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1.
目前我国水产养殖废水直接排放的现象较多,使受纳水体富营养化和生物多样性降低;同时养殖水体中残饵、水生生物排泄物容易引起水体溶解氧下降、病原体增加并产生有害物质如氨氮、亚硝酸盐等,引起养殖对象发病甚至死亡.提出采用以组合填料为载体的序批式生物膜反应器处理水产养殖废水.通过试验确定了最佳运行模式:水力停留时间12 h,其中瞬时进水→厌氧(3 h)→曝气(5 h)→添加原水(添加比1:3)→缺氧(3 h)→曝气(1 h)→沉淀(0.5 h)→排水(0.5 h),并考察了试验对污染物的去除特性.试验结果表明了序批式生物膜法处理水产养殖废水的可行性,对有机物、氨氮、TN、TP的平均去除率分别为91.1%、85.1%、75.8%、89.5%,处理后出水可回用于水产养殖.  相似文献   

2.
采用移动床生物膜反应器(MBBR)处理低浓度氨氮养殖废水,在不同水力停留时间(HRT)和不同曝气条件下,分析MBBR处理人工模拟的低浓度氨氮(2 mg/L左右)养殖废水的进出水氨氮、亚硝酸盐氮和硝酸盐氮的浓度变化,探讨HRT和曝气量对MBBR处理低浓度氨氮养殖废水的影响,并以实际鲟鱼养殖废水(氨氮浓度0.5~1.5 mg/L)和其他研究成果进行验证和比较.结果显示:MBBR的最优HRT为6~8 min,最优曝气量为180 L/h,相应的氨氮去除率为70% ~ 75%,氨氮去除负荷为560~700 g/(m3.d),填料生物膜厚度为26~38 μm;膜表层结构多样,物种丰富,膜生长良好.该反应器对处理低浓度氨氮养殖废水具有的高效能力.  相似文献   

3.
生物膜法是一种采用人工干预的方式促进废水中污染物降解的好氧生物处理技术。生物膜法净水效率高、成本价格低、操作简便、无二次污染,广泛应用于废水的生物处理,但应用于水产养殖水体处理仍然十分有限。本文综述了生物膜法的概念、生物膜的形成、影响因素及作用机理及其在我国水产养殖水体处理中的应用,展望了生物膜法在节水减排型的池塘养殖模式中的应用前景。  相似文献   

4.
本文通过在循环水养殖系统中添加不同浓度的臭氧,研究其对循环水养殖系统生物膜活性及其净化效能的影响.结果显示,当氧化还原电位(ORP)小于450 mV时,氨氮的去除率随着臭氧浓度升高而升高,最高去除率达39.9%,亚硝酸盐氮的平均去除率为28.2%,生物膜菌群的平均存活率为88.1%,生物膜对养殖水体氨氮和亚硝酸盐氮的处理效果良好;当氧化还原电位为500 mV时,经过臭氧24 h处理,氨氮和亚硝酸盐氮的去除率分别由36.5%、28.1%降到12.2%、8.4%,而臭氧4h处理后,生物膜对氨氮和亚硝酸盐氮的去除率分别由47.5%、32.1%降到5.0%、3.3%,水处理效果明显下降,生物膜菌群存活率由88.1%降到31.5%.由此可见臭氧添加浓度对生物膜及净化效能有重大影响.综合试验结果和分析评估,建议封闭循环水养殖系统的臭氧添加量以控制生物滤池内的氧化还原电位低于400 mV为宜,可保证循环水系统的安全性和经济性.  相似文献   

