期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

猪场废水生产微生物絮凝剂发酵特性及动力学特征 被引量:1

Fermentation and kinetics characteristics of bioflocculant production using swine wastes as raw material
在线阅读 下载PDF
导出
摘要 以猪场废水作为原材料生产微生物絮凝剂,考察了发酵过程中溶解氧(DO)、COD、氨氮、总磷及pH值的变化规律,利用Logistic和Luedeking-Piret模型对絮凝菌生长和代谢产物生成的动力学过程进行了拟合.结果显示,菌体的生长在0~60h是对数生长期,12~36h菌体快速生长,菌体干重、细胞浓度OD600和菌落数分别由0.09g/L,0.26和1.3×107cfu迅速增加到0.76g/L,0.58和3.5×107cfu,稳定期(66h)菌落数达到5×107cfu.絮凝菌代谢产物的主要絮凝活性成分是蛋白质,与菌体生长呈相关型.猪场废水中磷源含量充足,作为缓冲液,基本维持了絮凝菌发酵过程中pH值的恒定.此外,Logistic和Luedeking-Piret模型的拟合结果能够较好地描述絮凝菌生长和代谢产物生成的动力学过程. Swine wastewater was used as raw material to produce bioflocculant. Concentration of dissolved oxygen (DO), COD, ammonium, total phosphorus (TP) and solution pH values in the fermentation process were examined. Growth and producing kinetics models of the bacteria were described by Logistic and Luedeking-Piret equations. During the logarithm phase (0~60h), especially in 12~36h, cells grew rapidly. Cell dry weight, cell density OD600, and the number of colonies increased from 0.09g/L, 0.26 to 1.3×107cfu to 0.76g/L, 0.58 and 3.5×107cfu, respectively. The number of colonies reached its maximum value of 5×107cfu at 66h. Protein, the main active ingredient of the metabolite, was produced in parallel with cell growth. Phosphorus in the swine wastewater was essential for adjusting pH values during the flocculation process, and its content was adequate. Furthermore, the cell growth and bioflocculant production simulated very well with both the Logistic and Luedeking-Piret equations.
作者 郭俊元 信欣 能子礼超 李剑锋
机构地区 成都信息工程学院资源环境学院
出处 《中国环境科学》 EI CAS CSCD 北大核心 2014年第10期2588-2592,共5页 China Environmental Science
基金 成都信息工程学院科研基金资助(KYTZ201405)
关键词 猪场废水 微生物絮凝剂 生长曲线 发酵动力学 swine wastewater bioflocculant growth curve fermentation kinetics
分类号 X703.1 [环境科学与工程—环境工程]
  • 相关文献

参考文献14

  • 1Gong W X, Wang S G, Sun X F, et al. Bioflocculant production by culture of serratia ficaria and its application in wastewater treatment [J]. Bioresource Technology, 2008,99(11):4668-4674.
  • 2Yi T, Lee E H, Ahn Y Ct Novel biodegradation pathways of cyclohexane by Rhodococcus sp. EC1 [J]. Journal of Hazardous Materials, 2011,191(1-3):393-396.
  • 3Tian Y. Behaviour of bacterial extracellular polymeric substances from activated sludge: a review [J]. International Journal of Environmental and Pollution, 2008,32(1):78-89.
  • 4Drouin M, Lai C K, Tyagi R D, et al. Bacillus licheniformis proteases as high value added products from fermentation ofwastewater sludge: pre-treatment of sludge to increase the performance of the process [J]. Water Science and Technology, 2008,57(3):599-605.
  • 5邱国良,杨春平,郭俊元,彭蓝艳.厌氧后猪场废水资源化制备微生物絮凝剂[J].环境工程学报,2013,7(7):2506-2510. 被引量:6
  • 6贺力.假单胞菌M18G产PCA的发酵条件优化与动力学研究[D].上海:上海交通大学,2008:41-56.
  • 7郭俊元,杨春平,邱国良.生物絮凝剂与改性沸石复配处理猪场废水厌氧消化液的响应面优化[J].中国环境科学,2012,32(11):1999-2005. 被引量:9
  • 8Guo J Y, Yang C P, Zeng G M. Treatment of swine wastewater using chemically modified zeolite and bioflocculant from activated sludge [J]. Bioresource Technology, 2013,143(9):289- 297.
  • 9Guo J Y, Yang C P, Peng L Y. Preparation and characteristics of bacterial polymer using pre-treated sludge from swine wastewater treatment plant [J]. Bioresource Technology, 2014, 152(1):490-498.
  • 10Ahmad H, Rajab A, Azni i, et al. Production and characterization of a bioflocculant produced by Aspergillusflavus [J]. Bioresource Technology, 2013,127(1):489-493.

