EM生物技术在有机废水处理畜禽场污染防治的应用
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摘要
本文目的是应用生物技术探讨在环境保护方面的应用。根据EM生物群落相互间的共生增殖关系而形成的一种复杂而稳定的微生态系统特点,选择有机废水和畜禽场作为研究对象,优选出最佳实验条件。通过实验,有机废水COD去除率提高20-40%,畜禽场硫化氢和氨气削减率分别在44%和55%以上。实验结果表明,EM生物技术应用于环境保护和物理的、化学的方法相比能源消耗少,设备简单,整个过程无废物产生,有利于改善环境。
The object of this essay is to discuss the uses of EM biowical technology on the aspect of protecting the environment. According to the characters of the micro- ecological systeml both complicated and stable, which is formed from the relationship of symbiosis and reproduction among EM biological groups, we choose the organic waste water and animals as the study abjects. They provide the best experimental terms. As a result of the experiments , COD in the organic waste water is decreased 20 percent to 40 percent more that it was in the past,and the decreasing percents of H2S and N2 on the animal farms are over 44 and 55 separately. The results prove that compared with physical or chemical manners, the advantages of using. EM biological techndgy on envionmental protection are as follows. First, it consumes less materials. Sencod, it needs only simple equipment. Third, no waste is produced duriny the whole procedure, which is good for improviny the envin-ment
The object of this essay is to discuss the uses of EM biowical technology on the aspect of protecting the environment. According to the characters of the micro- ecological systeml both complicated and stable, which is formed from the relationship of symbiosis and reproduction among EM biological groups, we choose the organic waste water and animals as the study abjects. They provide the best experimental terms. As a result of the experiments , COD in the organic waste water is decreased 20 percent to 40 percent more that it was in the past,and the decreasing percents of H2S and N2 on the animal farms are over 44 and 55 separately. The results prove that compared with physical or chemical manners, the advantages of using. EM biological techndgy on envionmental protection are as follows. First, it consumes less materials. Sencod, it needs only simple equipment. Third, no waste is produced duriny the whole procedure, which is good for improviny the envin-ment
引文
1 马世骏.中国生态学发展战略研究.北京:中国经济出版社,1991.347—359
2 Freedman B. Environmental Ecology. London: Academic Pree, 1989
3 Evangelou VP. Environmtal Soil and Water Chemistry: Principles and Applications. New York:A Wiley-Interscience Publication, 1998
4 Jordan C. Mapping of rainfall chemistry in Ireland 1972-94. Biology and Environment, 1997,97B(1):53-73
5 Zhou Qixing, Gibson CE, Foy RH. Long-term changes of nitrogen and phosphorus loadings to a large lake in north-west Ireland. Water Research, 2000, 34(3): 922-926
6 Edwards AC, quality: a UK perspective. Soil Use and Management, 1998, 14: 124-130
7 国家自然科学基金委员会.2000年度国家自然科学基金项目指南.北京:北京大学出版社,1999.15—16
8 周启星.复合污染生态学.北京:中国环境科学出版社,1995
9 崔明珍等.中国公共卫生,1994.10.21~22
10 鲍子平等.环境科学学报,1994,14,385~388
11 刘光明等.环境污染与防治,1997.4:36~39
12 荣耀等.先进猪场废水处理及利用技术.中国专利.1060279
13 徐法泉.农村能源.1993.1(2):24~27
14 傅立勋等.改善生态环境.北京:学术书刊出版社,1989.10