5.
本文介绍了虹鳟鱼在双层浮球式生物滤器封闭循环式养殖系统中的养殖试验。该养殖系统主要包括射流暴气增氧、沉淀分离和双层浮球生物过滤器过滤,过滤悬浮物能力达到90%,氨氮处理能力达到149~(gm-3.d-1)(在养殖水体15度条件下),利用臭氧催化氧化法完成杀菌、消毒及二次去除氨氮作用。在8个养殖水体为1m~3的养殖池,放养1015尾平均体重240g虹鳟鱼的循环水养殖系统中,应用动力为0.75kW、处理能力为20 T/h的BAF—20型双层浮球生物过滤设备进行循环养殖水体的处理。在养殖试验过程中,对养殖水体的pH、DO、COD、悬浮物、氨氮、亚硝酸盐、硝酸盐等水化学指标进行了监测,并对虹鳟鱼在养殖过程中不同阶段的生长情况进行了测量。结果表明,在水体循环周期为2次/h,换水周期为一次/每两周的条件下COD≤15mg/l、氨氮≤1mg/l、亚硝酸盐≤0.13mg/l、硝酸盐≤24mg/l,经对比养殖试验表明,没有循环鱼池的水体和经过浮球式生物滤器封闭循环系统的循环水体的各项指标具有明显的差别。试验表明浮球式生物滤器封闭循环水系统完全满足虹鳟鱼工厂化养殖生产的要求,确保虹鳟鱼养殖水体的水质和鱼类生长环境,达到良好养殖效果。  相似文献   

6.
<正>氨氮是水产养殖中备受关注的一个重要水质指标。水产养殖水体中的氨氮由非离子氨(NH3-N)和离子态铵(NH4+-N)所组成,主要来源于含氮物质的转化分解,包括无机和有机氮肥、水产生物的排泄物、残剩饵料及死亡残体(藻类等)。养殖水体中氨氮浓度的升高,一方面可造成水体富营养化,导致蓝藻暴发,另一方面可影响水产生物的生长、降低其对不良环境及疾病的抵抗能力,成为诱发病害的主要原因,影响水产养殖生产。氨氮污染已成为制约水产养殖环境的主要胁迫因子。  相似文献   

7.
集约化投饵型养殖会导致养殖区域底部环境持续恶化,限制了水产养殖的可持续发展。对采自威海金海滩排污口附近污泥中的海洋光合细菌进行了富集、分离和初步鉴定,模拟自然养殖环境,选取优势菌株进行池塘底泥处理试验(上层水体,下层底泥),分析比较两株菌对底泥的改良效果;试验共获得两株优势光合细菌PSB1和PSB2,分属于红假单胞菌属(Rhodopseudomonas)和小红卵菌属(Rhodovulum)。底泥处理试验结果显示:PSB1和PSB2都可以稳定水体pH,降解水中的硫化物、氨氮和化学耗氧量(COD_(Mn))。PSB1处理底泥最佳效果为:添加1‰的PSB1,水体中pH在6.98~7.33,底泥中COD_(Mn)、硫化物、氨氮和NO~-_2-N降解率分别为92.91%、79.61%、97.00%和73.56%。研究表明,光合细菌可以促进改善水质、维持下层水体的良好水质,在水产养殖中具有良好的应用前景。  相似文献   

8.
为研究甘蔗渣作为载体填料用于海水曝气生物滤池中的可行性,在海水曝气生物滤池中培养生物膜,并以此为基础构建海水养殖排放水处理系统。通过监测水体总氨氮(TAN)、亚硝酸盐氮(NO2--N)等水质指标浓度变化,水体游离细菌与载体附着细菌密度变化,评价甘蔗渣载体生物滤池的降解效果。结果显示,以甘蔗渣为载体的生物滤池挂膜所需时间为26 d,挂膜完成后甘蔗渣附着可培养总菌和芽孢杆菌密度分别为3×108cfu/g和7.8×107cfu/g。在处理养殖水体时,生物滤池中水体氨氮和亚硝酸盐氮浓度分别控制在0.2 mg/L和0.05 mg/L以下,同时,水体中芽孢杆菌数量由3.3×103cfu/L增加至7×104cfu/L,弧菌数量由4.9×103cfu/L下降至3.1×101cfu/L。研究表明,以甘蔗渣为载体的海水曝气生物滤池能快速有效地完成挂膜,并在海水养殖排放水处理中取得较好效果。  相似文献   

