Hua Ben scite author profile

The cycle model of a quantum refrigerator composed of two isothermal and two isomagnetic field processes is established. The working substance in the cycle consists of many noninteracting spin-1/2 systems. The performance of the cycle is investigated, based on the quantum master equation and semigroup approach. The general expressions of several important performance parameters, such as the coefficient of performance, cooling rate, and power input, are given. Especially, the case at high temperatures is analyzed in detail. The results obtained are further generalized and discussed, so that they may be directly used to describe the performance of the quantum refrigerator using spin-J systems as the working substance. Finally, the optimum characteristics of the quantum Carnot refrigerator are derived simply.

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Supply chain optimization of continuous process industries with sustainability considerations

Zhou

Cheng

Ben

2000

Computers & Chemical Engineering

157

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Effective MILP model for oil refinery-wide production planning and better energy utilization

Zhang

Ben

2007

Journal of Cleaner Production

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Effects of ultrasound on adsorption equilibrium of phenol on polymeric adsorption resin

Zhong

et al. 2002

Chemical Engineering Journal

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Exergy analysis of domestic-scale solar water heaters

Wang

Ben

2005

Renewable and Sustainable Energy Reviews

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Hua Ben

Quantum refrigeration cycles using spin-12systems as the working substance

Supply chain optimization of continuous process industries with sustainability considerations

Effective MILP model for oil refinery-wide production planning and better energy utilization

Effects of ultrasound on adsorption equilibrium of phenol on polymeric adsorption resin

Exergy analysis of domestic-scale solar water heaters

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