15 方言磊.中国环境与发展.北京:科学出版社,1992.4
16 胡寿国等.生态农业.武汉:湖北科学技术出版社,1995.8
17 东北农学院主编.家畜环境卫生学.北京:农业出版社,1990:293—306
18 姚志麒等著.环境卫生学.北京:人民卫生出版社,1987:299—374
19 美国公共卫生协会等著.张曾惠等译.水和废水标准检验法.北京:中国建筑工业出版社,1978:38—113
20 王翔朴主编:卫生学.北京:人民卫生出版社,1985:324
21 Knox R C et al. Aquifer restoration state of the Art. Part. Ridge. NJ. Noyes Pub. 1968: 231
22 Gutnick D L et at. Oil tankers and Pollution: a microbiological approach. Ann Rev Micro. 1979: 31: 379—396
23 Linos er al. Proposed that soil fungi more effcient in dagrading petroleum than are bacteria. Oikos. 1976; 27: 377-382
24 Atlas R M et al. Biodegradation of crude oil by tundra soil microrganisms. In: Wxley T A el al. (Eds). Proceedings of the 4th international biodete-rioration symposium. London Pitman Pub Ltd. 1980: 21-28
25 范成新,季江.太湖富营养化现状、趋势太其综合治理对策.上海环境科学,1997,16(8):4—7,17
26 张秀敏,马生伟.抚仙湖流域综合治理规划方案研究.环境科学研究,1999,12(5):16—19
27 魏文区.水库水质富营养化趋分析.环境与开发,1998,13(4):29—30
28 桂森,孟敏艳,李学东,等.密云水库水质现状及发展趋势.环境科学,1999,20(2):11O—112
29 李庆成.全国重点环境考核城市地下水污染概况与防治对策.地下水,1992,14(1):2—4.5
30 品耀.苏南太湖流域农业点源污染及农业持续发展战略.环境科
学动态,1998(2):1—4
31 马立珊.苏南太湖水系农业非点源污染及其控制对策研究.应用生态学报,1992,3(4):346—354
32 易秀,薛澄泽.氮肥在土娄土中的渗漏污染研究.农业环境保护,1993,12(6):250—253
33 单正军,朱忠林,华晓梅,等.除草剂拉索对地下水影响研究.环境科学学报,1994,14(1):72—74
34 董克虞.畜禽粪便对环境的污染及资源化途径,农业环境保护,1998,17(6):281—283
35 赵鸿雁、吴钦孝,韩冰,等.影响水土流失因子间量纲和谐法则.水土保持通报,1995,15(2):49—52
36 姚槐应,何振立,黄昌勇.提高氮肥利用效率的微生物量机制探讨,农业环境保护,1999,19(2):54—56
37 高吉喜,叶春,杜娟,等.水生植物对面源污水净化效率研究.中国环境科学,1997,16(2):3—6
38 杨虹,李道棠,朱章玉.高温嗜粪菌的选育和猪粪发酵研究.上海环境科学,1999,19·2):170—172
39 王光,王利华.从营养角度探讨减少环境污染的途径.家畜生态,1998,19(2):37—39
40 傅泽田,祁力钧.国内外农药施用状况及解决农药超量施用问题的途径.农业工程学报,1998,14(2):7—12
41 朱有为,段丽丽.浙江省畜牧业发展的生态环境问题及其控制对策.环境污染与防治,1998,21(1):40—43
42 东北农学院主编.家畜环境卫生学.北京:农业出版社,1990:293—306
43 姚志麒等著.环境卫生学.北京:人民卫生出版社,1987:299—374
44 美国公共卫生协会等著.张曾惠等译.水和废水标准检验法.北京:中国建筑工业出版社,1978:38—113
45 王翔朴主编.卫生学.北京:人民卫生出版社,1985:324
46 Cousens, R. D. Weed competition and interference in cropping systems. Proceedings ist IWCC. 1992. 1: 113-117.
47 Groves. R. H. Weed ecology, biology and spread. Proceedings 1st IWCC, 1992, 1: 83-88.
48 Horowitz, M. Mechanisms of establishment and spreading of Cyperus rolundus. Proceedings 1st IWCC, 1992. 1: 94-97.
49 Karssen, C. M. and H. J. Bouwmeester. Annual dormancy patterns of weed seeds influence weed control. Proceedings 1st IWCC. 1992, 1: 98-104.
50 沈根祥.上海市郊大中型畜禽扬数量分向及其粪尿处理利用现状.上海农业学报,1994:100增刊:12~16
51 刘更另.中国有机肥料,北京:农业出版社.1991:38~59
52 中国农业科学院土壤肥料研究所,中国肥料.上海科学技术出版社,1994:184~188
53 原田靖生.家畜堆肥畜产研究 1983:37(9):1079—1086
54 蔡建成等.堆肥工程和堆肥,1990:58—78
55 徐应明等.畜禽养殖行业废水排放标准的研究.上海环境科学,1995;14(2):34—36
56 邵宏华.城郊禽场滋味感受.中国环境报,1996年11月9日
57 肖永庆.现代化养猪场的粪便处理及综合利用.中国畜牧杂志,1992;28(4):34—36
58 张正云泽.综合猪场粪水施用于农田的预处理.国外农业环境保护
2 Freedman B. Environmental Ecology. London: Academic Pree, 1989
3 Evangelou VP. Environmtal Soil and Water Chemistry: Principles and Applications. New York:A Wiley-Interscience Publication, 1998
4 Jordan C. Mapping of rainfall chemistry in Ireland 1972-94. Biology and Environment, 1997,97B(1):53-73
5 Zhou Qixing, Gibson CE, Foy RH. Long-term changes of nitrogen and phosphorus loadings to a large lake in north-west Ireland. Water Research, 2000, 34(3): 922-926