9.
为研究不同曝气策略对序批式生物膜反应器(SBBR)净化模拟的罗非鱼工厂化养殖废水的影响,实验设计构建了5个形态结构相同的SBBR反应器,探究在两个既定溶解氧(DO)水平下(即曝气段DO=2或3 mg/L)不同曝停比(1h/5h、2h/4h、3h/3h、4h/2h、5h/1h)对其净化效率的影响。研究结果显示:不同曝停比工况下氮素去除途径主要为同步硝化反硝化。总氨氮的去除率随曝停比的增大呈升高趋势。在曝气段DO=2 mg/L工况下,总无机磷氮的去除率随曝停比的增加呈升高趋势,硝化过程是影响氮素去除的主要因素。而在曝气段DO=3 mg/L工况下,总无机磷氮的去除率随曝停比的增加呈先升高后降低的趋势,在曝停比为4/2时达到最高。实验工况下不同溶解氧水平对COD的去除无显著影响,但是不同曝停比对COD的去除却有显著影响。在曝气段DO=2 mg/L工况下,出水磷浓度随曝停比的增加呈先积累后去除趋势,且磷素的去除率随曝停比的增加而增加。而在曝气段DO=3 mg/L工况下,磷素去除率均为正值,且随曝停比的增加先升高后降低,在曝停比为4/2时达到最高。  相似文献   

10.
为研究养殖废水的生态处理方法,采用化学沉淀(聚丙烯酰胺)、物理过滤(多孔沸石)、生物吸附(美人蕉等)等方法对中华鳖养殖废水进行逐级综合处理,试验结果:养殖废水的化学需氧量(COD)、氨氮(NH+4-N)、总氮(TN)和总磷(TP)的去除率分别达到95%、86.34%、86.9%和82.17%,水体溶氧量(DO)上升到4.95 mg/L,多级综合废水处理系统表现出良好的碳、氮、磷同步脱除性能。结果表明,多级综合废水处理系统可以对温室甲鱼养殖废水进行有效的净化处理。  相似文献   

11.
生物—电氧化法去除海水养殖循环水污染物   总被引:1,自引:0,他引:1  
为提高海水养殖循环水处理效率,降低处理成本,本研究采用曝气生物滤器与电化学阳极氧化组合工艺,考察了不同阳极电势、进水氨氮和亚硝酸盐浓度下系统对氨氮及亚硝酸盐等污染物的去除效果,研究了微生物与工作电极之间的相互作用,并分析了电化学反应能耗。在水力停留时间为45 min、1.4 V阳极电压、进水氨氮和亚硝酸盐浓度分别为4.5和1.3 mg/L条件下,生物—电氧化法对氨氮去除率达88.8%,高出对照组7.6%,出水氨氮和亚硝酸盐浓度分别为0.5和0.9 mg/L,COD去除率为88.2%,高出对照组19.4%,平均能耗0.040 kWh/m~3,电极表面微生物生长对阳极电氧化过程有促进作用,微生物功能预测显示实验组硝化功能占比为0.03%,对照组为0.07%。研究表明,生物—电氧化法对海水养殖循环水的污染物有良好的去除效果,具有一定的发展应用潜力。  相似文献   

12.
为提高内循环流水养殖池塘净化区域的净化能力,从重庆潼南区内循环流水养殖池塘的底泥中分离纯化得到一株光合细菌(命名为菌株GR01)。通过形态学观察、生理生化鉴定、16S rDNA基因序列分析和扫描吸收光谱,对菌株进行分类鉴定。测定菌株GR01在不同温度、不同pH、不同盐度条件下的660 nm处的吸光度(A660),确定其最优培养条件。测定氨氮(NH3-N)、亚硝酸盐氮(NO2--N)、总氮(TN)、总磷(TP)含量,探究在室内模拟条件下该菌株对内循环流水养殖池塘净化区水体的去污能力。结果显示:菌株GR01为北京红篓菌(Rhodocista pekingensis),最适生长温度为28℃,最适pH为8.0,最适盐度为10‰,该菌株对尾水中NH3-N、NO2--N、TN和TP去除率分别为57.42%、28.74%、32.67%、32.85%。研究表明,菌株GR01对氮、磷具有明显的去除效率,其中对氨氮的去除效率最高,与内循环流水养殖模式结合具有潜在的应用价值。  相似文献   

