亚硝化—厌氧氨氧化处理猪场废水研究

猪场废水COD浓度高、氨氮浓度高、悬浮物浓度高，已成为农村面源污染的主要来源，并严重威胁到农村饮用水安全。猪场废水氨氮浓度高、处理难度大，如何采用经济高效的方法，去除氨氮使其达到排放标准，一直是猪场废水处理中面临的重要难题。 厌氧氨氧化是近年受到国内外水处理研究者广泛关注的新型生物脱氮技术，具有不需要外加有机碳源、节省供氧量、降低能耗等优点。虽然国内外研究者对厌氧氨氧化过程的脱氮机理、厌氧氨氧化菌的生理生化特性等进行了多方面的研究，但已有的报道大多以模拟废水为研究对象，以猪场废水为研究对象的报道，在国内外文献中极少有报导。 本论文以猪场废水为主要研究对象，考察了猪场废水的亚硝化过程、厌氧氨氧化的启动过程，并对亚硝化和厌氧氨氧化联合用于猪场废水脱氮进行了探索。 1．论文首先研究了猪场废水的亚硝化过程，考察了废水水质和主要运行条件对亚硝化过程的影响。实验表明：（1）亚硝化阶段反应时间为8到10h时，出水中氨氮和亚硝酸盐浓度比可达到1：1～1：1.23，满足厌氧氨氧化反应对二者比例的要求；达到前述要求时，氨氮去除率达到58.3～65.6 %，亚硝化率在整个过程均保持在97 %以上，COD去除率在59.2～68.6 %；（2）曝气量（溶解氧）对亚硝化过程影响显著，随着曝气量增大，达到厌氧氨氧化要求的氨氮与亚硝酸盐氮浓度比例所需水力停留时间τ越短，pH出现明显下降的时间越短；（3）τ对应的pH在7.8～8.1之间，无需进行pH调节即可满足厌氧氨氧化反应对pH的要求；（4）氨氮和COD降解过程遵循一级反应动力学，氨氮和COD降解的速率常数分别为0.0656～0.0724 1/h和0.0491～0.0664 1/h。 2．在进行亚硝化过程研究的同时，以模拟废水为试验对象，进行厌氧氨氧化启动研究。以反硝化污泥和养殖厂储水池厌氧底泥的混合污泥作为接种污泥，历时大约100天，培育出具有厌氧氨氧化活性的污泥，氨氮和亚硝酸盐氮最高进水浓度分别为223.8 mg/L和171.4 mg/L，去除率最高分别达48%和41.5%，此时二者消耗比例为1.33：1。 3．在猪场废水的亚硝化研究完成和厌氧氨氧化过程初步启动成功后，在模拟废水中逐步加入猪场废水的亚硝化处理出水，逐步实现亚硝化和厌氧氨氧化的组合。亚硝化出水添加到厌氧反应器后，厌氧氨氧化反应仍可继续进行，且去除效率逐步提高。研究发现添加的亚硝化出水中携带的亚硝化细菌在厌氧氨氧化菌膜外层生长并累积，增加了厌氧氨氧化反应基质的传质阻力，妨碍了厌氧氨氧化效率的提高。 4．亚硝化－厌氧氨氧化实际工程应用探索中，生物接触氧化池可在有效去除废水中的有机物的同时实现亚硝化，出水中氨氮和亚硝酸盐比例平均为1.10，可满足后续厌氧氨氧化的要求；在适宜的进水浓度和温度下，ABR池出现了厌氧氨氧化启动的迹象；研究同时发现，水质的波动和气温的变化是工程中影响厌氧氨氧化菌活性的重要因素。 论文的主要创新点在于：（1）以猪场废水为研究对象，以实现厌氧氨氧化为目标，对亚硝化过程进行了比较详细的考察，获得了亚硝化出水满足厌氧氨氧化要求的工艺条件，通过对其COD和氨氮降解过程的考察，得出亚硝化阶段COD降解和氨氮去除的动力学模型；（2）对亚硝化－厌氧氨氧化处理猪场废水进行了探索，确立了影响其污染物去除率稳定的重要因素。 论文的上述研究成果，为厌氧氨氧化技术的实用性研究提供理论依据。 Piggery wastewater, which is characterized by high concentration of COD、ammonium and suspend substance, has become a most important source of non-point source pollution and also severely threats drinking water security in rural area. How to discharge piggery wastewater with the ammonium concentration meeting standard by economical and effective method? This is the most urgent problem in piggery wastewater treatment. As a new biological nitrogen removal technology, Anammox process has been paid more and more attention by researchers all over the world. Anammox has advantages of no need of organic carbon addition, low oxygen consumption and energy consumption. Plenty of investigations have been carried out to the mechanism, physiological and biochemical characteristic of bacteria about Anammox. Most of researches focused on synthetic wastewater, there is rare report about its application in piggery wastewater. In this paper，experimental studies were performed to investigate Sharon process in treatment of piggery wastewater，the start up process of Annammox using synthetic wastewater were studied, the feasibility of applying Sharon-Anammox process in the nitrogen removal of piggery wastewater was evaluated. 