化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
11期
2909-2915,2999
,共8页
生物柴油%生物燃料%再生能源%脂肪酸甲酯%原料资源%深加工技术
生物柴油%生物燃料%再生能源%脂肪痠甲酯%原料資源%深加工技術
생물시유%생물연료%재생능원%지방산갑지%원료자원%심가공기술
biodiesel%biofuel%renewable energy%fatty acid methyl ester%feedstocks%deep-processing technologies
生物柴油(脂肪酸甲酯)是一种绿色清洁的再生能源。我国生物柴油产业发展速度很快,但受原料价格高及产品多元化程度低等因素的影响,生物柴油价格高,产业缺乏竞争力。开发多样化的原料资源,进行产品深加工,对于生物柴油产业的发展具有重要的意义。本文综述了国内外生物柴油原料开发利用进展,介绍了国外生物柴油原料资源分布、资源特点及不同原料生物柴油的特点。简述了我国生物柴油原料资源现状及发展策略。介绍了生物柴油深加工技术研究进展,重点阐述了在制备第二代生物柴油、生物降解润滑油基础油、脂肪醇、烷醇酰胺、脂肪酸甲酯磺酸盐及绿色增塑剂等方面的研究进展及面临的问题,指出开发高效催化剂是发展生物柴油深加工技术的关键。
生物柴油(脂肪痠甲酯)是一種綠色清潔的再生能源。我國生物柴油產業髮展速度很快,但受原料價格高及產品多元化程度低等因素的影響,生物柴油價格高,產業缺乏競爭力。開髮多樣化的原料資源,進行產品深加工,對于生物柴油產業的髮展具有重要的意義。本文綜述瞭國內外生物柴油原料開髮利用進展,介紹瞭國外生物柴油原料資源分佈、資源特點及不同原料生物柴油的特點。簡述瞭我國生物柴油原料資源現狀及髮展策略。介紹瞭生物柴油深加工技術研究進展,重點闡述瞭在製備第二代生物柴油、生物降解潤滑油基礎油、脂肪醇、烷醇酰胺、脂肪痠甲酯磺痠鹽及綠色增塑劑等方麵的研究進展及麵臨的問題,指齣開髮高效催化劑是髮展生物柴油深加工技術的關鍵。
생물시유(지방산갑지)시일충록색청길적재생능원。아국생물시유산업발전속도흔쾌,단수원료개격고급산품다원화정도저등인소적영향,생물시유개격고,산업결핍경쟁력。개발다양화적원료자원,진행산품심가공,대우생물시유산업적발전구유중요적의의。본문종술료국내외생물시유원료개발이용진전,개소료국외생물시유원료자원분포、자원특점급불동원료생물시유적특점。간술료아국생물시유원료자원현상급발전책략。개소료생물시유심가공기술연구진전,중점천술료재제비제이대생물시유、생물강해윤활유기출유、지방순、완순선알、지방산갑지광산염급록색증소제등방면적연구진전급면림적문제,지출개발고효최화제시발전생물시유심가공기술적관건。
Biodiesel is a renewable biofuel consisting of fatty acid methyl esters (FAME). Research on biodiesel is developing rapidly in China. However,due to the high price of feedstocks and the lack of down-stream products,the biodiesel industry is uncompetitive. Much effort has been devoted to exploiting lower-cost feedstocks and developing diverse down-stream products. This paper reviews the current research progress of feedstocks and deep-processing technologies for biodiesel. The status, distribution and features feedstocks for biodiesel are summarized. The characteristics of biodiesel from different feedstocks are presented. Biodiesel development strategies in China are proposed. Progress in FAME deep-processing technologies are also reviewed. As an important raw material,FAME can be deep-processed for producing a variety of valuable chemical products,such as second generation biodiesel,biodegradable lubricati base oil,fatty alcohol,alkanolamide,fatty acid methyl ester sulfonate and green plasticizers. The main challenge for FAME deep-processing is to develop highly efficient catalysts.
