高温ASBR处理水热改性污泥的工艺特性

采用高温ASBR处理水热改性污泥.结果表明,高温ASBR处理水热改性污泥的有机负荷(COD)由7.762kg/(m3·d)提升到13.106kg/(m3·d)后,会导致反应器内VFA的积累,pH和产气量的下降,反应器出现"酸化"现象.这种酸化现象属可恢复性酸化.系统恢复后,ASBR的有机负荷(COD)能达到10kg/(m3·d).高温ASBR在有机负荷(COD)为2.523、4.196、7.762、10.091kg/(m3·d)时的产气率(CH4/COD投入)分别为250、247、219、187mL.高温ASBR的有机负荷OLR与产甲烷速率MPR和COD产气率之间都呈现良好的线性关系,随着OLR的增加,产甲烷速率增大,COD产气率减少.     

两阶段ASBR处理厨房垃圾的实验研究

应用两阶段ASBR技术对厨房垃圾进行实验室规模的处理研究。结果表明:总COD的去除率为77 6%,而总TS的去除率为72 21%,系统的产CH4率以TS和容积负荷计分别为212mL g和0 67L (L·d)。同时,研究发现适宜的pH值水解相为4～5,甲烷相为7～8;适宜的HRT水解相为5d,甲烷相为13 3d;适宜的固体浓度水解相TS为8%,甲烷相TS为7%;适宜的负荷(以TS计)水解相为16g (L·d),甲烷相为5 23g (L·d)。      

A two-stage anaerobic system for biodegrading wastewater containing terephthalic acid and high strength easily degradable pollutants

ＩｎｔｒｏｄｕｃｔｉｏｎＴｅｒｅｐｈｔｈａｌｉｃａｃｉｄ (ＴＡ)ｉｓｏｎｅｏｆｔｈｅｒａｗｍａｔｅｒｉａｌｓｗｉｄｅｌｙｕｓｅｄｉｎｔｈｅｐｅｔｒｏｃｈｅｍｉｃａｌｓｙｎｔｈｅｓｉｓｉｎｄｕｓｔｒｙｓｕｃｈａｓｒｅｓｉｎ ,ｔｅｒｙｌｅｎｅｆｉｂｒｅ ,ｐｌａｓｔｉｃｆｉｌｍａｎｄｄｙｅａｎｄｓｏｏｎ .Ｉｎ 1999,ｔｈｅｔｏｔａｌｏｕｔｐｕｔｏｆＴＡｗａｓａｂｏｕｔ10 0ｂｉｌｌｉｏｎｔｏｎｐｅｒｙｅａｒ,ａｎｄｃｏｕｎｔｒｉｅｓｏｒａｒｅａｓｐｒｏｄｕｃｉｎｇＴＡｉｎｃｌｕｄｅＵＳＡ ,Ｊａｐａｎ ,Ｓｏｕ…     

pH6.0酸性条件下产甲烷EGSB反应器的运行研究

采用中性颗粒污泥接种,运行一个3.1L的EGSB反应器共345d,通过逐步降低pH值,获得了耐酸的产甲烷颗粒污泥并实现厌氧反应器在低pH、低碱度条件下的稳定运行.在pH 6.0,进水COD 3000mg/L,COD容积负荷5kg/(m³·d)时,反应器的COD平均去除率为95.0%,出水总碱度(以CaCO₃计)仅为328.5mg/L,每g去除COD的沼气产量为372.2mL,沼气中甲烷含量约为57.6%;在进水COD 4 000mg/L,COD容积负荷7.5kg/(m³·d)时,COD平均去除率为90.9%,出水总碱度仅为404.8mg/L,每g去除COD的沼气产量为446.3mL,甲烷含量约为55.9%.EGSB反应器在pH6.0～6.1的范围内共运行112d,表明在低pH、低碱度下实现稳定的产甲烷过程是可行的.     

