| 引燃柴油量及喷射间隔对直喷天然气发动机排放的影响 |
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| 引用本文: | 李孟涵,张强,李国祥,邵思东.引燃柴油量及喷射间隔对直喷天然气发动机排放的影响[J].农业工程学报,2016,32(6):95-100. |
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| 作者姓名: | 李孟涵 张强 李国祥 邵思东 |
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| 作者单位: | 1. 山东大学能源与动力工程学院,济南,250061;2. 潍柴动力内燃机可靠性国家重点实验室,潍坊,261001 |
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| 基金项目: | 国家高技术船舶科研项目(2060303) |
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| 摘 要: | 为优化直喷天然气发动机的喷射策略,在一台六缸电控直喷天然气发动机上,用试验方法研究了引燃柴油量及柴油/天然气喷射间隔对发动机HC、CO和NO_x排放的影响。试验结果表明:喷射间隔一定时,HC排放随引燃柴油喷射量的增加而降低;在引燃柴油喷射量为4.0 mg时,HC排放随喷射间隔的增加而增加;引燃柴油喷射量在6.0~11.5 mg范围内,HC排放在喷射间隔从0.5 ms变化到1.1 ms时,变化较小;喷射间隔增加到1.4 ms时,HC排放升高趋势明显。CO排放随引燃柴油喷射量的变化规律为先降低后升高;在不同的柴油喷射量下增加喷射间隔,CO排放均降低。NO_x排放随引燃柴油喷射量的增加先降低后升高;在喷射间隔为0.5 ms时,NO_x排放相对较小,在喷射间隔为1.4 ms时,NO_x排放最高。增加引燃柴油喷射量有利于HC的减排,对CO排放的影响较小,但会导致NO_x排放的恶化;增加喷射间隔会促使HC和NO_x排放的升高,但CO排放有所降低。
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| 关 键 词: | 发动机 柴油机 燃油喷射 引燃柴油量 喷射间隔 天然气发动机 排放性 |
| 收稿时间: | 2015/10/20 0:00:00 |
| 修稿时间: | 2016/1/18 0:00:00 |
Effects of diesel injection quantity and injection interval on emission characteristics of directly injected natural gas engine |
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| Li Menghan,Zhang Qiang,Li Guoxiang and Shao Sidong.Effects of diesel injection quantity and injection interval on emission characteristics of directly injected natural gas engine[J].Transactions of the Chinese Society of Agricultural Engineering,2016,32(6):95-100. |
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| Authors: | Li Menghan Zhang Qiang Li Guoxiang and Shao Sidong |
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| Institution: | School of Energy and Power Engineering, Shandong University, Jinan 250061, China,School of Energy and Power Engineering, Shandong University, Jinan 250061, China,School of Energy and Power Engineering, Shandong University, Jinan 250061, China and State Key Laboratory for Reliability of Internal Combustion Engines at Weichai Power, Weifang 261001, China |
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| Abstract: | Adjustment of injection strategy has been considered as an effective and reliable way for the emission control ofdirectly injected natural gas engines.However, the system investigation on the effects of pilot diesel quantity and injectionseparation is scarce.In order to achieve better emission characteristics by optimizing the injection strategy of directlyinjected natural gas engine, experimental investigation was conducted on a 6 cylinder pilot ignited natural gas engine tostudy the effects of diesel injection quantity (DIQ) and separation between diesel and natural gas injection (SDN).The testengine was modified from a diesel engine with bore diameter of 126 mm, stroke of 155 mm and compression ratio of 17.The design of cylinder head was redesigned to adapt to the installation of the dual fuel injector, which had two concentricneedles and two electronically controlled solenoid valves.An integrated pressure regulating module was added to control the injection pressure of diesel and natural gas.The supply system of natural gas, including compressor and buffer tank,was also added to provide compressed pipeline natural gas.Besides, the control module of natural gas injection wasintegrated into the original electronic controlled unit to realize the accurate control of both diesel and natural gas injection.In the experiment process, the intake temperature was fixed at 22° CA and the intake air pressure was maintained at 101kPa while the diesel rail pressure was adjusted to 18MPa.To prevent natural gas leaking into diesel, the rail pressure ofnatural gas was slightly lower than that of diesel (17.5 MPa).The tested operating condition was at engine speed of 1 275 r/min with brake specific effective pressure of 0.54Mpa, which was a typical operating point of European steady state cycle.To evaluate the effects of diesel injection quantity(DIQ) and separation between diesel and natural gas injection(SDN),the injection timing of natural gas was kept constant at 8° BTDC while diesel injection quantity was varied from 4.0 to 11.5mg under four different injection separations(0.5 ms, 0.8 ms, 1.1 ms and 1.4 ms).The natural gas pulse width was adjustedin accordance with the diesel injection quantity to maintain the fixed engine brake specific power.The emissions weremeasured by a Horiba MEXA 7 200 exhaust gas analyzer.CO emissions were tested by nondispersive infrared technology.HC emissions were tested by flame ionization detector.NOx emissions were tested by chemiluminescent detector (CLD).The emissions of each operating point were collected after 5 minutes of steady operation and all the emissions wererecorded three times to obtain the averaged values for further analysis.The experimental results showed that HC emissionsdecreased with the increase of diesel injection quantity at the same injection separation and increased with increasinginjection separation at the diesel injection quantity of 4.0 mg; in the diesel injection quantity range of 6.0~11.5 mg.HCemissions changed slightly when the injection separation varied from 0.5 ms to 1.1ms, however, when injection separationextended to 1.4 ms, the rising trend of HC emissions became more obvious.CO emissions exhibited a first decrease thenincrease trend with the increase of diesel injection quantity, and the minimum value occurred at the diesel injectionquantity of 6.0 mg or 8.5 mg; a decrease with the increase of injection separation at all diesel injection quantities can alsobe observed.NOx emissions firstly declined and then rise with the increasing diesel injection quantity; additionally, at theinjection separation of 0.5 ms, NOx emissions were relatively lower while reached the peak value at the injection separationof 1.4 ms.It can be concluded that the increase of diesel injection quantity has beneficial effects on HC emissions andnegative effects on NOx emissions while exerts little influence on CO emissions; the extension of injection separationresults in higher HC and NOx emissions as well as reduced CO emissions. |
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| Keywords: | engines diesel engines fuel injection diesel injection quantity injection separation natural gas engine emission characteristics |
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