1. Sharon process of piggery wastewater was firstly investigated to analyze the effects of water quality and main running parameters, which meet the NH4+-N to NO2--N ratio requirement of successive Anammox. Results showed: (1)During Sharon Process，after 8～10 hours’ reaction the NH4+-N to NO2--N ratio in effluent reached 1:1.0～1:1.23, when the removal percentage of NH4+-N was 58.3～65.6 %, a semi-nitration rate of above 97 % was achieved during the process; meanwhile 59.2～68.6 % of the COD was also removed. (2)The aeration rate（oxygen） had obvious effect on the hydraulic retention time(τ) which met the NH4+-N to NO2--N ratio requirement of Anammox. As aeration rate increased, the hydraulic retention time(τ) was shortened. (3) The pH corresponding to τ was between 7.8 and 8.1, thus it needed no artificial adjustment. (4) The reduction of ammonia and COD followed the first-order reaction kinetics. The velocity constants of ammonia and COD were 0.0656～0.0724 1/h and 0.0491～0.0664 1/h, respectively. 2. The startup of Anammox process using the artificial wastewater was performed simultaneously with Sharon. The aim was to investigate the running parameters of Anammox and make foundation for the combination stage. By using the mixture of denitrifying sludge and anaerobic sludge in tank of the breeding factory, sludge of Anammox activity was cultivated in UASB after 100 days. The removal percentage of NH4+-N and NO2-N were up to 48% and 41.5%, respectively, when the NH4+-N and NO2-N influent concentration were 223.8 mg/L and 171.4 mg/L, respectively, the NH4+-N and NO2-N removal rate was 1.33:1. 3. After investigation of Sharon and startup of Anammox, effluent of Sharon process was added into the synthetic wastewater to combine Sharon and Anammox step by step. It took some time after the addition of Sharon effluent that Anammox reaction continued and the removal rate kept increasing. It indicated that nitrifying bacteria were carried by the Sharon effluent cumulated in the outer layer of Anammox. This enhanced transfer resistance of Anammox reaction and the increasing removal rate was restrained. 4. In the bio-contact oxidation pond of practical project, Sharon process were carried out successfully and organic compounds were removed effectively. An average NO2-N/ NH4+-N rate of 1:1.0 was achieved in the effluent, which met the requirement of successive Anammox. Under condition of suitable influent concentration and temperature, there was evidence that Anammox could start up in ABR. The variety of wastewater and temperature had great affects on Anammox activity in practical engineering. Innovation of this paper: (1) The Sharon process for treating piggery wastewater was discussed in details. Technological parameters that met requirement of Anammox were obtained. The dynamic models of COD and ammonium removal in the process were educed. (2) Sharon-Ananmmox for treatment of piggery wastewater was investigated, and the primary influencing factors was studied. This paper could be a theoretical consult for research of Anammox utility.

