Journal of Jilin University(Engineering and Technology Edition) ›› 2019, Vol. 49 ›› Issue (6): 1920-1928.doi: 10.13229/j.cnki.jdxbgxb20180907

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Effects of butanol/diesel blends on combustion and particulate emission characteristics of compression ignition engine

Qiao WANG(),Wan-chen SUN,Liang GUO(),Peng CHENG,Lu-yan FAN,Guo-liang LI   

  1. State Key Laboratory of Automotive Simulation and Control, Jilin University, Changchun 130022,China
  • Received:2018-09-07 Online:2019-11-01 Published:2019-11-08
  • Contact: Liang GUO E-mail:723320413@qq.com;liangguo@jlu.edu.cn

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Abstract:

The effects of butanol/diesel blends on engine combustion and particulate emission characteristics under different operating conditions and blended ratios were investigated on a four-cylinder, common rail, turbocharged diesel engine. The results indicates that the increase in butanol blended ratio leads to prolonged ignition delay, increased premixed combustion and delayed combustion phase, the effect of which is more significant under low load conditions. Butanol/diesel fuel can dramatically reduce exhaust smoke and particulate emissions without increasing NO x emissions, however, the thermal efficiency is slightly lower than that of pure diesel. Most of the particulate emissions from butanol/diesel blended fuel are ultrafine particles, with a ratio of more than 99%. With the increase in butanol ratio, the number concentration of particles in each particle diameter range decreases, which is more distinctive under high load condition. The concentration of accumulated particles and total particles increase significantly with the introduction of Exhaust Gas Re-circulation (EGR). However, the addition of butanol enhanced the tolerance of the mixed fuel to EGR. Butanol/diesel blend fuel combined with EGR strategy can reduce NO x and particulate emissions simultaneously.

Key words: power machinery and engineering, compression ignition engine, butanol/diesel blends, particle emission characteristics

CLC Number: 

  • TK421.2

Table 1

Engine specification"

项 目 指标
型式 4缸、4冲程、增压中冷
(缸径×行程)/(mm×mm) 93×102
排量/L 2.771
压缩比 17.2∶1
燃油供给系统 高压共轨
喷油器喷孔数目 6
喷射锥角/(°) 150
喷孔直径/mm 0.13
[标定功率/转速]/[kW/(r·min-1)] 80/3400
[最大转矩/转速]/[(N·m)/(r·min-1)] 260/1800

Table 2

Test fuel properties"

项目 柴油 正丁醇 B10 B30
密度(15 ℃)/(kg·m-3 821.9 810.9 820.0 816.8
C质量分数/% 84.7 64.9 82.72 78.76
H质量分数/% 13.2 13.5 14.08 13.16
O质量分数/% 0 21.6 2.07 6.73
十六烷值 52 25 47.8 37.3
沸点/℃ 180~230 117.5 - -
低热值/(MJ·kg-1 43.85 33.1 42.62 40.42
汽化潜热/(kJ·kg-1 270 582 300 362.6

Fig.1

Schematic diagram of test engine configuration"

Fig.2

Effects of butanol blending ratio on in-cylinder pressure and rate of heat release"

Fig.3

Comparison of premixed combustion ratios of butanol / diesel blend fuels with different mixing ratios"

Fig.4

Comparison of combustion characteristic parameters of butanol / diesel blend uels with different mixing ratios"

Fig.5

Comparison of emission characteristics of butanol / diesel blend fuels with different mixing ratios"

Fig.6

Particle size distribution characteristic of butanol/diesel blends"

Fig.7

Comparison of the number concentration for different mode particle when fueled butanol/diesel blends"

Fig.8

Effects of EGR on particle size distribution of butanol/diesel blends"

Fig.9

Effects of EGR on the number concentration of different mode particle when fueled butanol/diesel blends"

