the Artificial Neural Network (ANN) model for predicting the performance of the Heat Pump (HP). Their study indicated that the ANN model was reliable and robust.…”

Section: Introductionmentioning

confidence: 99%

Design and Thermal Analysis of an Air Source Heat Pump Dryer for Food Drying

et al. 2018

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In this study, an experimental heat pump dryer was designed. The specific moisture extraction rate and moisture extraction rate were used as performance indicators to explore the influence of environmental factors and the style of the hot air cycle on heat pump drying. The average temperature and humidity in Nanjing’s summer, winter, and throughout the whole year were taken as the experimental ambient temperature and humidity. Garlic slices 3 mm thick, with an initial moisture content of 66.714% w.b., were dried until the end moisture content was 10% w.b. Experimental results and thermal analysis showed that the open and semi-open heat pump dryers were greatly affected by ambient temperature and humidity. The closed heat pump drying system was greatly affected by the bypass air rate.

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Section: Introductionmentioning

confidence: 99%

Design and Thermal Analysis of an Air Source Heat Pump Dryer for Food Drying

et al. 2018

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“…The three-layer ANN model has been used in the prediction of HP system performance. The study depicted that the application of ANN in the prediction of the HP system was consistent and robust [14]. Yang et al [15] have used a simultaneous control strategy to improve the precision of drying temperature and superheat.…”

Section: Introductionmentioning

confidence: 90%

An Introduction of Biomimetic System and Heat Pump Technology in Food Drying Industry

Yousaf¹,

Chen²,

Khan³

2021

Biomimetics

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Drying of food products is a relatively complex, nonlinear, and dynamic process due to simultaneous heat and mass transfer, rapid moisture evaporation, and biological and chemical reactions. Therefore, the monitoring of food quality during the drying process using bio-inspired technologies can play a vital role. The demand for high-quality dried food products and the rapid growth of energy in food processing are attracting new and renewable sources of energy. Energy efficiency, improved food product quality, and less environmental impact are always the main priorities of any drying system development. In-depth knowledge of biomimetic systems and drying kinetics would be helpful to design new dryers and technologies. Due to the excellent features (controllable drying temperature, drying time, drying air velocity, and relative humidity), heat pump drying systems have been used widely to ensure food and agricultural product quality. This chapter helps to understand the relationship between bio-inspired technologies and the role of heat pump technology in the food drying industry in terms of cost-effectiveness, energy saving, and better food product quality.

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“…The system, located on the rooftop of a single-story building at Hunan University of China, was originally designed as a heating source for hot water supply [12,27]. As shown in Figure 3a, the closed wet cooling tower was an induced draft counter-flow type and specially designed, and Figure 3b showed that the heat pump system was an integrated water-to-water HP unit with a rated power of 3.1 kW and a total cooling capacity of 15.3 kW.…”

Section: Methodsmentioning

confidence: 99%

Modeling and Optimization of a CoolingTower-Assisted Heat Pump System

Wei

Peng

et al. 2017

Energies

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Abstract:To minimize the total energy consumption of a cooling tower-assisted heat pump (CTAHP) system in cooling mode, a model-based control strategy with hybrid optimization algorithm for the system is presented in this paper. An existing experimental device, which mainly contains a closed wet cooling tower with counter flow construction, a condenser water loop and a water-to-water heat pump unit, is selected as the study object. Theoretical and empirical models of the related components and their interactions are developed. The four variables, viz. desired cooling load, ambient wet-bulb temperature, temperature and flow rate of chilled water at the inlet of evaporator, are set to independent variables. The system power consumption can be minimized by optimizing input powers of cooling tower fan, spray water pump, condenser water pump and compressor. The optimal input power of spray water pump is determined experimentally. Implemented on MATLAB, a hybrid optimization algorithm, which combines the Limited memory Broyden-Fletcher-Goldfarb-Shanno (L-BFGS) algorithm with the greedy diffusion search (GDS) algorithm, is incorporated to solve the minimization problem of energy consumption and predict the system's optimal set-points under quasi-steady-state conditions. The integrated simulation tool is validated against experimental data. The results obtained demonstrate the proposed operation strategy is reliable, and can save energy by 20.8% as compared to an uncontrolled system under certain testing conditions.

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Analysis of the Effect of the CaCl2 Mass Fraction on the Efficiency of a Heat Pump Integrated Heat-Source Tower Using an Artificial Neural Network Model

Cited by 13 publications

References 31 publications

Design and Thermal Analysis of an Air Source Heat Pump Dryer for Food Drying

Design and Thermal Analysis of an Air Source Heat Pump Dryer for Food Drying

An Introduction of Biomimetic System and Heat Pump Technology in Food Drying Industry

Modeling and Optimization of a CoolingTower-Assisted Heat Pump System

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