高温和中温ASBR处理热水解污泥的对比

进行了高温、中温厌氧序批式反应器(ASBR)处理热水解污泥的对比试验研究.在HRT＝10d,总COD(TCOD)容积负荷为5.42 kg/(m³·d) 的条件下,高温、中温ASBR的TCOD去除率分别为56.20%、61.66%,污泥COD的产气率(CH₄)分别为199、219 mL/g.ASBR能有效积累污泥悬浮固体从而保持较高的固体停留时间(SRT),高温、中温ASBR的平均SRT分别为30、37d.同中温ASBR比较,高温ASBR的微生物形态单一、种类少和产甲烷活性较低,因此高温ASBR的处理效率和产气率较中温低.     

含固率和有机负荷对厨余垃圾厌氧消化性能及沼渣特性的影响

为提高厨余垃圾厌氧消化性能和促进沼渣资源化利用,以底物降解效能和产甲烷量最大化为目标,分别考察不同进料总固体（TS）含量（含固率）(12%、15%、18%、25%、28%、33%)和有机负荷〔8.5、10.5、13.5 g/(L·d),以挥发性固体(VS)计〕条件下厨余垃圾的中温厌氧消化特性,并对最优进料参数下沼渣特性和资源利用潜力进行分析. 结果表明:进料TS含量是影响厨余垃圾厌氧消化效能的重要因素,调节进料TS含量至25%时可获得最大累计产甲烷量(16.81 L)和最高单位容积负荷累计产甲烷量(42.01 L/L),挥发性固体降解率达72.29%,系统运行稳定. 在进料TS含量为25%的条件下,系统累计产甲烷量随有机负荷的增加呈先升高后降低的趋势,有机负荷为10.5 g/(L·d)时,系统累计产甲烷量和挥发性固体降解率最高,分别为24.04 L和79.64%,未产生酸抑制现象. 厌氧消化过程中产生的副产物沼渣中有机质和总养分含量较高,电导率和重金属含量较低,pH适宜,满足《有机肥料》(NY 525—2021)和《绿化用有机基质》(GB/T 33891—2017)的要求. 研究显示:当进料TS含量为25%、有机负荷为10.5 g/(L·d)时,厌氧消化系统运行效能最优;沼渣营养成分较高、生物毒性较低,具有较大资源化利用潜力,后续经脱水处理并提高腐熟程度后可进行应用.      

河底沉积物培养耐酸产甲烷颗粒污泥的试验研究

利用河底沉积物作为接种污泥,在一个3.1L的EGSB反应器中进行培养耐酸产甲烷颗粒污泥的试验研究.结果表明,EGSB反应器在pH6.0,出水碱度低于400mg CaCO3/L,容积负荷5.3kg COD/(m³d)的条件下培养出具有良好沉降性能和产甲烷活性的耐酸颗粒污泥.形成耐酸颗粒污泥后,EGSB反应器在pH5.8～6.0,进水COD 3000mg/L,容积负荷5.2kg COD/(m³d)的条件下稳定运行29d, COD去除率平均为89.2%,出水总碱度仅为264.4mg CaCO₃/L,沼气中甲烷的含量约为56.9%.扫描电镜观察发现颗粒污泥内部存在成簇生长的索氏甲烷丝菌     

高氢分压下厌氧颗粒污泥演变过程研究

为了探究厌氧颗粒污泥用于氢辅助原位生物法沼气提纯的可行性，在高氢分压ASBR中对厌氧颗粒污泥演变过程进行了考察，包括反应器性能和厌氧颗粒污泥特性变化情况.结果表明，在进水COD负荷低于5g/（L·d）时，氢辅助原位生物法沼气提纯中高氢分压、高进水COD负荷和高剪切力新环境促使厌氧颗粒污泥向小粒径方向演变，系统运行性能良好、高效，此时厌氧颗粒污泥可以通过营造具有极低氢分压的微环境强化基于HIT（种间氢传递）途径丙酸降解；但随着进水COD负荷进一步提高，超过6g/（L·d）时，系统出现不可控的丙酸积累.因此，需要寻求其他技术手段来缓解更高进水COD负荷条件下氢辅助原位生物法沼气提纯系统中丙酸积累问题.     