1 Jin C , Yao M F , Liu H F , et al . Progress in the production and application of n-butanol as a biofuel[J]. Renewable and Sustainable Energy Reviews, 2011, 15(8): 4080-4106.
2 郑尊清, 李善举, 刘海峰, 等 . 正丁醇燃料特性对柴油机低温燃烧影响的机理[J]. 内燃机学报, 2013, 31(2): 97-102.
2 Zheng Zun-qing , Li Shan-ju , Liu Hai-feng , et al . Mechanism of effects of n-butanol properties on low temperature combustion in a diesel engine[J]. Transactions of CSICE, 2013, 31(2): 97-102.
3 Li J , Chen X R , Qi B K , et al . Efficient production of acetone-butanol-ethanol (ABE) from cassava by a fermentation-pervaporation coupled process[J]. Bioresource Technology, 2014, 169: 251-257.
4 Kheyrandish M , Asadollahi M A , Jeihanipour A , et al . Direct production of acetone-butanol-ethanol from waste starch by free and immobilized Clostridium acetobutylicum[J]. Fuel, 2015, 142: 129-133.
5 Moss J T , Berkowitz A M , Oehlschlaeger M A , et al . An experimental and kinetic modeling study of the oxidation of the four isomers of butanol[J]. Journal of Physical Chemistry A, 2008, 112(43): 10843-10855.
6 Sarathy S M , Thomson M J , Togbé C , et al . An experimental and kinetic modeling study of n-butanol combustion[J]. Combustion and Flame, 2009, 156(4): 852-864.
7 Sarathy S M , Vranckx S , Yasunaga K , et al . A comprehensive chemical kinetic combustion model for the four butanol isomers[J]. Combustion and Flame, 2012, 159(6): 2028-2055.
8 Wei H Q , Feng D G , Pan J Y , et al . Knock characteristics of SI engine fueled with n-butanol in combination with different EGR rate[J]. Energy, 2017, 118: 190-196.
9 Wallner T , Frazee R . Study of regulated and non-regulated emissions from combustion of gasoline , alcohol fuels and their blends in a Di-Si engine[C]∥SAE Papers, 2010-01-1571.
10 Rakopoulos D C , Rakopoulos C D , Giakoumis E G , et al . Effects of butanol–diesel fuel blends on the performance and emissions of a high-speed DI diesel engine[J]. Energy Conversion and Management, 2010, 51(10): 1989-1997.
11 Gu X L , Li G , Jiang X , et al . Experimental study on the performance and emissions from a low-speed light-duty diesel engine fueled with n-butanol-diesel and isobutanol-diesel blends[J]. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 2013, 227(2): 261-271.
12 Yao M F , Wang H , Zheng Z Q , et al . Experimental study of n-butanol additive and multi-injection on HD diesel engine performance and emissions[J]. Fuel, 2010, 89(9): 2191-2201.
13 楼狄明, 徐宁, 范文佳, 等 . 国Ⅴ柴油机燃用丁醇-柴油混合燃料颗粒粒径分布特性试验研究[J]. 环境科学, 2014, 35(2): 526-532.
13 Lou Di-ming , Xu Ning , Fan Wen-jia , et al . Particulate distribution characteristics of chinese phrase V diesel engine based on butanol-diesel blends[J]. Environmental Science, 2014, 35(2): 526-532.
14 Cheng X B , Li S , Yang J , et al . Effect of n-butanol-diesel blends on partially premixed combustion and emission characteristics in a light-duty engine[C]∥SAE Papers, 2014-01-2675.
15 瞿磊, 王忠, 胡慧慧, 等 . 正丁醇对柴油机颗粒组分与形貌特征的影响[J]. 环境科学研究, 2015, 28(10): 1518-1523.
15 Qu Lei , Wang Zhong , Hu Hui-hui , et al . Effects of butanol on components and morphology of particles emitted by diesel engines[J]. Research of Environmental Sciences, 2015, 28(10):1518-1523.
16 孙万臣, 李鹏磊, 郭亮, 等 . 喷油参数对丁醇/柴油混合燃料燃烧及排放影响[J]. 内燃机学报, 2017, 35(5): 385-392.
16 Sun Wan-chen , Li Peng-lei , Guo Liang , et al . Effects of injection parameters on combustion and emissions on a butanol/diesel blend engine[J]. Transactions of CSICE, 2017, 35(5): 385-392.
17 郭亮, 杨文昭, 王云开, 等 . 废气再循环对丁醇/柴油混合燃料发动机的影响[J]. 吉林大学学报: 工学版, 2017, 47(6): 1767-1774.
17 Guo Liang , Yang Wen-zhao , Wang Yun-kai , et al . Effects of EGR on performance and emission of an internal combustion engine fueled with butanol-diesel blends[J]. Journal of Jilin University (Engineering and Technology Edition), 2017, 47(6): 1767-1774.
18 Myung C L , Ko A , Park S . Review on characterization of nano-particle emissions and PM morphology from internal combustion engines: Part 1[J]. International Journal of Automotive Technology, 2014, 15(2): 203-218.
19 Ken D , Lang T , Albert J L , et al . Combustion-derived nanoparticles: a review of their toxicology following inhalation exposure[J]. Particle and Fibre Toxicology, 2005, 2(1): 10.
20 Wadumesthrige K , Ng K Y S . Properties of butanol-biodiesel-ULSD ternary mixtures[C]∥SAE Papers,2010-01-2133.
21 Du J , Sun W , Guo L , et al . Experimental study on fuel economies and emissions of direct-injection premixed combustion engine fueled with gasoline/diesel blends[J]. Energy Conversion and Management, 2015, 100: 300-309.
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