低温与超导
低溫與超導
저온여초도
CRYOGENICS AND SUPERCONDUCTIVITY
2010年
3期
16-20
,共5页
黄美斌%沈清清%林文胜%顾安忠%黄建民
黃美斌%瀋清清%林文勝%顧安忠%黃建民
황미빈%침청청%림문성%고안충%황건민
间接冷冻法海水淡化%中间冷媒%LNG冷能%相变
間接冷凍法海水淡化%中間冷媒%LNG冷能%相變
간접냉동법해수담화%중간냉매%LNG랭능%상변
Indirect freezing seawater desalination%Middle refrigerant%LNG cold energy%Phase change
淡水资源缺乏已成为全球性问题,海水淡化方法的研究也日益引起重视.液化天然气在气化时有大量冷能可以利用,考虑到冷冻法海水淡化需要大量冷能,可以把LNG的冷能和冷冻法海水淡化结合起来,形成利用LNG能冷的冷冻法海水淡化流程.文中以间接冷冻法为例,介绍了LNG冷能在海水淡化中的利用;并针对系统中冷媒是否相变而提出了无相变流程和有相变流程,通过HYSYS软件进行模拟,比较分析了各自的优缺点.结果说明无相变流程设备简单、控制方便,但冷媒质量流量大;有相变流程冷媒质量流量小,但流程、设备与控制均较复杂,气相部分体积流量较大,使得气态管路直径较大,相应的换热器尺寸也会更大.
淡水資源缺乏已成為全毬性問題,海水淡化方法的研究也日益引起重視.液化天然氣在氣化時有大量冷能可以利用,攷慮到冷凍法海水淡化需要大量冷能,可以把LNG的冷能和冷凍法海水淡化結閤起來,形成利用LNG能冷的冷凍法海水淡化流程.文中以間接冷凍法為例,介紹瞭LNG冷能在海水淡化中的利用;併針對繫統中冷媒是否相變而提齣瞭無相變流程和有相變流程,通過HYSYS軟件進行模擬,比較分析瞭各自的優缺點.結果說明無相變流程設備簡單、控製方便,但冷媒質量流量大;有相變流程冷媒質量流量小,但流程、設備與控製均較複雜,氣相部分體積流量較大,使得氣態管路直徑較大,相應的換熱器呎吋也會更大.
담수자원결핍이성위전구성문제,해수담화방법적연구야일익인기중시.액화천연기재기화시유대량랭능가이이용,고필도냉동법해수담화수요대량랭능,가이파LNG적랭능화냉동법해수담화결합기래,형성이용LNG능랭적냉동법해수담화류정.문중이간접냉동법위례,개소료LNG랭능재해수담화중적이용;병침대계통중냉매시부상변이제출료무상변류정화유상변류정,통과HYSYS연건진행모의,비교분석료각자적우결점.결과설명무상변류정설비간단、공제방편,단냉매질량류량대;유상변류정냉매질량류량소,단류정、설비여공제균교복잡,기상부분체적류량교대,사득기태관로직경교대,상응적환열기척촌야회경대.
Lack of freshwater resources has become a global problem, and desalination methods have been studied more and more. LNG will release a lot of cold energy during its vaporization process. Considering that freezing desalination systems needs much cold energy, they can be integrated with utilization of LNG cold energy. This paper studied indirect freezing seawater desalination with LNG cold energy utilization, and presented two cycle schemes in accordance with the state of middle refrigerant, that were non-phase-change process and phase-change process. The two different cycles were simulated through HYSYS software. In the end, the advantages and disadvantages of the two processes were discussed. The results show that non-phase process can be controlled easily, but it has much larger refrigerant flow rate; for the phase-change process, the refrigerant mass flow rate is smaller, but the controlling process and equipments are more complex. The gas volumetric flow rate is so large that the diameter of gas pipeline and the size of heat exchangers will be larger.
