Add to ORKGABSTRACT Cogeneration can improve the energy utilization efficiency significantly. In this paper, a new ammonia-water system is proposed for the cogeneration of refrigeration and power. The plant operates in a parallel combined cycle mode with an ammonia-water Rankine cycle and an ammonia refrigeration cycle, interconnected by absorption, separation and heat transfer processes. The performance was evaluated by both energy and exergy efficiencies. The influences of the key parameters, which include the rectifier operation pressure, reflux ratio and reboiler temperature, the basic working solution concentration, the cooling water temperature and the Rankine cycle turbine inlet parameters on the cycle performance, were investigated. It is foun...
Finding optimal operating conditions of solar-based power and cooling systems is always a challenge....
Finding optimal operating conditions of solar-based power and cooling systems is always a challenge....
Development of innovative thermodynamic cycles is important for the efficient utilization of low-tem...
Refrigeration cogeneration systems which generate power alongside with cooling improve energy utiliz...
The use of a mixture of ammonia and water as working fluid in power cycles has been proposed for var...
In this study, the problem of a parallel connected power and absorption cooling cogeneration system ...
Ammonia-water power cycles are important for efficient utilization of low temperature heat sources s...
This paper presents a parametric analysis of a combined power/cooling cycle, which combines the Rank...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...
A low-temperature heat driven ammonia-water combined absorption cycle is studied in this paper from ...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...
Improving the efficiency of thermodynamic cycles plays a fundamental role in reducing the cost of so...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
Finding optimal operating conditions of solar-based power and cooling systems is always a challenge....
Finding optimal operating conditions of solar-based power and cooling systems is always a challenge....
Development of innovative thermodynamic cycles is important for the efficient utilization of low-tem...
Refrigeration cogeneration systems which generate power alongside with cooling improve energy utiliz...
The use of a mixture of ammonia and water as working fluid in power cycles has been proposed for var...
In this study, the problem of a parallel connected power and absorption cooling cogeneration system ...
Ammonia-water power cycles are important for efficient utilization of low temperature heat sources s...
This paper presents a parametric analysis of a combined power/cooling cycle, which combines the Rank...
As a type of traditional cycle for electricity generation, the main limitation of the Rankine cycle ...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...
This paper presents a theoretical investigation of a combined Power and Cooling Cycle that employs a...
A low-temperature heat driven ammonia-water combined absorption cycle is studied in this paper from ...
This paper presents a comparative exergy analysis of ammonia-water Rankine cycles with and without r...
Improving the efficiency of thermodynamic cycles plays a fundamental role in reducing the cost of so...
In the present study, a new power and refrigeration cycle is investigated which is a combination of ...
Finding optimal operating conditions of solar-based power and cooling systems is always a challenge....
Finding optimal operating conditions of solar-based power and cooling systems is always a challenge....
Development of innovative thermodynamic cycles is important for the efficient utilization of low-tem...