低温与超导
低溫與超導
저온여초도
CRYOGENICS AND SUPERCONDUCTIVITY
2010年
1期
17-19
,共3页
3S技术%分离器%LNG%液化率
3S技術%分離器%LNG%液化率
3S기술%분리기%LNG%액화솔
3S technology%Separator%LNG%Liquation ratio
通过建立低温下3S分离器的一维稳定流动数学模型,对采用3S分离器的天然气液化流程进行了探索性的理论研究.结果表明采用3S分离器的液化技术效率远高于J-T阀,其液化率与采用膨胀机相当,由于3S分离器不仅可带液工作,且无运动件,在小型天然气液化装置中有广阔的应用前景,但需解决一系列技术问题.
通過建立低溫下3S分離器的一維穩定流動數學模型,對採用3S分離器的天然氣液化流程進行瞭探索性的理論研究.結果錶明採用3S分離器的液化技術效率遠高于J-T閥,其液化率與採用膨脹機相噹,由于3S分離器不僅可帶液工作,且無運動件,在小型天然氣液化裝置中有廣闊的應用前景,但需解決一繫列技術問題.
통과건립저온하3S분리기적일유은정류동수학모형,대채용3S분리기적천연기액화류정진행료탐색성적이론연구.결과표명채용3S분리기적액화기술효솔원고우J-T벌,기액화솔여채용팽창궤상당,유우3S분리기불부가대액공작,차무운동건,재소형천연기액화장치중유엄활적응용전경,단수해결일계렬기술문제.
A one-dimensional steady model for supersonic swirling separator in cryogenic process is established. Application of 3S technology in LNG process is theoretical studied. The results show the liquation efficient of 3S separator is far higher than J-T valve and is nearly to that of expander. Thus, it has wide perspective in minor LNG plant because 3S separator has no motion part and can work in vapor-liquid phase product. However, many difficulties in technology need to be researched.