中国粮食生产的区域演进研究

Grain is one of the primary material conditions of the human survival and the grain production concerns the stability and development of the society directly. The regional patterns influence greatly on the grain production and the rational production distribution the regional comparative advantages and promotes grain production. This thesis starts with summarizing of the characteristics of changes and the overall trend of regional pattern of grain production of our country since 1949. Then it carries on network analyses to the factors, which influences the evolvement of regional grain production patterns of our country. And finally it gives some proposals to the grain production distribution in the future. The main content includes: Firstly, Reviewing the regional evolvement of grain production in our country, and analyzing the changes of the regional pattern of grain production of our country on the provincial scale and county scale separately, since 1949, especially since the reform and opening up policy. The main grain production areas are acting an important position in ensuring the national grain security, so this thesis analyses the main matter of the main grain production areas, forecasts the grain production situation in the future, and selects the Northeastern main grain production areas as the typical area to carry on the positive research. Secondly, this thesis analyzes the origin causes from two respects of natural and social economy of the regional evolvement pattern of grain production in China. Thirdly, based on the summarizing to the status of the regional pattern of the grain production, this thesis proposes the precept of the grain production distribution in the future in our country. Therefore, the areas of three major cereal crops, rice, wheat and corn, are confirmed on the basis of the comparative advantages. Finally, this thesis puts forward the security system of guaranteeing the grain production progressing steady in China. According to the above analysis, some conclusions have been achieved as follows: (1) The grain gross production gets on extricating itself from awkward position frequently while fluctuating greatly annually since 1949 in China. (2) Since the reform, its traditional regional pattern of grain production, the most of which was concentrated in the south area, has changed rapidly. China's center of gravity of grain production has shifted from the south to the north, and on the belts of latitude, the grain production has represented a trend of focusing to the middle area in China. (3) The main grain production areas play a very important role in ensuring China's food security. With their relative severe situation of the problems of agriculture, rural area and peasant, China has carried out a series of measures, which aim at improving the food-producing conditions of the main grain production areas, and enhancing the grain yields there. Under this condition, a forecast of the producing amount of the main grain production areas under the nation's self-supplying rate of over 95% shows that the increasing