Desalination plant with absorption heat pump for power station

Slesarenko, V. V.

doi:10.1016/s0011-9164(99)00183-6

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Infl Uence Of Sea Water Salinity On Vaporizer-condenser Oper2

Introduction1

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2019

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Cited by 18 publications

(3 citation statements)

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“…Heat power losses ΔQ due to boiling point elevation in the desalter can be calculated with the help of the following equation (Slesarenko, 1999…”

Section: Infl Uence Of Sea Water Salinity On Vaporizer-condenser Opermentioning

confidence: 99%

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Influence of Vacuum Level and Sea Water Salinity on the Vacuum Distiller Energy Efficiency

Blagin

Gorshkalev

Шиманов

2017

Inter J Ener Clean Env

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“…Heat power losses ΔQ due to boiling point elevation in the desalter can be calculated with the help of the following equation (Slesarenko, 1999…”

Section: Infl Uence Of Sea Water Salinity On Vaporizer-condenser Opermentioning

confidence: 99%

“…The losses of the vaporizer-condenser heat power can attain 50-70%. Heat power losses calculated for the desalter plant described in Slesarenko (1999) as a function of the salinity are shown in Fig. 9.…”

Section: Infl Uence Of Sea Water Salinity On Vaporizer-condenser Opermentioning

confidence: 99%

Influence of Vacuum Level and Sea Water Salinity on the Vacuum Distiller Energy Efficiency

Blagin

Gorshkalev

Шиманов

2017

Inter J Ener Clean Env

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“…A heat pump transforms low‐grade heat from the air, ground, and solar radiation into a usable source by performing work on the refrigerant, which reduces the energy consumption and makes the system economical. Slesarenko discussed 3 types of heat pump systems to reduce the power consumption in small‐capacity thermal desalination plants producing fresh water. He concluded that connecting a heat pump to a thermal desalination plant could increase the economic and thermodynamic factors of the plant by 2‐3 times.…”

Section: Introductionmentioning

confidence: 99%

Wastewater desalination system utilizing a low-temperature heat pump

Yang¹,

Zhang²,

XueJun

et al. 2017

Int J Energy Res

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Summary A wastewater desalination system based on a low‐temperature air source heat pump was developed and studied in this paper. The system consists of 2 main parts: the wastewater flow process and the heat pump cycle. A series of experiments were conducted on the system under different conditions, and the effect of the evaporation temperature was investigated. This system can reach equilibrium at any evaporation temperature using the combination of the compressor and vacuum pump. To treat wastewater with low boiling point organic matter, the system was operated at a low evaporation temperature of 48°C. The organic matter remained in the concentrated wastewater, and the organic removal was approximately 97%. Three kilograms of treated water was produced in 1 hour with an energy consumption of 250 W. The performance ratio (PR) obtained from the experiments ranged from 4.6 to 7.3. The cost for treating 1 kg of water was 0.038 yuan CNY assuming 0.5 yuan CNY per kWh at the compressor frequency of 50 Hz.

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