Newcastle University
Browse
DATASET
80 oC.csv (30.57 kB)
TEXT
readme.txt (0.71 kB)
DATASET
60 oC.csv (29.08 kB)
DATASET
140 oC.csv (10.4 kB)
DATASET
100oC.csv (19.72 kB)
DATASET
120 oC.csv (14.84 kB)
1/0
6 files

Model and parameters for calculating the energy and exergy efficiency of a hybrid absorption-compression high temperature heat pump

dataset
posted on 2018-01-01, 00:00 authored by Z Ma, H Bao, A Roskilly
This work explored a hybrid absorption-compression heat pump (HAC-HP) to upgrade and recover the industrial waste heat in the temperature range of 60°C–120°C. The new HAC-HP system proposed has a condenser, an evaporator, and one more solution pump, compared to the conventional HAC-HP system, to allow flexible utilization of energy sources of electricity and waste heat. In the system proposed, the pressure of ammonia-water vapor desorbed in the generator can be elevated by two routes; one is via the compression of compressor while the other is via the condenser, the solution pump, and the evaporator. The results show that more ammonia-water vapor flowing through the compressor leads to a substantial higher energy efficiency due to the higher quality of electricity, however, only a slight change on the system exergy efficiency is noticed. The temperature lift increases with the increasing system recirculation flow ratio, however, the system energy and exergy efficiencies drop towards zero. The suitable operation ranges of HAC-HP are recommended for the waste heat at 60°C, 80°C, 100°C, and 120°C. The recirculation flow ratio should be lower than 9, 6, 5, and 4 respectively for these waste heat, while the temperature lifts are in the range of 9.8°C–27.7 °C, 14.9°C–44.1 °C, 24.4°C–64.1°C, and 40.7°C–85.7°C, respectively, and the system energy efficiency are 0.35–0.93, 0.32–0.90, 0.25– 0.85, and 0.14–0.76.

History

Usage metrics

    Newcastle University

    Categories

    No categories selected

    Licence

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC