舟山经济特区保税燃料油加注过程油气挥发探索
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摘要
保税燃料油加注过程中油品的挥发损耗,造成了能源浪费、环境污染、健康危害、安全隐患以及油品质量的下降,因此油品挥发引起的损耗一直吸引着国内外学者的关注。本文为减少和预测保税燃料加注过程的挥发,试图对舟山保税燃料油加注过程的挥发提供理论支持,并为后续的研究者提供方法上的建议。
Abstact:The volatile loss of oil in the process of bonded fuel oil filling causes energy waste, environmental pollution, health hazards, safety hazards and the decline of oil quality. Therefore, the loss caused by oil volatile has attracted the attention of scholars at home and abroad. In order to reduce and predict the volatile of the bonded fuel injection process, this paper attempts to provide theoretical support for the volatile of the Zhoushan bonded fuel oil filling process, and provides methodological advice for subsequent researchers.
Abstact:The volatile loss of oil in the process of bonded fuel oil filling causes energy waste, environmental pollution, health hazards, safety hazards and the decline of oil quality. Therefore, the loss caused by oil volatile has attracted the attention of scholars at home and abroad. In order to reduce and predict the volatile of the bonded fuel injection process, this paper attempts to provide theoretical support for the volatile of the Zhoushan bonded fuel oil filling process, and provides methodological advice for subsequent researchers.
引文
[1]Gunner T J. Physical Behavior of Crude Oil During Transportation and Its Impact on the Carriage of Crude Oil by Sea[J].Marine Technology,2002,39(4):256-265.
[2]TAmaddoni M,Sotudeh-gharebagh R,nario S, et al.Experimental study of the VOC emitted from crude oil tankers[J].Process Safety and Environmental Protection,2014,92(6):929-937.
[3]Renato Rota SF,Sabrina Astori,Renato Paludetto.Emissions from Fixed-Roof Storage Tanks:Modeling and Experiments[J].Ind Eng Chem Res,2001,40(24):5847-5857.
[4]杨宏伟.轻质燃料油挥发损耗控制软浮顶油罐技术研究[D].中国矿业大学,2014.
[5]Zhu L,Chen J,Liu Y, et al. Experimental analysis of the volatile process for gasoline[J]. Journal of Loss Prevention in the Process Industries,2012,25(6):916-922.
[6]Fingas M F.Studies on the volatile of crude oil and petroleum products:I.the relationship between volatile rate and time[J].Journal of Hazardous Materials,1997,56(3):227-236.
[7]Fingas M F.Studies on the volatile of crude oil a nd petroleum products II. Boundary layer regulation[J].Journal of Hazardous Materials,1998,57(1–3):41-58.
[8]Fingas M F.Studies on the volatile of crude oil a nd petroleum products:the relationship between volatile rate and time[J].Fuel and Energy Abstracts,1998,39(3):178.
[9]Okamoto K,Watanabe N,Hagimoto Y,et al.Changes i n volatile rate and vapor pressure of gasoline with progress of volatile[J].Fire Safety Journal,2009,44(5):756-763.
[10]胡宗杰,于水,李理光.燃料油膜挥发特性与混合气形成边界条件的研究[J].内燃机学报,2005(06):490-496.
[11]朱哲野,卢金树,刘枫琛,等.油舱透气晃荡效应研究模型实验设计[J].油气储运,2014(06):657-661.
[12]卢金树,朱哲野,刘枫琛.限制空间装货过程中透气变化的晃荡效应[J].中国石油大学学报(自然科学版),2014(05):160-164.
[13] Martens O.M O. Control of VOC Emissions from Crude Oil Tankers[J]. Marine Technology and SNAME News,2001,38(3):208-217.
[14] D.Mackay R S M. volatile Rates of Liquid Hydrocarbon Spills On Land and Wate[J]. The Canadian lournal of Chemical Engineering, 1973, 51(8):434-439.
[15] Stiver W. Weathering properties of crude oils when spilled on water[J]. Master of Applied Science Thesis, Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, 1973, 1984:4-7(110-126,132-137.
[16] Yang W C,Wang H. Modeling of oil volatile in aqueous environment[J]. Water Research, 1977, 11(10):879-887.
[17] Fallah M H,Stark R M. Random model of volatile of oil at sea[J]. Science of The Total Environment,1976, 5(1):95-109.
[18]黄维秋,钟秦.非稳态油品挥发的数值分析Ⅰ.数学模型的建立[J].石油学报(石油加工),2003(06):58-63.
[19]黄维秋,钟秦.非稳态油品挥发的数值分析Ⅱ.数值分析及应用实例[J].石油学报(石油加工),2004(01):52-57.
[20]卢金树,吴宛青.基于变质量热力学的油舱气相区动态模型[J].中国航海,2007(02):99-102.
[21] Banerjee R. Turbulent conjugate heat and mass transfer from the surface of a binary mixture of ethanol/iso-octane in a countercurrent stratified twophase flow system[J]. International Journal of Heat and Mass Transfer, 2008, 51(25-26):5958-5974.
