生物加工过程
生物加工過程
생물가공과정
CHINESE JOURNAL OF BIOPROCESS ENGINEERING
2014年
4期
66-71
,共6页
孔维宝%张娟%来宝鹏%景洋%张继
孔維寶%張娟%來寶鵬%景洋%張繼
공유보%장연%래보붕%경양%장계
生物柴油%催化作用%油酸甲酯%强酸性阳离子交换树脂
生物柴油%催化作用%油痠甲酯%彊痠性暘離子交換樹脂
생물시유%최화작용%유산갑지%강산성양리자교환수지
biodiesel%catalysis%methyl oleate%strongly acidic cation exchange resin
采用强酸性阳离子交换树脂作催化剂,对油酸和甲醇反应合成油酸甲酯的工艺进行研究。分别筛选了4种型号的树脂,其中以NKC 9干氢型树脂催化效果最好。考察了酸醇摩尔比、反应温度、催化剂用量、脱水剂用量、反应时间和催化剂重复使用性等因素对转化率的影响。结果表明:反应的适宜条件为酸醇摩尔比1∶2,反应温度70℃,催化剂用量为油酸质量的50%,脱水剂无水CaCl2用量为催化剂用量的10%,反应时间2 h。在此条件下,转化率可达93?85%。催化剂重复使用6次后转换率仍保持在90%以上。研究显示,采用NKC 9干氢型树脂催化合成油酸甲酯具有良好的工业应用潜力。
採用彊痠性暘離子交換樹脂作催化劑,對油痠和甲醇反應閤成油痠甲酯的工藝進行研究。分彆篩選瞭4種型號的樹脂,其中以NKC 9榦氫型樹脂催化效果最好。攷察瞭痠醇摩爾比、反應溫度、催化劑用量、脫水劑用量、反應時間和催化劑重複使用性等因素對轉化率的影響。結果錶明:反應的適宜條件為痠醇摩爾比1∶2,反應溫度70℃,催化劑用量為油痠質量的50%,脫水劑無水CaCl2用量為催化劑用量的10%,反應時間2 h。在此條件下,轉化率可達93?85%。催化劑重複使用6次後轉換率仍保持在90%以上。研究顯示,採用NKC 9榦氫型樹脂催化閤成油痠甲酯具有良好的工業應用潛力。
채용강산성양리자교환수지작최화제,대유산화갑순반응합성유산갑지적공예진행연구。분별사선료4충형호적수지,기중이NKC 9간경형수지최화효과최호。고찰료산순마이비、반응온도、최화제용량、탈수제용량、반응시간화최화제중복사용성등인소대전화솔적영향。결과표명:반응적괄의조건위산순마이비1∶2,반응온도70℃,최화제용량위유산질량적50%,탈수제무수CaCl2용량위최화제용량적10%,반응시간2 h。재차조건하,전화솔가체93?85%。최화제중복사용6차후전환솔잉보지재90%이상。연구현시,채용NKC 9간경형수지최화합성유산갑지구유량호적공업응용잠력。
The synthesis parameters of methyl oleate catalyzed by strongly acidic cation exchange resin ( SACER ) were investigated. Catalytic NKC-9 resin was screened with excellent esterification performance. The effects of molar ratio of oleic acid and methanol, reaction temperature, dosages of catalyst and dehydrant, reaction time and reuse times of catalyst were tested. The results indicated that conversion rate of 93?85% was achieved under the optimized reaction conditions of molar ratio of oleic acid and methanol 1∶2, reaction temperature 70℃, catalyst loading 50%, dehydrant amount 10%, time 2 h. The conversion rate was higher than 90% after the resin catalyst reused six times. The study showed that preparation of methyl oleate catalyzed by NKC-9 resin had potential of industrial application.
