农业工程学报
農業工程學報
농업공정학보
2014年
13期
53-59
,共7页
刘少华%申立中%毕玉华%雷基林%张生斌
劉少華%申立中%畢玉華%雷基林%張生斌
류소화%신립중%필옥화%뢰기림%장생빈
柴油机%生物质燃料%排放%性能%高原缺氧环境
柴油機%生物質燃料%排放%性能%高原缺氧環境
시유궤%생물질연료%배방%성능%고원결양배경
diesel engine%biofuels%emission%performance%high-altitude anoxic condition
为了研究不同类别的含氧生物质燃料在高原缺氧环境下对发动机性能和排放的影响,在一台卧式双缸柴油机上分别燃用柴油、乙醇柴油 E10(含10%体积分数的乙醇和90%体积分数的柴油)及生物柴油-乙醇-柴油B10E10(含10%体积分数的生物柴油,10%体积分数的乙醇和80%体积分数的柴油)3种燃料进行了对比试验。试验结果表明,在不对柴油机做任何调整的情况下,分别燃用E10和B10E102种含氧生物质混合燃料后,柴油机动力性下降,外特性转矩平均下降幅度分别达到4.24%和5.49%;当量燃油消耗率基本低于柴油,经济性有所改善。燃用含氧生物质燃料后,柴油机的经济性变化情况除了与燃料本身的属性相关,还与转速和负荷相关。燃用E10混合燃料后,柴油机的一氧化碳(CO)排放在低负荷时高于柴油,高负荷时低于柴油;碳氢化合物(HC)排放高于柴油水平,升高幅度范围达4.9%~27.4%;氮氧化物(NOX)排放在低负荷时低于柴油,高负荷时趋于柴油水平。燃用B10E10混合燃料后,一氧化碳(CO)和碳氢化合物(HC)排放在低负荷时都趋于柴油水平,高负荷时都低于柴油水平;氮氧化物(NOX)排放在低负荷时低于柴油,高负荷时高于柴油水平。柴油机在燃用E10和B10E102种混合燃料后,碳烟排放均低于柴油水平。柴油机燃用B10E10混合燃料后的碳氢化合物(HC)排放,碳烟排放以及低负荷时的一氧化碳(CO)排放均低于E10,氮氧化物(NOX)排放基本高于E10。与E10燃料相比,B10E10混合燃料在柴油机的一氧化碳(CO)和碳氢化合物(HC)以及碳烟排放方面具有更好的改善效果;但是动力性下降幅度较大,氮氧化物(NOX)排放增加。该研究可为含氧生物质燃料在高原缺氧地区的应用提供参考。
為瞭研究不同類彆的含氧生物質燃料在高原缺氧環境下對髮動機性能和排放的影響,在一檯臥式雙缸柴油機上分彆燃用柴油、乙醇柴油 E10(含10%體積分數的乙醇和90%體積分數的柴油)及生物柴油-乙醇-柴油B10E10(含10%體積分數的生物柴油,10%體積分數的乙醇和80%體積分數的柴油)3種燃料進行瞭對比試驗。試驗結果錶明,在不對柴油機做任何調整的情況下,分彆燃用E10和B10E102種含氧生物質混閤燃料後,柴油機動力性下降,外特性轉矩平均下降幅度分彆達到4.24%和5.49%;噹量燃油消耗率基本低于柴油,經濟性有所改善。燃用含氧生物質燃料後,柴油機的經濟性變化情況除瞭與燃料本身的屬性相關,還與轉速和負荷相關。燃用E10混閤燃料後,柴油機的一氧化碳(CO)排放在低負荷時高于柴油,高負荷時低于柴油;碳氫化閤物(HC)排放高于柴油水平,升高幅度範圍達4.9%~27.4%;氮氧化物(NOX)排放在低負荷時低于柴油,高負荷時趨于柴油水平。燃用B10E10混閤燃料後,一氧化碳(CO)和碳氫化閤物(HC)排放在低負荷時都趨于柴油水平,高負荷時都低于柴油水平;氮氧化物(NOX)排放在低負荷時低于柴油,高負荷時高于柴油水平。柴油機在燃用E10和B10E102種混閤燃料後,碳煙排放均低于柴油水平。柴油機燃用B10E10混閤燃料後的碳氫化閤物(HC)排放,碳煙排放以及低負荷時的一氧化碳(CO)排放均低于E10,氮氧化物(NOX)排放基本高于E10。與E10燃料相比,B10E10混閤燃料在柴油機的一氧化碳(CO)和碳氫化閤物(HC)以及碳煙排放方麵具有更好的改善效果;但是動力性下降幅度較大,氮氧化物(NOX)排放增加。該研究可為含氧生物質燃料在高原缺氧地區的應用提供參攷。
위료연구불동유별적함양생물질연료재고원결양배경하대발동궤성능화배방적영향,재일태와식쌍항시유궤상분별연용시유、을순시유 E10(함10%체적분수적을순화90%체적분수적시유)급생물시유-을순-시유B10E10(함10%체적분수적생물시유,10%체적분수적을순화80%체적분수적시유)3충연료진행료대비시험。시험결과표명,재불대시유궤주임하조정적정황하,분별연용E10화B10E102충함양생물질혼합연료후,시유궤동력성하강,외특성전구평균하강폭도분별체도4.24%화5.49%;당량연유소모솔기본저우시유,경제성유소개선。연용함양생물질연료후,시유궤적경제성변화정황제료여연료본신적속성상관,환여전속화부하상관。연용E10혼합연료후,시유궤적일양화탄(CO)배방재저부하시고우시유,고부하시저우시유;탄경화합물(HC)배방고우시유수평,승고폭도범위체4.9%~27.4%;담양화물(NOX)배방재저부하시저우시유,고부하시추우시유수평。연용B10E10혼합연료후,일양화탄(CO)화탄경화합물(HC)배방재저부하시도추우시유수평,고부하시도저우시유수평;담양화물(NOX)배방재저부하시저우시유,고부하시고우시유수평。시유궤재연용E10화B10E102충혼합연료후,탄연배방균저우시유수평。시유궤연용B10E10혼합연료후적탄경화합물(HC)배방,탄연배방이급저부하시적일양화탄(CO)배방균저우E10,담양화물(NOX)배방기본고우E10。여E10연료상비,B10E10혼합연료재시유궤적일양화탄(CO)화탄경화합물(HC)이급탄연배방방면구유경호적개선효과;단시동력성하강폭도교대,담양화물(NOX)배방증가。해연구가위함양생물질연료재고원결양지구적응용제공삼고。
