广西大学学报(自然科学版)
廣西大學學報(自然科學版)
엄서대학학보(자연과학판)
JOURNAL OF GUANGXI UNIVERSITY (NATURAL SCIENCE EDITION)
2009年
6期
764-768
,共5页
韦为%莫春兰%黄锦成%叶忠慧%阙沛祯%赵令猛%许明疆
韋為%莫春蘭%黃錦成%葉忠慧%闕沛禎%趙令猛%許明疆
위위%막춘란%황금성%협충혜%궐패정%조령맹%허명강
生物柴油%乙醇%性能%试验研究
生物柴油%乙醇%性能%試驗研究
생물시유%을순%성능%시험연구
biodiesel%ethanolo%performance%experimental research
前期的试验研究表明,相对于传统的矿物柴油,生物柴油作为再生能源,含氧量高,可大幅降低烟度的排放,并能在一定程度降低CO排放.为进一步降低排放,在生物柴油中掺燃不同比例乙醇,就最大转矩转速和标定转速工况下进行了负荷特性试验研究,排放检测采用了最新的AVL排气分析仪.结果表明,与纯生物柴油相比,混合燃料(乙醇掺烧率小于30%)的动力性能良好,当量油耗率在较大负荷工况下有所改善;碳烟在整个运转工况范围内均有大幅度的降低,而HC排放则反之;CO和NO_x排放受乙醇掺烧率影响,NO_x排放量在乙醇掺烧率为10%~20%时明显减少,如继续增大乙醇掺混比例,NO_x排放增加;CO排放量在乙醇掺烧率为10%时最佳,大负荷工况下有明显的降低.
前期的試驗研究錶明,相對于傳統的礦物柴油,生物柴油作為再生能源,含氧量高,可大幅降低煙度的排放,併能在一定程度降低CO排放.為進一步降低排放,在生物柴油中摻燃不同比例乙醇,就最大轉矩轉速和標定轉速工況下進行瞭負荷特性試驗研究,排放檢測採用瞭最新的AVL排氣分析儀.結果錶明,與純生物柴油相比,混閤燃料(乙醇摻燒率小于30%)的動力性能良好,噹量油耗率在較大負荷工況下有所改善;碳煙在整箇運轉工況範圍內均有大幅度的降低,而HC排放則反之;CO和NO_x排放受乙醇摻燒率影響,NO_x排放量在乙醇摻燒率為10%~20%時明顯減少,如繼續增大乙醇摻混比例,NO_x排放增加;CO排放量在乙醇摻燒率為10%時最佳,大負荷工況下有明顯的降低.
전기적시험연구표명,상대우전통적광물시유,생물시유작위재생능원,함양량고,가대폭강저연도적배방,병능재일정정도강저CO배방.위진일보강저배방,재생물시유중참연불동비례을순,취최대전구전속화표정전속공황하진행료부하특성시험연구,배방검측채용료최신적AVL배기분석의.결과표명,여순생물시유상비,혼합연료(을순참소솔소우30%)적동력성능량호,당량유모솔재교대부하공황하유소개선;탄연재정개운전공황범위내균유대폭도적강저,이HC배방칙반지;CO화NO_x배방수을순참소솔영향,NO_x배방량재을순참소솔위10%~20%시명현감소,여계속증대을순참혼비례,NO_x배방증가;CO배방량재을순참소솔위10%시최가,대부하공황하유명현적강저.
Prior research show that comparing with traditional mineral diesel, biodiesel-ethanol blends as a renewable energy possesses the advantage of higher oxygen content, lower smoke emission, and the CO emission can be lower in a certain extent. In order to achieve further reduction on emission,an experimental research of load characteristic on diesel engine fueled with different proportion of biodiesel-ethanol blends on maximum torque speed and standard speed was carried out. The latest AVL analyzer was adopted to analyze emission. Results show that, comparing with biodiesel, biodie-sel-ethanol blends can reach the original engine power when the proportion of ethanol is below 30% , and the equivalent brake specific fuel consumption rate has been obviously improved when the diesel engine work on high load condition. Results also show apparently reduction on smoke emission at whole load condition but HC emissions are reversed. CO emissions and NO_x emissions are influenced by the proportion of ethanol. NO_x emissions are reduced obviously when the proportion of ethanol is between 10%~20%. If the proportion of ethanol continues to increase, NO_x emissions will be higher. CO emissions are best when the proportion of ethanol is 10%, and obviously reduces on high load condition.