6 Edwards AC, quality: a UK perspective. Soil Use and Management, 1998, 14: 124-130
7 国家自然科学基金委员会.2000年度国家自然科学基金项目指南.北京:北京大学出版社,1999.15—16
8 周启星.复合污染生态学.北京:中国环境科学出版社,1995
9 崔明珍等.中国公共卫生,1994.10.21~22
10 鲍子平等.环境科学学报,1994,14,385~388
11 刘光明等.环境污染与防治,1997.4:36~39
12 荣耀等.先进猪场废水处理及利用技术.中国专利.1060279
13 徐法泉.农村能源.1993.1(2):24~27
14 傅立勋等.改善生态环境.北京:学术书刊出版社,1989.10
15 方言磊.中国环境与发展.北京:科学出版社,1992.4
16 胡寿国等.生态农业.武汉:湖北科学技术出版社,1995.8
17 东北农学院主编.家畜环境卫生学.北京:农业出版社,1990:293—306
18 姚志麒等著.环境卫生学.北京:人民卫生出版社,1987:299—374
19 美国公共卫生协会等著.张曾惠等译.水和废水标准检验法.北京:中国建筑工业出版社,1978:38—113
20 王翔朴主编:卫生学.北京:人民卫生出版社,1985:324
21 Knox R C et al. Aquifer restoration state of the Art. Part. Ridge. NJ. Noyes Pub. 1968: 231
22 Gutnick D L et at. Oil tankers and Pollution: a microbiological approach. Ann Rev Micro. 1979: 31: 379—396
23 Linos er al. Proposed that soil fungi more effcient in dagrading petroleum than are bacteria. Oikos. 1976; 27: 377-382
24 Atlas R M et al. Biodegradation of crude oil by tundra soil microrganisms. In: Wxley T A el al. (Eds). Proceedings of the 4th international biodete-rioration symposium. London Pitman Pub Ltd. 1980: 21-28
25 范成新,季江.太湖富营养化现状、趋势太其综合治理对策.上海环境科学,1997,16(8):4—7,17
26 张秀敏,马生伟.抚仙湖流域综合治理规划方案研究.环境科学研究,1999,12(5):16—19
27 魏文区.水库水质富营养化趋分析.环境与开发,1998,13(4):29—30
28 桂森,孟敏艳,李学东,等.密云水库水质现状及发展趋势.环境科学,1999,20(2):11O—112
29 李庆成.全国重点环境考核城市地下水污染概况与防治对策.地下水,1992,14(1):2—4.5
30 品耀.苏南太湖流域农业点源污染及农业持续发展战略.环境科
学动态,1998(2):1—4
31 马立珊.苏南太湖水系农业非点源污染及其控制对策研究.应用生态学报,1992,3(4):346—354
32 易秀,薛澄泽.氮肥在土娄土中的渗漏污染研究.农业环境保护,1993,12(6):250—253
33 单正军,朱忠林,华晓梅,等.除草剂拉索对地下水影响研究.环境科学学报,1994,14(1):72—74
34 董克虞.畜禽粪便对环境的污染及资源化途径,农业环境保护,1998,17(6):281—283
35 赵鸿雁、吴钦孝,韩冰,等.影响水土流失因子间量纲和谐法则.水土保持通报,1995,15(2):49—52
36 姚槐应,何振立,黄昌勇.提高氮肥利用效率的微生物量机制探讨,农业环境保护,1999,19(2):54—56
37 高吉喜,叶春,杜娟,等.水生植物对面源污水净化效率研究.中国环境科学,1997,16(2):3—6
38 杨虹,李道棠,朱章玉.高温嗜粪菌的选育和猪粪发酵研究.上海环境科学,1999,19·2):170—172
39 王光,王利华.从营养角度探讨减少环境污染的途径.家畜生态,1998,19(2):37—39
40 傅泽田,祁力钧.国内外农药施用状况及解决农药超量施用问题的途径.农业工程学报,1998,14(2):7—12
41 朱有为,段丽丽.浙江省畜牧业发展的生态环境问题及其控制对策.环境污染与防治,1998,21(1):40—43
42 东北农学院主编.家畜环境卫生学.北京:农业出版社,1990:293—306
43 姚志麒等著.环境卫生学.北京:人民卫生出版社,1987:299—374
44 美国公共卫生协会等著.张曾惠等译.水和废水标准检验法.北京:中国建筑工业出版社,1978:38—113
45 王翔朴主编.卫生学.北京:人民卫生出版社,1985:324
46 Cousens, R. D. Weed competition and interference in cropping systems. Proceedings ist IWCC. 1992. 1: 113-117.
47 Groves. R. H. Weed ecology, biology and spread. Proceedings 1st IWCC, 1992, 1: 83-88.
48 Horowitz, M. Mechanisms of establishment and spreading of Cyperus rolundus. Proceedings 1st IWCC, 1992. 1: 94-97.
49 Karssen, C. M. and H. J. Bouwmeester. Annual dormancy patterns of weed seeds influence weed control. Proceedings 1st IWCC. 1992, 1: 98-104.
50 沈根祥.上海市郊大中型畜禽扬数量分向及其粪尿处理利用现状.上海农业学报,1994:100增刊:12~16
51 刘更另.中国有机肥料,北京:农业出版社.1991:38~59
52 中国农业科学院土壤肥料研究所,中国肥料.上海科学技术出版社,1994:184~188
53 原田靖生.家畜堆肥畜产研究 1983:37(9):1079—1086
54 蔡建成等.堆肥工程和堆肥,1990:58—78
55 徐应明等.畜禽养殖行业废水排放标准的研究.上海环境科学,1995;14(2):34—36
56 邵宏华.城郊禽场滋味感受.中国环境报,1996年11月9日
57 肖永庆.现代化养猪场的粪便处理及综合利用.中国畜牧杂志,1992;28(4):34—36
58 张正云泽.综合猪场粪水施用于农田的预处理.国外农业环境保护