In order to study the influence of different categories of oxygenated biofuels on the performance and emissions of a diesel engine in a high-altitude anoxic condition, comparative experiments on a horizontal two cylinder diesel engine by use of three fuels: pure diesel, ethanol-diesel E10 (containing 10% ethanol in volume percentage and 90% petroleum diesel in the blend fuel), and biodiesel-ethanol-diesel B10E10 (containing 10% biodiesel, 10% ethanol, and 80% petroleum diesel) blends were carried out. In the process of the test, the engine was not adjusted or modified. The test results showed that when fueled with the E10 and B10E10 oxygenated blended biofuels respectively, the power performance of the diesel engine decreased, and the average drop of the engine brake torque at full-load are 4.24% and 5.49%. And the brake specific energy consumptions (BSEC) of the blended fuels were basically lower than those of the diesel fuel, and the fuel economy improved. The properties of the blended fuels had effects on the changes of the engine fuel economy, and the changes were also related to the engine speed and load. When fueled with the E10 blended fuel, the carbon monoxide (CO) emissions of the engine increased at low loads and decreased at high loads. The hydrocarbon (HC) emissions of the engine were higher than those of the diesel fuel and the percentage range of increment was 4.9%~27.4%. And the nitrogen oxide (NOX) emissions were lower than those of the diesel fuel at low loads, which tended to be the same level of the diesel fuel at high loads. When fueled with the B10E10 blends, the carbon monoxide (CO) emissions and the hydrocarbon (HC) emissions of the engine tended to be the pure diesel fuel level at low loads and decreased at high loads. And the nitrogen oxides (NOX) emissions decreased at low loads, and increased at high loads. The soot emissions of the engine with the E10 and B10E10 fuels both decreased. The hydrocarbon (HC) emissions, the soot emissions, and the carbon monoxide (CO) emissions at low loads of the diesel engine fueled with the B10E10 fuel were all lower than those of the E10 fuel, while the nitrogen oxide (NOX) emissions were basically higher than the E10 fuel level. Compared with the E10 fuel, the B10E10 blended fuel had a better effect on the improvement of the carbon monoxide (CO) emissions, the hydrocarbon (HC) emissions, and the soot emissions of the diesel engine. But the decline in the engine power performance was larger, and the nitrogen oxide (NOX) emissions increased. The study can provide a reference for the application of oxygenated biofuels in high-altitude anoxic regions.