13.
一株高效脱氮菌株的分离鉴定及应用潜力分析   总被引:1,自引:1,他引:0       下载免费PDF全文
为了获得对虾养殖池塘中高效去除亚硝态氮和氨氮的菌株,采用富集培养分离的方法,从养殖水体中筛选得到1株去除亚硝态氮和氨氮的菌株,培养24 h后的去除率分别为96.17%和88.27%,编号为O-11。基于形态学、分子生物学及生理生化鉴定结果,明确了该菌株基本生物学特征以及可能的分类地位。分离菌株在20~30℃时有利于亚硝态氮的去除,而温度为20~35℃时对氨氮的去除效果较好;分离菌株在盐度小于30的环境中对亚硝态氮的去除能力受盐度变化的影响不大;在碱性环境中分离菌株对氨氮的去除能力较高。安全性检验可知,在菌浓度为10~5~10~8 cfu/mL的菌株O-11对凡纳滨对虾(Litopenaeus vannamei)是安全的,且在菌浓度为10~5 cfu/mL时能显著提高对虾的存活率,促进对虾生长。这说明,分离菌株O-11在水产养殖水体中有害氮脱除方面具有潜在的应用价值。  相似文献   

14.
The current ecological situation of aquaculture water quality in Wushe (Songjiang district, Shanghai city) district is not up to mark. In the present study, characteristic of ecological agriculture park was first investigated and then water spinach floating bed was used to improve the aquaculture wastewater quality. The results showed significant improvement in the aquaculture water quality at the experimental site with removal rates of TN, NH4+-N, NO2-N and TP were 11.2%, 60.0%, 60.2% and 27.3%, respectively. Moreover, we found that the removal mechanism of ammonia nitrogen and nitrate nitrogen by water spinach was mostly by microorganism, whereas the removal mechanism of phosphorus was mainly by plant absorption. In addition, water spinach could be harvested at regular time intervals, which could achieve good economic benefits. This research could provide a good case study for sustainable development in ecological agricultural park for other cities around the world.  相似文献   

15.
大量的外源性饵料和排泄物使海水养殖水体N、P以及有机物大量增加,导致水质恶化,是制约海水养殖业发展的主要因素。通过构建海马齿面积比为3∶2盐度为15的A、B 2组浮床海水养殖系统,以检验海马齿的N、P移除能力。结果显示,当海马齿处于生长启动期,A组和B组的水质指标与对照组之间无显著性差异(P〉0.05);但当海马齿生长...  相似文献   

16.
To achieve water reuse in recirculating aquaculture systems, intermittent nitrification and denitrification processes using internal fibrous media was proposed. A pre-acclimated Biocord biofilter, with an initial nitrification rate of 17.1 ± 12.4 mg total ammonia nitrogen-N/m2/d was applied in a marine whiteleg shrimp (Litopenaeus vannamei) culture tank. Throughout the experiment, the aerobic nitrification activity of the biofilter was sufficient to control the ammonia and nitrite levels below 0.2 mg-N/L with an accumulation of nitrate up to 50 mg-N/L. The remaining nitrate was successfully removed after shrimp harvest with the same biofilter through anoxic denitrification in conjunction with a methanol supplement at a chemical oxygen demand: nitrate-N ratio of 5:1. With complete nitrogen removal, the water was re-aerated and the next crop of shrimp culture was initiated. In this study, a two-crop shrimp cultivation was performed in sequence in the same tank without water exchange. The microbial diversity was monitored using high-throughput sequencing on Illumina MiSeq, which demonstrated that Proteobacteria (45.3 %), Chloroflexi (18.4 %), and Bacteroidetes (17.1 %) were the most abundant phyla. With an emphasis on nitrogen removal, the family Nitrosomonadaceae and Nitrospiraceae were the dominant nitrifying bacteria during the aerobic nitrification, while a high relative abundance of the Methylophaga and Methylotenera genera was observed under the anoxic condition.  相似文献   

