化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
3期
1025-1032
,共8页
设计%集中供热%喷射式热泵%回收%实验验证
設計%集中供熱%噴射式熱泵%迴收%實驗驗證
설계%집중공열%분사식열빙%회수%실험험증
design%district heating%ejector heat pump%recovery%experimental validation
热电联产面临着两个严重问题:供热面积与质量的增加导致供热不足;电厂凝汽器循环冷却水存在大量低品质热量浪费。为同时解决这两个问题,提出了一种利用喷射式热泵强化集中供热的新型EDH-CHP系统。该系统从循环冷却水中回收余热,并将余热应用于集中供热;另外通过增大供热一次网的供回水温差提高原一次网的供热能力。与原系统相比,新型系统在热力首站和热力站分别增加一台喷射式热泵(HP1、HP2)。分别对两台喷射式热泵进行热力学分析及性能实验研究。分析结果表明:HP1和HP2均能有效提高系统性能。实验结果表明:HP1的COP可达1.4~1.9,HP2可降低一次网回水至35℃。经典案例分析表明:新型系统可增加50%供热能力或减少6%能源消耗。
熱電聯產麵臨著兩箇嚴重問題:供熱麵積與質量的增加導緻供熱不足;電廠凝汽器循環冷卻水存在大量低品質熱量浪費。為同時解決這兩箇問題,提齣瞭一種利用噴射式熱泵彊化集中供熱的新型EDH-CHP繫統。該繫統從循環冷卻水中迴收餘熱,併將餘熱應用于集中供熱;另外通過增大供熱一次網的供迴水溫差提高原一次網的供熱能力。與原繫統相比,新型繫統在熱力首站和熱力站分彆增加一檯噴射式熱泵(HP1、HP2)。分彆對兩檯噴射式熱泵進行熱力學分析及性能實驗研究。分析結果錶明:HP1和HP2均能有效提高繫統性能。實驗結果錶明:HP1的COP可達1.4~1.9,HP2可降低一次網迴水至35℃。經典案例分析錶明:新型繫統可增加50%供熱能力或減少6%能源消耗。
열전련산면림착량개엄중문제:공열면적여질량적증가도치공열불족;전엄응기기순배냉각수존재대량저품질열량낭비。위동시해결저량개문제,제출료일충이용분사식열빙강화집중공열적신형EDH-CHP계통。해계통종순배냉각수중회수여열,병장여열응용우집중공열;령외통과증대공열일차망적공회수온차제고원일차망적공열능력。여원계통상비,신형계통재열력수참화열력참분별증가일태분사식열빙(HP1、HP2)。분별대량태분사식열빙진행열역학분석급성능실험연구。분석결과표명:HP1화HP2균능유효제고계통성능。실험결과표명:HP1적COP가체1.4~1.9,HP2가강저일차망회수지35℃。경전안례분석표명:신형계통가증가50%공열능력혹감소6%능원소모。
There are two serious problems in the combined heat and power system:with the increase of heating area and quality, the heating is insufficient; the heavy discharge of low-grade thermal energy in the circulating cooling water wastes energy seriously. A novel system is presented based on ejector heat pumps (EDH-CHP) to solve the two problems by improving the heating capacity of the district heating system. It recycles the waste heat from circulating cooling water for district heating, and increases the heating capacity of the existing heating network by increasing the temperature difference between the water streams supplying and returning the original heating network. Compared with a traditional system, the new one has an additional ejector heat pump in the heating station, named HP1, and another ejector heat pump in the heating substation, named HP2. Thermodynamic analysis and experimental study are carried out for the two ejector heat pumps. The results show that both HP1 and HP2 can improve the performance of district heating under normal working conditions. Experimental results show that the COP of HP1 can reach 1.4-1.9 and the temperature of returning water in the original network can be decreased to 35℃ in HP2. A typical case study shows that the EDH-CHP system can improve the heating capacity of the existing heating network by 50% by adding 30% steam consumption, or improve the heating capacity of the existing heating network by 9% at the same steam consumption, or decrease the energy consumption by 6%at the same heating capacity.
