基于集总参数模型的ORVR机动车加油过程模拟

陈家庆; 汤水清; 刘美丽; 张雪; 俞接成

doi:10.12030/j.cjee.201707123

环境工程学报

基于集总参数模型的ORVR机动车加油过程模拟

, , , ,

陈家庆, 汤水清, 刘美丽, 张雪, 俞接成. 基于集总参数模型的ORVR机动车加油过程模拟[J]. 环境工程学报, 2018, 12(2): 365-373. doi: 10.12030/j.cjee.201707123

引用本文:

陈家庆, 汤水清, 刘美丽, 张雪, 俞接成. 基于集总参数模型的ORVR机动车加油过程模拟[J]. 环境工程学报, 2018, 12(2): 365-373. doi: 10.12030/j.cjee.201707123

CHEN Jiaqing, TANG Shuiqing, LIU Meili, ZHANG Xue, YU Jiecheng. Simulation of ORVR vehicle refueling based on lumped parameter model[J]. Chinese Journal of Environmental Engineering, 2018, 12(2): 365-373. doi: 10.12030/j.cjee.201707123

Citation:

CHEN Jiaqing, TANG Shuiqing, LIU Meili, ZHANG Xue, YU Jiecheng. Simulation of ORVR vehicle refueling based on lumped parameter model[J]. Chinese Journal of Environmental Engineering, 2018, 12(2): 365-373. doi: 10.12030/j.cjee.201707123

基于集总参数模型的ORVR机动车加油过程模拟

1.
北京石油化工学院环境工程系,北京 102617
2.
中国核电工程有限公司,北京 100840
基金项目:
北京市教委科技发展计划重点项目暨北京市自然科学基金重点项目(B类)(KZ201410017019)

Simulation of ORVR vehicle refueling based on lumped parameter model

1.
Department of Environmental Engineering, Beijing Institute of Petrochemical Technology, Beijing 102617, China
2.
China Nuclear Power Engineering Co.Ltd., Beijing 100840, China
Fund Project:

摘要: 在机动车加油过程中,由于蒸发排放产生的挥发性有机物不仅是大气中VOCs的重要源头之一,而且会造成巨大的能源损失；因此, 车载加油油气回收技术(ORVR)逐渐受到重视。获得关键部位的压力变化对设计ORVR系统至关重要,但国内外针对机动车加油过程流动机理的研究工作较少。针对ORVR机动车加油过程,建立了一种包括加油管、燃油箱和翻车阀等的集总参数模型,通过MATLAB编程对建立的微分控制方程进行了隐式求解,并通过实验验证了集总参数模型的可靠性；研究了燃油系统的几何结构、加油枪加油速率、燃油挥发性、燃油箱中的空气/燃油蒸汽比例等参数对压力变化的影响程度,成功预测了在加油过程中加油管和燃油箱内气相空间的压力变化。计算结果表明,在加油过程中,加油速度和汽油的RVP值对气相压力的影响最大；翻车阀直径对气相压力的影响次之；加油管直径和空隙比对气相压力几乎没有影响。
- 机动车 /
- 加油排放 /
- 集总参数模型 /
- 气相压力
Abstract: Evaporative emissions of oil gas during vehicle refueling are not only main sources of volatile organic compounds (VOCs) in the atmosphere, but also cause great energy losses. Therefore, the technology of on-board refueling vapor recovery (ORVR)has attracted more and more attention. The gas pressure is a critical parameter during the design of ORVR systems.At present, there are few researches on the flow mechanism of vehicle refueling process. In this paper, a lumped parameter model covering filler pipe, fuel tank and vent valve was established to simulate the refueling process for the vehicle with ORVR system. The model equations were solved through the MATLAB programming based on implicit methods. The reliability of the lumped parameter model was verified by the experiment results. The influences of some parameters on fuel vapor pressure, such as geometric structure of fueling system, fuel flow rate of fuel nozzle, fuel evaporation and the ratio of air and fuel vapor in the fuel tank, were investigated. The variations of vapor pressure in the gas-phase space of the filler pipe and the fuel tank during the fueling process were estimated successfully. The results show that the different parameters have different influenceson gas pressure, and the order is the refueling rate and the RVP value of gasoline,the diameter of the reversing valve,the diameter and void ratio of the filler pipe.
- motor vehicle /
- refueling emission /
- lumped parameter model /
- vapor phase pressure