provision production in these areas can meet the demand of the country. (4) The natural and social economic factors influence together on the changes of the grain production regional pattern. Along with the state system transition and progress of agricultural science and technology, the regional pattern of grain production is affected heavier by the agricultural policy and technological elements. (5) The grain production will be concentrated to the middle province in the future, which economic development level being medium-sized; According to crop allocation, although the rice superiority production area located in the South, its comparative advantage index is little in some degree. Meanwhile, the wheat and corn superiority production areas are in the North mainly and its scale superiority and production level advantage are all comparatively obviously.

安顺大气降水中低分子有机酸及其与贵州其它地区对比研究

低分子有机酸是对流层大气的重要组成成分，广泛分布于大气中的气相、液相、气溶胶中。本文以贵州省安顺作为研究区域，在 2007 年 6 月~2008年 6月期间，收集大气降水样品118个，对降水中主要成份尤其是低分子有机酸及其对自由酸度的贡献进行了为期一年的研究。并通过与贵州其它3个地区的对比，重点讨论了大气降水中低分子有机酸时间和空间的变化规律、成因机制、对降水自由酸度的贡献以及来源等关键问题。得出的主要结论如下： （1） 安顺降水总体呈酸性，pH雨量加权平均值为 4.89，范围在3.57～7.09，酸雨频率为 57.0%。降水的电导率平均值为46.52μs•cm-1，变化范围为6.01～298.00 μs•cm-1，该值远远高于降水背景站点，表明该地区受到了明显的人为活动影响。 （2） 安顺大气降水中离子浓度的顺序依次为SO42->Ca2+>NH4+>NO3-> Mg2+>K+>Na+>Cl->H+>HCOOHt>CH3COOHt >(COOH)2(t)2-。大气降水中最重要的离子为SO42-、NO3-（阴离子）和Ca2+、NH4+ 和Mg2+（阳离子），平均浓度依次为140.9、46.1、124.2、45.4和36.2µmol/L。相关性分析和聚类分析表明，安顺SO2和NOx具有同源特征，且进入降水的途径相同。大气中的铵主要以硫酸铵与硝酸铵的形式存在于大气中，成为大气中重要的酸性气溶胶。另外，CaSO4、NaCl、MgCl2、(NH4)2SO4、NH4NO3、KNO3、H2SO4、HNO3是降水的主要化学组分。降水中Ca2+、NH4+、Mg2+和K+的中和因子分别为0.38、0.14、0.22、0.05，表明降水中最重要的中和物质是Ca2+，其次是Mg2+和NH4+。源分析表明，安顺大气降水中的K+和Ca2+主要来自以岩石和土壤为主的陆相输入，而SO42-和NO3-主要来自人为活动的贡献，其人为贡献量高达97.0%和94.3%。Mg2+主要来自陆源输入，仅有9.1%来自海水的贡献。Cl-属于海盐性离子，但在安顺降水中，仅有57.3%来自海相输入，小部分（1.3%）来自岩石和土壤风化的贡献，人类活动排放的Cl-也是该地区一个重要来源。 （3） 安顺大气降水中共检测出7种低分子有机酸，含量最高的有机酸组成依次是甲酸(HCOO-)、乙酸(CH3COO-)和草酸（(COO)22-），雨量加权平均浓度分别为8.77、6.90和2.84µmol/L。降水中所测有机酸的平均总含量为19.00µmol/L，对阴离子总和的贡献为12.6%。对于 pH<5 的降水，甲酸、乙酸和草酸对自由酸度的平均贡献值（按最大贡献率法计算）分别为 19.2%、5.9和7.8%，总有机酸（三者之和）对自由酸度的平均贡献值为32.9%。这些事实表明，安顺大气降水中的有机酸是降水化学物质的重要组成部分，会对降水的物理和化学特征产生重要的影响。采样期间，安顺甲酸、乙酸和草酸的湿沉降通量分别为10.81、10.46和3.94 mmol/m2/year。根据气液平衡理论，估算出甲酸和乙酸的干沉降量，分别为4.78和1.63mmol/m2/year。 （4） 安顺降水有机酸浓度存在着明显的季节性变化，四季的有机酸浓度由高到低分别为：冬季>春季>夏季>秋季；非生长季节>生长季节。这种季节变化特征显然与植物生长的季节变化特征不一致。表明安顺大气中的有机酸浓度的影响因素非常复杂；植物生长、降雨量（降雨强度和持续时间）和人为活动等因素的季节变化都会影响大气有机酸的组成和分布特征。在连续降雨过程的监测中发现甲酸和乙酸的浓度是随降雨过程（时间）同步变化，这说明甲酸与乙酸很可能存在相同的来源或者相似的源强，它们在大气中的清除方式也可能相同。而草酸的浓度与日照强度和温度有关，与降雨发生的时间有很重要的关系，表明草酸多来源于光化学反应为主的间接来源。另外，还发现降雨初期降水酸性要强于降雨后期，这表明降雨对大气中污染物质有明显的清除和稀释作用。 （5） 相关性分析表明，甲酸和乙酸之间存在显著的相关关系，相关系数为0.80，这种强烈的正相关表明甲酸和乙酸具有相似的排放源或者排放源不同但有相似的排放强度；草酸与甲酸和乙酸也都具有显著相关关系,这可能是因为草酸与甲酸和乙酸具有相同的排放源或者是草酸的前体物如甲醛与甲酸、乙酸具有相似的排放源；甲酸与NH4+、NO3- 和NO2-的相关关系也很高，表明甲酸的主要来源是农业活动或者生物质燃烧和汽车尾气排放等。乙酸和草酸的情况与甲酸类似。论文建立了甲酸与乙酸分析浓度比值(F/A)T的判定方程曲线，结果表明安顺有机酸主要来源于直接来源，包括植物直接释放，生物质燃烧，汽车尾气排放等；间接来源如不饱和碳烃化合物（如烯烃和异戊二烯）和醛类物质(如甲醛）的光化学氧化不是该地区有机酸的主要来源。 （6） 对比贵州其它3个监测站点的降雨数据后，发现大气降水对降水酸度的贡献，偏远地区（尚重）要远大于工业城市。另外，安顺和尚重大气有机酸以直接来源为主。其中，尚重有机酸的主要来源是植物释放，而安顺有机酸的主要来源是生物质燃烧、汽车尾气等人类活动的释放。贵阳市有机酸的主要来源是间接来源，即有机酸前体物的光化学氧化。遵义有机酸的来源具有明显的季节周期性，在夏秋以直接释放为主，而春冬季节以间接释放为主。