生物柴油作为精喹禾灵乳油中二甲苯替代溶剂的应用初探
Preliminary Application of Biodiesel as Substitute Solventinstead of Xylene for Quizalofop-p-ethyl EC
-
摘要: 为评价不同来源生物柴油作为溶剂配制精喹禾灵乳油的效果,采用气相色谱法测定了几种生物柴油中脂肪酸甲酯的种类及含量,利用相应制备的5%精喹禾灵乳油进行了防治禾本科杂草的盆栽试验,同时比较了不同生物柴油对药剂稀释液表面张力、干燥时间和在叶片表面沉积量等药液物理性状的影响。结果表明,用不同脂肪酸甲酯含量的生物柴油均能够制备出合格的5%精喹禾灵乳油,并且利用生物柴油制备的乳油在使用剂量为有效成分2 g/hm2时防效略高于常规以二甲苯为溶剂配制的乳油, 5 g/hm2和20 g/hm2剂量下无显著差异;生物柴油配制乳油稀释液与二甲苯配制乳油稀释液的表面张力差异不显著,但前者的沉积量则明显提高50%左右,能提高稀释液在小麦叶片的渗透速率。上述结果初步表明,生物柴油作为精喹禾灵乳油的替代溶剂具有一定的可行性。Abstract: To evaluate the potential of several biodiesels,which had different content of fatty acid methyl ester,as substitute solvent for quizalofop-p-ethyl emulsifiable concentrate (EC),the type and content of fatty acid methyl esters in tested biodiesels were analyzed by gas chromatography,and 5% quizalofop-p-ethyl ECs were prepared with different biodiesels,respectively. The control test against gramineous weeds by the 5% quizalofop-p-ethyl ECs were carried out in greenhouse. And the surface tensions,dry durations and sediment amounts of different EC dilutions on weed leaves were investigated. The results indicated that the 5% quizalofop-p-ethyl EC could be prepared with different biodiesels and were all up to grade. The efficacy on gramineous weeds was higher than that of control EC prepared with xylene,at the dose of 2 g (a.i.)/hm2 and had no significant difference at the dose of 5 and 20 g (a.i.)/hm2. Biodiesels could not depress the surface tension of EC diluents compared with that of the xylene control,but the deposition of the former was significantly increased by 50 percent. Biodiesels could increase the penetration rate on wheat leaf. The results showed that biodiesel has the potential as substitute solvent for the preparation of quizalofop-p-ethyl EC.
-
Key words:
- biodiesel /
- quizalofop-p-ethyl /
- solvent /
- physical characteristic /
- emulsifiable concentrate
-
LI Peng-kun(李鹏坤),LI Qiao-zhi(李巧枝),XIE Hui-ling(谢慧玲),et al.农药乳油制剂现存质量问题及对策[J]. Henan Agric Sci(河南农业科学),2002,4:65-68. FANG J,LOVANH N,ALVARZE P J J.The Use of Isotopic and Lipid Analysis Techniques Linking Toluene Degradation to Specific Microorganisms: Applications and Limitations[J].Water Research,2004,38 (10): 2529-2536. ZHANG Xiao-xiao(张小啸),WANG Hong-qi(王红旗),LIU Jing-qi(刘敬奇),et al.土壤微生物对苯的降解研究[J].Environ Sci(环境科学),2005,26(6):148-152. LI Chang-zhu(李昌珠),JIANG Li-juan(蒋丽娟),CHENG Shu-qi(程树棋),et al.Biodiesel—Green Energy(生物柴油——绿色能源)[M].Beijing(北京):Chemical Industry Press(化学工业出版社),2004:9-18,228-236,239-244. VICENTE G,COTERON A,MARTINEZ M,et al.Aracil.Application of the Factorial Design of Experiments and Response Surface Methodology to Optimize Biodiesel Production[J].Industrial Crops and Products,1998,(8):29-35. LU Mei(鲁梅),WANG Jin-xin(王金信).甲酯化植物油助剂对除草剂的药效增强作用[J].Acta Phytophylacica Sinica(植物保护学报),2005,32(3):295-299. GUO Wu-di(郭武棣).Liquid Formulation [M].Beijing(北京):Chemical Industry Press(化学工业出版社),2003:108-119. WANG Xiao-yi(王小艺),HUANG Bing-qiu(黄炳球).茶皂素对农药的增效机理Ⅲ:对药液沉积量的影响[J].J Tea Sci(茶叶科学),1998,18(2):134-138. SHAO Wei-zhong(邵维忠).Agrochemical Adjuvant [M].Beijing(北京):Chemical Industry Press(化学工业出版社),2003:185-193. JERZY A Z.Adjuvants and Herbicidal Efficacy:Present Status and Future Prospects[J].Weed Research,2000,40: 139-149. STEVEV F,VAUGHN,RONALD A H.Evaluation of Biodiesels from Several Oilseed Sources as Environmental Friendly Contact Herbicides[J].Industrial Crops and Products,2007,26: 63-68. ZHANG Ji-hong(张纪红),YANG Hong-jian(杨红健),HOU Kai-hu(候凯湖),et al.生物柴油研究进展[J].Tianjin Chem Ind(天津化工),2006:20(6):15-17. (Ed.TANG J) -
点击查看大图
计量
- 文章访问数: 1370
- HTML全文浏览量: 65
- PDF下载量: 412
- 被引次数: 0
下载:
