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预处理破稳污泥木质纤维素并厌氧降解实验研究 总被引:2,自引:1,他引:1
剩余污泥中往往含有大量木质纤维素物质,其在厌氧消化过程中难以降解,最终残留于熟污泥中,这也是导致污泥有机物稳定并转化能源效率低下的主要原因之一.针对污泥中木质纤维素的结构稳定性,本实验选择酸、碱、热解及超声波4种预处理方式,采用适宜的条件预处理剩余污泥,在一定程度上破坏污泥中木质纤维素结构,继而进行污泥厌氧消化,获得了较好的木质纤维素降解率.同时,实验筛选出热解为最佳的预处理技术方式.在T=150℃与t=30 min预处理工况下,污泥在厌氧消化后最高可实现52.6%的木质纤维素降解率,主要归功于半纤维素和纤维素的大幅降解.相对未预处理污泥,预处理能有效促进木质纤维素类物质的厌氧消化,从而提高污泥有机质的能源转化率. 相似文献
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《巴黎气候协定》的签署意味着污水处理碳中和运行时代的来临,这就需要将剩余污泥尽可能最大程度地转化为可再生能源—甲烷(CH4).细胞破壁、木质纤维素破稳及腐殖质解抑制是提高污泥厌氧消化能源转化率的主要技术手段.相对于细胞与木质纤维素,腐殖质不仅结构更为复杂、自身难以生物降解,而且还会抑制其它有机物水解.虽然腐殖质亦有促进酸化、产氢/乙酸、产甲烷过程的微弱可能,但它对水解过程的抑制是肯定的、显著的、难以逆转的.因此,需要深入了解污泥中腐殖质来源、形成、结构及性质,综合分析它对污泥厌氧消化水解、酸化、产氢/乙酸、产甲烷阶段的各种影响,探讨消除腐殖质抑制水解过程的不同技术路径,重点描述外加金属离子对腐殖质的屏蔽作用.以期为提高污泥厌氧消化能源转化率制定可行的技术路线. 相似文献
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为提高剩余污泥的破解效果并降低能耗,采用FS(fluid shear,流体剪切)、UC(ultrasonic cavitation,超声空化)、FS和UC联合工艺(FS-UC,UC-FS)破解剩余污泥,并应用单因素试验结合响应面法对联合工艺进行优化.结果表明:FS对剩余污泥破解效果一般,只在开始阶段具有较好效果,随作用时间延长,破解效果未有显著提高甚至下降.UC对剩余污泥破解效果明显,随作用时间延长,破解效果显著提升,但能耗也随之增大,EDR(energy disintegration ratio,效能比)明显下降.相同作用时间下,UC破解效果优于FS破解效果,UC破解剩余污泥的DDCOD(degree of disintegration,破解率)与EDR均明显高于FS方法.单因素试验得出的较优FS作用时间范围为2~8 min,较优UC作用时间范围为5~15 min.响应面法试验结果显示,联合工艺的剩余污泥破解效果和能量利用率均优于单一方法,联合工艺中FS-UC工艺的破解效果优于UC-FS工艺.FS-UC工艺的最佳参数:FS处理5.6 min再UC处理15.0 min,该条件下剩余污泥实际DDCOD为50.8%,EDR为26.8%.UC-FS工艺的最佳参数:先UC作用15.0 min再FS作用7.8 min,该条件下剩余污泥实际DDCOD为36.5%,EDR为17.1%.研究显示,以DDCOD和EDR为指标,4种工艺的高效性顺序为FS-UC > UC-FS > UC > FS,其中FS-UC工艺具有能耗低、破解效率高的特点,是4种工艺中剩余污泥破解效果最好的一种工艺. 相似文献
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低温热水解和超声联合破解污泥优化工艺的参数研究 总被引:2,自引:0,他引:2
针对国内低温热水解和超声联合技术应用于低有机质剩余污泥厌氧消化预处理领域的实验研究和工艺参数缺陷问题,探讨了低于100℃的低温热水解和超声波技术联合破解剩余污泥的技术可行性及工艺参数的优化.以热水解温度和超声能量为控制参数,以污泥破解度、溶解性蛋白质和多糖浓度为分析指标,通过Box-Behnken设计实验,并根据响应曲面法(RSM)构建了污泥破解的二次多项式预测模型,进而得到各影响因素作用下的最佳破解工艺参数.结果表明,温度对污泥破解的影响较超声能量明显.低温热水解和超声联合作用下,最佳工艺组合为温度80℃和超声能量12000k J/kgTS,该工艺下的污泥破解结果为污泥破解度39.01%,溶解性蛋白质1360.59mg/L和多糖334.52mg/L,该结果与预测值吻合度较高,表明响应曲面模型所得参数较为可靠,能够为实际应用和推广提供参考. 相似文献
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针对污水厂生物脱氮碳源不足和剩余污泥难以处置的问题,探讨了利用超声波处理后的剩余污泥作为生物脱氮外加碳源的可行性。研究采用三因素三水平的响应曲面分析法,考察了超声波声能密度、时间和pH对剩余污泥可生化性(BOD_5)的影响,确定了超声波破解剩余污泥的最佳工艺条件。结果表明:在超声波声能密度为2. 0 W/m L,超声波时间为40 min和pH=7. 0的条件下,剩余污泥ρ(BOD_5)为2195 mg/L,增加为原来(88 mg/L)的24. 9倍,大大增强了其可生化性。超声波破解前后剩余污泥的大肠菌群检测结果证明,超声波破解也可将致病菌灭活,使剩余污泥无害化。在以3种剩余污泥产物为外加碳源的反硝化实验中,利用最佳参数条件下处理的剩余污泥为碳源时反硝化效果最好,反应仅进行14 h,ρ(NO_3~--N)从108 mg/L迅速降至3 mg/L,去除率达到95%以上,NH_4~+-N几乎无积累,整个反硝化过程完成仅需24 h,表明采用优化后的超声波预处理条件可以有效提升以剩余污泥为碳源的反硝化效果。 相似文献
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Ultrasonication (US), which creates hydro-mechanical shear forces in cavitation, is an advanced technology in sludge pretreatment. However, there are many factors affecting the efficacy of cavitation and ultrasonication disintegration of sludge as a consequence. The objective of this work is to present an extensive review of evaluation approaches of sludge US pretreatment efficiency. Besides, optimization methodologies of related parameters, the differences of optimum values and the similarities of affecting trends on cavitation and sludge pretreatment efficiency were specifically pointed out, including ambient conditions, ultrasonic properties, and sludge characteristics. The research is a prerequisite for optimization of sludge US pretreatment efficiency in lab-scale and practical application. There is not-yet a comprehensive method to evaluate the efficiency of sludge US pretreatment, but some main parameters commonly used for this purpose are degree of sludge disintegration, proteins, particle size reduction, etc. Regarding US parameters, power input PUS, intensity IUS, and frequency FS seem to have significant effects. However, the magnitude of the effect of PUS and probe size in terms of IUS has not been clearly detailed. Investigating very low FS seems interesting but has not yet been taken into consideration. In addition, static pressure effect has been marginally studied only and investigation on the effect of pH prior to US process has been restricted. Their effects therefore should be varied separately and simultaneously with other related parameters, i.e. process conditions, ultrasonic properties, and sludge characteristics, to optimize sludge US pretreatment process. 相似文献
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废铁屑强化污泥厌氧消化产甲烷可行性分析 总被引:6,自引:1,他引:5
有关全球气候变化的《巴黎协定》落槌,预示着污水处理追求碳中和运行的时代已经来临.碳中和狭义理解即能源自给自足,这就要求污水处理厂应最大程度转化污水中有机物或产生的剩余污泥所蕴含的有机能源,并将其生成可再生能源——甲烷.然而,剩余污泥能源转化率较低一直都是限制厌氧消化技术广为应用的瓶颈.在污泥预处理技术之外,向厌氧消化系统中投加废铁屑强化甲烷生产有望成为另一个提高能源转化率的突破口,继而实现"以废促能、变废为宝"的目的.本综述从铁腐蚀析氢现象入手,在描述铁腐蚀析氢原理、析出H2对产CH4过程影响的基础上,对铁在厌氧系统ORP减少方面的作用、对厌氧微生物生理、生化特性的影响、对涉及微生物酶活的影响等进行了全面的介绍.最后,还通过生命周期评估(LCA)评价了基于废铁屑的污泥厌氧消化技术对环境的影响及经济合理性. 相似文献
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Alkaline and ultrasonic sludge disintegration can both be used as pretreatments of waste activated sludge (WAS) for improving the subsequent anaerobic or aerobic digestion. The pretreatment has been carried out using different combination of these two methods in this study. The effect was evaluated based on the quantity of soluble chemical oxygen demand (SCOD) in the pretreated sludge as well as the degradation of organic matter in the following aerobic digestion. For WAS samples with combined pretreatment, the released COD was in high level than