二级参考文献24

  • 1李剑,王曙光,高宝玉,岳钦艳,冯贵颖.利用乳品废水生产微生物絮凝剂及其应用研究[J].环境工程,2004,22(6):93-94. 被引量:13
  • 2靳慧霞,马放,孟路,杨基先.复合型微生物絮凝剂与化学絮凝剂的复配及其应用[J].化工进展,2006,25(1):105-109. 被引量:33
  • 3王伊娜,王向东,张望,陈姣.制酒废水培养复合型生物絮凝剂产生菌的研究[J].中国给水排水,2007,23(1):38-42. 被引量:22
  • 4熊丽娟,杨朝晖,曾光明,阮敏,陶然,周长胜.培养基中磷酸盐在GA1所产絮凝剂絮凝中的作用研究[J].环境科学学报,2007,27(7):1157-1162. 被引量:9
  • 5Salehizadeh H, Shojaosadati S A. Extracellular biopolymeric flocculants: recent trends and biotechnological importance [J]. BiotechnologyAdvanees, 2001,19(5):371 -385.
  • 6Obaja D, Mace S, Mata-Alvarez J. Biological nutrient removal by a sequencing batch reactor (SBR) using an internal organic carbon source in digested piggery wastewater [J]. Bioresouree Technology, 2005,96( 1):7-14.
  • 7Zheng Y A, Zhang J P, Wang A Q. Fast removal of ammonium nitrogen from aqueous solution using chitosan-g-poly(acrylic acid)/attapulgite composite [J]. Chemical Engineering Journal, 2009,155(1/2):215-222.
  • 8Riahi K, Thayer B B, Mammou A B, et al. Biosorption characteristics of phosphates from aqueous solution onto Phoenix daetylifera L. date palm fibers [J]. Journal of Hazardous Materials, 2009,170(2-3):511-519.
  • 9杨春平,郭俊元,邱国良,等.一种改性沸石及其制备方法和应用:中国,CNl02151546A[P].2011-01-13.
  • 10Shih I L, Van Y T, Yeh L C, et al. Production of a biopolymer flocculant from Bacillus licheniformis and its floeculation properties [J]. Bioresource Technology, 2001,78(3):267-272.

共引文献13

同被引文献20

  • 1国家环保总局.水和废水监测分析方法[M].北京:中国环境科学出版社,2002..
  • 2Ahmad H, Rajab A, Azni I, et al. Production and characterizationof a bioflocculant produced by Aspergillus flavus [J]. BioresourceTechnology, 2013,127:489-493.
  • 3Xia S Q, Zhang Z Q, Wang X J, et al. Production andcharacterization of a bioflocculant by Proteus mirabilis TJ-1 [J].Bioresource Technology, 2008,99:6520-6527.
  • 4Yi T, Lee E H, Ahn Y G. Novel biodegradation pathways ofcyclohexane by Rhodococcus sp. EC1 [J]. Journal of HazardousMaterials, 2011,191:393-396.
  • 5Zheng Y, Ye Z L, Fang X L, et al. Production and characteristicsof a bioflocculant produced by Bacillus sp. F19 [J]. BioresourceTechnology, 2008,99:7686-7691.
  • 6Yang Q, Luo K, Liao D X, et al. A novel bioflocculant producedby Klebsiella sp. and its application to sludge dewatering [J].Water and Environment Journal, 2012,26:560-566.
  • 7Tian Y. Behaviour of bacterial extracellular polymeric substancesfrom activated sludge: a review [J]. International Journal ofEnvironmental and Pollution, 2008,32:78-89.
  • 8Deng S B, Yu G, Ting Y P. Production of a bioflocculant byAspergillus parasiticus and its application in dye removal [J].Colloids and Surfaces B: Biointerfaces, 2005,44:179-186.
  • 9More T T, Yan S, Hoang N V, et al. Bacterial polymer productionusing pre-treated sludge as raw material and its flocculation anddewatering potential [J]. Bioresource Technology, 2012,121:425-431.
  • 10Sun J, Zhang X H, Miao X J, et al. Preparation and characteristicsof bioflocculants from excess biological sludge [J]. BioresourceTechnology, 2012,126:362-366.

引证文献1

二级引证文献10

中国环境科学
2014年 第10期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部