Degradation of phenol in an upflow anaerobic sludge blanket (UASB) reactor at ambient temperature

IntroductionPhenolistherawmaterialforthecommercialproductionofawidevarietyofresins ,includingphenolicresinsasconstructionmaterialsforautomobilesandappliances,expoxyresinsasadhesives ,andpolyamideforvariousapplications.Inaddition ,phenolsareoftenfoundinwas…     

UASB反应器处理CMC废水的启动特性研究

采用上流式厌氧污泥床(UASB)反应器,以高浓度羧甲基纤维素(CMC)废水为处理对象,研究了中温条件下UASB反应器的启动、颗粒污泥特性和废水处理效果.结果表明,采用接种颗粒污泥与消化污泥的混合泥进行培养,并逐步提高进水CMC废水浓度,运行80 d后,可实现UASB反应器的启动;当进水COD值达到4 000 mg/L,容积负荷6.86 kg/(m3.d),COD去除率在80%以上;反应器内污泥实现颗粒化,且颗粒污泥的比产甲烷活性良好.     

Influence of lactic acid on the two-phase anaerobic digestion of kitchen wastes

To evaluate the influence of lactic acid on the methanogenesis, anaerobic digestion of kitchen wastes was firstly conducted in a two-phase anaerobic digestion process, and performance of two digesters fed with lactic acid and glucose was subsequently compared. The results showed that the lactic acid was the main fermentation products of hydrolysis-acidification stage in the two-phase anaerobic digestion process for kitchen wastes. The lactic acid concentration constituted approximately 50% of the chemical oxygen demand （COD） concentration in the hydrolysis-acidification liquid. The maximum organic loading rate was lower in the digester fed with lactic acid than that fed with glucose. Volatile fatty acids （VFAs） and COD removal were deteriorated in the methanogenic reactor fed with lactic acid compared to that fed with glucose. The specific methanogenic activity （SMA） declined to 0.343 g COD/（gVSS-d） when the COD loading were designated as 18.8 g/（L-d） in the digester fed with lactic acid. The propionic acid accumulation occurred due to the high concentration of lactic acid fed. It could be concluded that avoiding the presence of the lactic acid is necessary in the hydrolysis-acidification process for the improvement of the two-phase anaerobic digestion process of kitchen wastes.     

林可霉素生产废水的厌氧生物处理工艺

采用单相中温升流式厌氧污泥床(UASB)反应器厌氧生物工艺处理含有有毒难降解有机物的林可霉素生产废水.当进水COD 8000～14000 mg/L,HRT约10h时,COD容积负荷可达20～35kg/(m³·d),COD去除率为50%～55%.适时调整并维持较高的表面水力负荷[0.2～0.4 m³/(m²·h)]、较高的进水有机基质浓度(COD为2000～3000mg/L)和污泥COD负荷[0.2～0.5 kg/(kg·d)],并适当延长启动驯化时间可培养出沉降性好、污泥活性较高的颗粒污泥.废水厌氧生物降解动力学符合Monod方程,动力学常数V_max=1.3 d^-1,K_s=8133mg/L.废水中不可生物降解物质占总COD的比例约为30%,这是废水COD去除率偏低的重要因素.     