those with ultrasonic or alkaline treatment. When combined with the same ultrasonic treatment, NaOH treatment resulted in more solubilization of WAS than Ca(OH)2. For combined NaOH and ultrasonic treatments with different sequences, the released COD were in the order: simultaneous treatment > ultrasonic treatment following NaOH treatment > NaOH treatment following ultrasonic treatment. For simultaneous treatment, low NaOH dosage (100 g/kg dry solid), short duration (30 min) of NaOH treatment, and low ultrasonic specific energy (7 500 kJ/kg dry solid) were beneficial for sludge disintegration. Using combined NaOH and ultrasonic pretreatment with the optimium parameters, the degradation efficiency of organic matter was increased from 38.0% to 50.7%, which is much higher than with ultrasonic (42.5%) or with NaOH pretreatment (43.5%) in the subsequent aerobic digestion at the same retention time. 相似文献
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有机磷农药废水一般均采用预处理、生化等工艺相结合的处理方法,以使处理后的废水能够达标排放。在此.对生化处理采用推流折流鼓风曝气活性污泥法处理有机磷农药废水的工艺流程,及其参数和费用进行了分析。 相似文献
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采用中试规模的反应器对平板膜-污泥浓缩消化(MSTD)工艺的污泥消化机制和膜污染机理进行了研究.结果表明,经过15d的运行,MSTD工艺的污泥浓度(MLSS)从最初的3.6g/L上升到约34.2g/L,MLVSS和MLSS的消解率分别达到52%和47%,实现了同步浓缩和消化.由于溶解氧的变化,MSTD工艺的消化机制分为好氧消化和类似的厌氧消化2个阶段,分别降解二价金属离子和铁离子连接的2类生物聚合物.在MSTD过程中,平板膜的截留和污泥消化导致污泥性质剧烈变化,从而造成膜过滤性能剧烈下降.MLSS、胞外聚合物(EPS)和溶解性微生物产物(SMP)均对膜污染有显著的影响. 相似文献
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Renjie Chen Shijie Yuan Sisi Chen Hanlin Ci Xiaohu Dai Xiankai Wang Chong Li Dianchang Wang Bin Dong 《环境科学学报(英文版)》2022,34(1):380-391
Anaerobic digestion and incineration are widely used sewage sludge(SS) treatment and disposal approaches to recovering energy from SS, but it is difficult to select a suitable technical process from the various technologies. In this study, life-cycle assessments were adopted to compare the energy-and greenhouse gas-(GHG) emission footprints of two sludge-to-energy systems. One system uses a combination of AD with incineration(the AI system),whereas the other was simplified by direct incineration... 相似文献
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剩余污泥焚烧灰分磷回收及其技术进展 总被引:1,自引:0,他引:1
焚烧渐渐成为剩余污泥终极处理、处置方式,而焚烧产生的污泥灰分中又包括了污水中绝大部分(>90%)的磷.因此,从焚烧灰分中回收磷也为污水磷回收提供了最佳位点.从污泥灰分中回收磷已存在一些适用技术,但灰分中重金属含量对工艺选择有重要影响,这可能会限制灰分直接用作农作物肥料的可行性与价值.因此,磷提取并纯化是灰分磷回收的重要技术步骤,同时也需兼顾工艺经济成本与环境影响.为此,本文从磷提取与磷纯化角度总结了目前灰分磷回收技术的国际研发进展,涵盖生物法、湿式化学法和热化学法;分析比较了不同方法在技术经济、环境影响及适用灰分方面的差别.生物法行之有效、环境影响小,但完成磷回收时间漫长;湿式化学法研发、应用最为广泛,但对环境影响较大;与污泥焚烧统筹合建可使热化学法更具经济性.然而,3类不同技术工艺并不具有相互替代性,需根据灰分成分进行合理选择.此外,前端污水处理以及中端污泥前处理也应与末端灰分磷回收相结合,尽量避免过多化学药剂投加带来的污泥灰分金属含量增加.污泥单独焚烧亦是决定灰分磷回收效率的关键.欧洲政策已明显支持污泥焚烧并从灰分中回收磷,政策和做法值得我国借鉴、学习. 相似文献