17.
为解决淡水池塘集约化投饲养殖水体的营养物质富集问题,采用围隔试验方法,研究了蕹菜(Ipomoea aquatica)和水鳖(Hydrocharis dubia)两种植物对泥质和沙质两种底质养殖水体的净化效果。研究发现:泥质底水体的氨氮、亚硝酸盐氮和总磷(TP)自净去除率显著低于沙质底,而泥质底水体的高锰酸盐指数(CODMn)自净去除率显著高于沙质底(P<0.05);不同底质水体中,两种植物对水体氨氮、亚硝酸盐氮、总氮(TN)和CODMn的去除率显著高于相应对照组(P<0.05);12.5%与25.0%的水鳖处理对营养物质的去除率基本无显著差异(P>0.05),12.5%的蕹菜与水鳖处理组仅在泥质底水体中水鳖(MSBI)对氨氮的去除率显著小于蕹菜(MKC)以及MSBI对亚硝酸盐氮的去除率显著高于MKC(P<0.05);泥质底水体中植物处理对氨氮、亚硝酸盐氮、TN、TP和CODMn的最大去除率分别为60.07%、54.78%、52.68%、23.96%和47.32%,沙质底分别为72.43%、83.54%、57.20%、37.07%和40.75%;此外,试验末植物处理组水体的所测营养物质均存在一定程度的上升。沙质底水体中氨氮、亚硝酸盐氮和TP等营养物质波动较大且自净去除率高于泥质底;在泥质和沙质底水体中蕹菜和水鳖浮床均具有显著净化作用,本地种水鳖可作为生态浮床的潜力净水植物;浮床应用过程中应加强收割与收获等管理,以避免水体二次污染。  相似文献   

18.
Ammonia removal and disinfection are two major problems in aquaculture systems, which require clean and reliable water to support long-term growth and health of target animals. In this study, we report electrochemical ammonia removal and disinfection of wastewater from an aquaculture farm (Mari’s Gardens) in Hawaii. First, we attempted to reproduce the work of Zollig and co-authors, who reported that direct ammonia oxidation can occur between 1 V and 1.6 V vs SHE on a graphite electrode in a solution (pH = 9.0) containing 1 M NaClO4, 0.25 M NH4ClO4, and 0.085 M NaCl. Our results, however, show that direct ammonia oxidation is unlikely to occur, at least at significant rates, on a graphite electrode in aqueous solutions (pH = 9.0) containing 0.7 M Na2SO4, 0.1 M (NH4)2SO4, and 0.02 M NaCl. We tentatively attribute this discrepancy to the different physico-chemical characteristics of graphite electrodes made by different manufacturers. Second, PtRu/graphite electrodes were prepared using a pulsed electrodeposition method, and electrode activity towards ammonia removal and disinfection was examined in both synthetic and real aquaculture wastewater using batch and flow reactors. The PtRu catalyst was partially oxidized at the beginning of electrolysis, and a significant increase in the electrode activity towards indirect ammonia oxidation was observed. Ammonia removal was slow when NaCl concentration was 0.66 mM, but the addition of NaCl (up to 20 mM) led to a drastic increase in the ammonia removal rate, indicating that ammonia removal proceeds via indirect oxidation. The ammonia removal rate depends primarily on NaCl concentration and current density and is independent of the initial ammonia concentration and solution pH. The ammonia removal rates can be modeled by pseudo zero-order kinetics, and a linear correlation can be drawn between the ammonia removal rate (k, mg L−1 min−1) and the product of NaCl concentration ([Cl-], mM) and current density (j, mA/cm2): k = 0.0047 [Cl-] j (R2 = 0.99). Free chlorine (Cl2, HOCl, and OCl-) was not detected in the solution until the complete removal of ammonia. Combined chlorine (NH2Cl, NHCl2, and NCl3) was measured at concentrations of 2–15 mg/L (as Cl2) during the ammonia removal process but was eliminated as soon as ammonia was depleted and an excess of free chlorine was available. Our detailed findings on the formation of both free chlorine and combined chlorine are significant to the mechanistic study of indirect ammonia oxidation. Ammonia removal experiments in synthetic and real aquaculture wastewater showed similar results. However, ammonia removal in the flow reactor took about three times longer than that in the batch reactor under similar conditions, likely due to hydrodynamic mixing differences. In addition, it was found that E. coli bacteria can be completely inactivated (5-log reduction) within a short time (e.g., 5 min).  相似文献   

19.
本文研究了沉水植物伊乐藻(Elodea nuttallii)在白色LED灯处理水产养殖中氨氮的效果。在50×33cm和45×28em鱼缸中放入体质量150±5g鲫(carassius auratus)7尾,放入伊乐藻1.2kg,应用白色LED灯为光源,用遮光纸遮光,放入28w循环泵进行交叉循环。12d饲养结果表明:伊乐藻不仅可吸收养殖排泄的氨氮、增加水体溶解氧,而且养殖鱼类代谢的二氧化碳可以促进沉水植物生长,具有生态循环利用的效能,为进一步研究循环水养殖的生态利用提供了参考。  相似文献   

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