Enhanced anaerobic biodegradability of real coal gasification wastewater with methanol addition

Coal gasification effluent is a typical refractory industrial wastewater with a very poor anaerobic biodegradability due to its toxicity.Methanol was introduced to improve anaerobic biodegradability of real coal gasification wastewater,and the effect of methanol addition on the performance was investigated in a mesophilic upflow anaerobic sludge bed reactor with a hydraulic retention time of 24 hr.Experimental results indicated that anaerobic treatment of coal gasification wastewater was feasible with the addition of methanol.The corresponding maximum COD and phenol removal rates were 71% and 75%,respectively,with methanol concentration of 500 mg COD/L for a total organic loading rate of 3.5 kg COD/(m3 ·day) and a phenol loading rate of 0.6 kg/(m3 ·day).The phenol removal rate was not improved with a higher methanol concentration of 1000 mg COD/L.Substrate utilization rate (SUR) tests indicated that the SURs of phenol were 106,132,and 83 mg phenol/(g VSS·day) at methanol concentrations of 250,500,and 1000 mg COD/L,respectively,and only 45 mg phenol/(g VSS·day) in the control reactor.The presence of methanol could reduce the toxicity of coal gasification wastewater and increase the biodegradation of phenolic compounds.     

厌氧-水解反应器稳定运行的试验研究

采用造纸废水对厌氧水－水解反应器的启动、运行进行试验研究。结果表明，当ＭＬＶＳＳ在１５ｇ／Ｌ左右，ＣＯＤ容积负荷为１．４５ｋｇ／（ｍ＾３·ｄ），水力负荷为２．０ｍ＾３／（ｍ＾２·ｈ），水国停留时间为４ｈ，污泥颗粒化程度较高，反应器运行效果稳定可靠。     

三相生物流化床处理高浓度丙烯酸丁酯生产废水

采用三相生物流化床工艺处理模拟丙烯酸丁酯生产废水,考察了进水丙烯酸浓度、对甲基苯磺酸浓度、容积负荷、水力停留时间对废水处理效果的影响.结果表明,该工艺适合于丙烯酸丁酯废水的高负荷处理.进水中100 mg/L丙烯酸及50 mg/L的对甲基苯磺酸对生物流化床中未经驯化的微生物具有明显的毒害作用,经过2周左右的驯化,毒害作用...     

Degradation of phenol in an upflow anaerobic sludge blanket(UASB) reactor at ambient temperatureKE

A synthetic wastewater containing phenol as sole substrate was treated in a 2.8 L upflow anaerobic sludge blanket(UASB) reactor at ambient temperature. The operation conditions and phenol removal efficiency were discussed, microbial population in the UASB sludge was identified based on DNA cloning, and pathway of anaerobic phenol degradation was proposed. Phenol in wastewater was degraded in an UASB reactor at loading rate up to 18 gCOD/(L·d), With a 1:1 recycle ratio, at 26(1℃, pH 7.0-7.5. An UASB reactor was able to remove 99% of phenol up to 1226 mg/L in wastewater with 24 h of hydraulic retention time(HRT). For HRT below 24 h, phenol degradation efficiency decreased with HRT, from 95.4% at 16 h to 93.8% at 12 h. It further deteriorated to 88.5% when HRT reached 8 h. When the concentration of influent phenol of the reactor was 1260 mg/L(corresponding COD 3000 mg/L), with the HRT decreasing(from 40 h to 4 h, corresponding COD loading increasing), the biomass yields tended to increase from 0.265 to 3.08 g/(L·d). While at 12 h of HRT, the biomass yield was lower. When HRT was 12 h, the methane yield was 0.308 L/(gCOD removed), which was the highest. Throughout the study, phenol was the sole organic substrate. The effluent contained only residual phenol without any detectable intermediates, such as benzoate, 4-hydrobenzoate or volatile fatty acids(VFAs). Based on DNA cloning analysis, the sludge was composed of five groups of microorganisms. Desulfotomaculum and Clostridium were likely responsible for the conversion of phenol to benzoate, which was further degraded by Syntrophus to acetate and H2/CO2. Methanogens lastly converted acetate and H2/CO2 to methane. The role of epsilon-Proteobacteria was, however, unsure.     