[1]	YAMADA H, INOMATA S, TANIMOTOH.Refueling emissions from cars in Japan: Compositions, temperature dependence and effect of vapor liquefied collection system[J].Atmospheric Environment,2015,0:455-462
[2]	LIU H, MAN H, TSCHANTZ M, et al.VOC from vehicular evaporation emissions: Status and control strategy[J].Environmental Science & Technology,2015,9(24):14424-14431
[3]	YAMADA H.Contribution of evaporative emissions from gasoline vehicles toward total VOC emissions in Japan[J].Science of the Total Environment,2013,9(2):143-149
[4]	黄玉虎, 常耀卿, 任碧琪,等.北京市1990—2030年加油站汽油VOCs排放清单[J].环境科学研究,2016,9(7):945-951
[5]	YANG X F, LIU H, CUI H Y, et al.Vehicular volatile organic compounds losses due to refueling and diurnal process in China:2010-2050[J].Journal of Environmental Sciences,2015,3(7):88-96
[6]	HOLEMBEAK B.汽车燃油和排放控制系统结构诊断与维修[M].北京: 机械工业出版社,2007
[7]	SKELTON E,RECTOR L.Onboard refueling vapor recovery systems, analysis of widespread use[R].The Clean Air Association of the Northeast States(NESCAUM) Complete Final Report, August 20,7
[8]	朱玲, 陈家庆, 王耔凝.车载加油油气回收ORVR系统应用进展[J].油气储运,2015,4(5):469-476
[9]	任碧琪, 常耀卿, 刘明宇, 等.北京加油站加油速率与车载油气回收系统的兼容性[J].环境工程,2015,3(S1):487-490
[10]	韦海燕, 何仁, 蔡锦榕.加载ORVR系统的轿车加油排放数学模型[J].交通运输工程学报, 2010,0(1):56-59
[11]	STONEMAN S.On the design of automotive fuel filler pipes[J].Automotive Engineer,1997,2(1):32-36
[12]	SINHA N, THOMPSON R, HARRIGAN M.Computational simulation of fuel shut-off during refueling[C].SAE Technical Paper:981377
[13]	BANERJEE R.CFD analysis of two-phase flow with vapor emission for automotive refueling system[D].Missouri, USA: University of Missouri-Rolla, 2001
[14]	BANERJEE R, BURKE C, GEPER D.Experimental and numerical study of gasoline refueling nozzle spray pattern[C].SAE Technical Paper:2007-01-1400
[15]	FACKRELL S A.A lumped parameter model for the filling of an automotive fuel tank[D].Canada: University of Windsor, 2001
[16]	FACKRELL S, MASTROIANNI M, RANKIN G W.Model of the filling of an automotive fuel tank[J].Mathematical and Computer Modelling,2003,8(5/6):519-532
[17]	GODBILLE A, BAYLISS M T, PIERSON S.A parametric vehicle fuel tank filling system model[C].SAE Technical Paper:2007-01-1741
[18]	REDDY S R.Mathematical models for predicting vehicle refueling vapor generation[C].SAE Technical Paper:2010-01-1279
[19]	SOARES T,SANTOS E.Preliminary design of fuel filling systems applying the extended bernoulli equation on numerical calculation tools[C].SAE Technical Paper:2013-36-0522E
[20]	汤水清.ORVR车辆加油过程的流动机理与特性研究[D].北京: 北京化工大学, 2016

点击查看大图

计量

文章访问数: 2900
HTML全文浏览数: 2400
PDF下载数: 570
施引文献: 0

基于集总参数模型的ORVR机动车加油过程模拟

1. 北京石油化工学院环境工程系,北京 102617
2. 中国核电工程有限公司,北京 100840

基金项目:

北京市教委科技发展计划重点项目暨北京市自然科学基金重点项目(B类)(KZ201410017019)

关键词:

摘要: 在机动车加油过程中,由于蒸发排放产生的挥发性有机物不仅是大气中VOCs的重要源头之一,而且会造成巨大的能源损失；因此, 车载加油油气回收技术(ORVR)逐渐受到重视。获得关键部位的压力变化对设计ORVR系统至关重要,但国内外针对机动车加油过程流动机理的研究工作较少。针对ORVR机动车加油过程,建立了一种包括加油管、燃油箱和翻车阀等的集总参数模型,通过MATLAB编程对建立的微分控制方程进行了隐式求解,并通过实验验证了集总参数模型的可靠性；研究了燃油系统的几何结构、加油枪加油速率、燃油挥发性、燃油箱中的空气/燃油蒸汽比例等参数对压力变化的影响程度,成功预测了在加油过程中加油管和燃油箱内气相空间的压力变化。计算结果表明,在加油过程中,加油速度和汽油的RVP值对气相压力的影响最大；翻车阀直径对气相压力的影响次之；加油管直径和空隙比对气相压力几乎没有影响。

English Abstract

Simulation of ORVR vehicle refueling based on lumped parameter model

1. Department of Environmental Engineering, Beijing Institute of Petrochemical Technology, Beijing 102617, China
2. China Nuclear Power Engineering Co.Ltd., Beijing 100840, China

Fund Project:

Keywords:

Abstract: Evaporative emissions of oil gas during vehicle refueling are not only main sources of volatile organic compounds (VOCs) in the atmosphere, but also cause great energy losses. Therefore, the technology of on-board refueling vapor recovery (ORVR)has attracted more and more attention. The gas pressure is a critical parameter during the design of ORVR systems.At present, there are few researches on the flow mechanism of vehicle refueling process. In this paper, a lumped parameter model covering filler pipe, fuel tank and vent valve was established to simulate the refueling process for the vehicle with ORVR system. The model equations were solved through the MATLAB programming based on implicit methods. The reliability of the lumped parameter model was verified by the experiment results. The influences of some parameters on fuel vapor pressure, such as geometric structure of fueling system, fuel flow rate of fuel nozzle, fuel evaporation and the ratio of air and fuel vapor in the fuel tank, were investigated. The variations of vapor pressure in the gas-phase space of the filler pipe and the fuel tank during the fueling process were estimated successfully. The results show that the different parameters have different influenceson gas pressure, and the order is the refueling rate and the RVP value of gasoline,the diameter of the reversing valve,the diameter and void ratio of the filler pipe.

全文HTML

参考文献 (20)

下载: 全尺寸图片幻灯片

返回文章

用微信扫码二维码

分享至好友和朋友圈

基于集总参数模型的ORVR机动车加油过程模拟

Simulation of ORVR vehicle refueling based on lumped parameter model

计量

出版历程

基于集总参数模型的ORVR机动车加油过程模拟

English Abstract

Simulation of ORVR vehicle refueling based on lumped parameter model

全文HTML

目录