[22]Haelssig J B,Tremblay A Y,Thibault J, et al. Direct numerical simulation of interphase heat and mass transfer in multicomponent vapour–liquid flows[J].International Journal of Heat and Mass Transfer, 2010,53(19-20):3947-3960.
[23] Galeev A D,Salin A A,Ponikarov S I.Numerical si mulation of volatile of volatile liquids[J]. Journal of Loss Prevention in the Process Industries, 2015, 38(39-49.
[24]张乾,卢金树,邓佳佳,朱祥,陈云,石敦章.油船装货过程液舱油品挥发的数值研究[J].浙江海洋大学学报(自然科学版),2017,36(04):368-372.
[2]TAmaddoni M,Sotudeh-gharebagh R,nario S, et al.Experimental study of the VOC emitted from crude oil tankers[J].Process Safety and Environmental Protection,2014,92(6):929-937.
[3]Renato Rota SF,Sabrina Astori,Renato Paludetto.Emissions from Fixed-Roof Storage Tanks:Modeling and Experiments[J].Ind Eng Chem Res,2001,40(24):5847-5857.
[4]杨宏伟.轻质燃料油挥发损耗控制软浮顶油罐技术研究[D].中国矿业大学,2014.
[5]Zhu L,Chen J,Liu Y, et al. Experimental analysis of the volatile process for gasoline[J]. Journal of Loss Prevention in the Process Industries,2012,25(6):916-922.
[6]Fingas M F.Studies on the volatile of crude oil and petroleum products:I.the relationship between volatile rate and time[J].Journal of Hazardous Materials,1997,56(3):227-236.
[7]Fingas M F.Studies on the volatile of crude oil a nd petroleum products II. Boundary layer regulation[J].Journal of Hazardous Materials,1998,57(1–3):41-58.
[8]Fingas M F.Studies on the volatile of crude oil a nd petroleum products:the relationship between volatile rate and time[J].Fuel and Energy Abstracts,1998,39(3):178.
[9]Okamoto K,Watanabe N,Hagimoto Y,et al.Changes i n volatile rate and vapor pressure of gasoline with progress of volatile[J].Fire Safety Journal,2009,44(5):756-763.
[10]胡宗杰,于水,李理光.燃料油膜挥发特性与混合气形成边界条件的研究[J].内燃机学报,2005(06):490-496.
[11]朱哲野,卢金树,刘枫琛,等.油舱透气晃荡效应研究模型实验设计[J].油气储运,2014(06):657-661.
[12]卢金树,朱哲野,刘枫琛.限制空间装货过程中透气变化的晃荡效应[J].中国石油大学学报(自然科学版),2014(05):160-164.
[13] Martens O.M O. Control of VOC Emissions from Crude Oil Tankers[J]. Marine Technology and SNAME News,2001,38(3):208-217.
[14] D.Mackay R S M. volatile Rates of Liquid Hydrocarbon Spills On Land and Wate[J]. The Canadian lournal of Chemical Engineering, 1973, 51(8):434-439.
[15] Stiver W. Weathering properties of crude oils when spilled on water[J]. Master of Applied Science Thesis, Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, 1973, 1984:4-7(110-126,132-137.
[16] Yang W C,Wang H. Modeling of oil volatile in aqueous environment[J]. Water Research, 1977, 11(10):879-887.
[17] Fallah M H,Stark R M. Random model of volatile of oil at sea[J]. Science of The Total Environment,1976, 5(1):95-109.
[18]黄维秋,钟秦.非稳态油品挥发的数值分析Ⅰ.数学模型的建立[J].石油学报(石油加工),2003(06):58-63.
[19]黄维秋,钟秦.非稳态油品挥发的数值分析Ⅱ.数值分析及应用实例[J].石油学报(石油加工),2004(01):52-57.
[20]卢金树,吴宛青.基于变质量热力学的油舱气相区动态模型[J].中国航海,2007(02):99-102.
[21] Banerjee R. Turbulent conjugate heat and mass transfer from the surface of a binary mixture of ethanol/iso-octane in a countercurrent stratified twophase flow system[J]. International Journal of Heat and Mass Transfer, 2008, 51(25-26):5958-5974.
[22]Haelssig J B,Tremblay A Y,Thibault J, et al. Direct numerical simulation of interphase heat and mass transfer in multicomponent vapour–liquid flows[J].International Journal of Heat and Mass Transfer, 2010,53(19-20):3947-3960.
[23] Galeev A D,Salin A A,Ponikarov S I.Numerical si mulation of volatile of volatile liquids[J]. Journal of Loss Prevention in the Process Industries, 2015, 38(39-49.
[24]张乾,卢金树,邓佳佳,朱祥,陈云,石敦章.油船装货过程液舱油品挥发的数值研究[J].浙江海洋大学学报(自然科学版),2017,36(04):368-372.
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