The integration of methanogenesis with denitrification and anaerobic ammonium oxidation in an expaned granular sludge bed reactor

The integration of methanogenesis with denitrification and anaerobic ammonium oxidation (ANAMMOX) was studied in an expanded granular sludge bed (EGSB) reactor in this work. Experimental results from the continuous treatment of wastewater with nitrite and ammonium, which lasted for 107 days, demonstrated that wastewater with high nitrite and ammonium could be anaerobically treated in an expanded granular sludge bed reactor. More than 91% to 97% of COD were removed at up to about 3.9 g COD/(L x d) of COD volumetric loading rate. More than 97% to 100% of nitrite was denitrified at up to about 0.8 g NO2(-) -N/(L x d), which is 16 times higher than that in a conventional activated sludge system with nitrification/denitrification (0.05 gN/(L x d)). No dissimilatory reduction of nitrite to ammonium occurred in the process. However, maximum of about 40% ammonium was found to be lost. Batch tests of 15 days with sludge from the reactor showed that 100% of nitrite was denitrified completely, and about 3% of ammonium was removed when only ammonium (34.3 mg/L) and nitrite (34.3 mg/ L) were added into the sludge suspension medium. Furthermore, about 15% of ammonium amounts were lost with organic COD addition. It suggested that the methanogenesis in the system could enhance ANAMMOX because of intermediate hydrogen produced during methanogenesis.     

上推流厌氧反应器连续干发酵猪粪产沼气试验研究

为解决猪粪连续干发酵存在的氨抑制和出料难等难题,在温度(25±2)℃、有机负荷为干物质(TS)4.44 g.(L.d)-1的条件下,采用上推流式厌氧反应器(UPAR)对猪粪进行连续干式发酵试验,研究了猪粪干发酵过程的产气情况、氨抑制现象和出料流动性,并考察了上推流厌氧反应器进行猪粪干发酵的可行性.试验采用4种不同TS质量分数(20%、25%、30%、35%)的猪粪作为原料,经160 d的运行.结果表明,进料TS质量分数对发酵过程有很大的影响,4种不同进料TS质量分数稳定的池容产气率分别为2.40、1.73、0.89、0.62 L.(L.d)-1,进料TS质量分数为20%、25%和30%的产气效率明显优于进料TS=35%的产气效率.随着进料TS质量分数从20%增加到35%,氨氮质量浓度>2 300 mg.L-1会出现明显的产气抑制.在进料TS=35%时,氨氮质量浓度能达到3 800 mg.L-1,产气速率相对于进料TS=20%递减74.1%.当进料TS达到35%、出料TS质量分数达到17.1%、流速<0.002 m.s-1时,UPAR不能顺利出料.     

Performance evaluation of up-flow anaerobic sludge blanket (UASB) reactor for treatment of paper mill wastewater

IntroductionInrecentyearsenergyconsiderationsandenvironmentalconcernshaveincreasedtheinterestindirectanaerobictreatmentofindustrialwastes.Theanaerobicmethodofwastetreatmentoffersunderthepresentcircumstancesanumberofsignificantadvantageswithlittleseriousorinsuperabledrawbacksoverothertreatmentmethods .Conventionalwastemanagementtechnologiescommonlyadoptedintropicalclimatesarenotonlyexpensivebutalsowarrantexactoperationandmaintenancerequirements .Mostofthedevelopingcountriessufferfromsevereenvir…     

SO_4~(2-)对SRB颗粒污泥性能的影响

文章利用取自厌氧折流板反应器中的硫酸盐还原菌(SRB)颗粒污泥,通过间歇试验,研究了不同质量浓度的SO42-对SRB颗粒污泥性能的影响。结果表明,当SO42-质量浓度为2000mg/L,COD与SO42-质量浓度的比值ω(COD)/ω(SO42-)=2时,SRB颗粒污泥的活性最高,此时系统比产甲烷活性(SMA)为406.2mL/g·d,SO42-的去除率达93.4%,Cu2+的去除效率高达97.1%,且Cu2+的去除率与SO42-的还原率呈正相关关系;而ω(COD)/ω(SO42-)=2～4时,COD去除率稳定在88.8%以上,最大去除率在ω(COD)/ω(SO42-)=2.7处。