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1.
微生物是堆肥过程的主要驱动力,其群落在堆肥过程中不断演替,进而影响好氧发酵进程和堆肥的品质。大量研究表明:接种外源微生物可促进堆肥进程,加快有机物分解和堆肥腐熟,消解抗生素等有害物质等作用。餐厨废弃物油脂、盐、水含量高和易酸化等问题会影响好氧发酵过程中微生物的活动。通过特定样品的富集驯化、选择性培养,并结合先进的分子生物学技术,筛选具有不同降解功能的菌株,并以此为基础构建的微生物菌剂能够一定程度上克服餐厨废弃物用于好氧堆肥的限制性问题。主要阐述了餐厨废弃物好氧发酵过程中微生物菌群的演替规律,构建微生物菌剂的菌种类型及功能和不同菌剂对好氧发酵的作用及潜在影响机制,以期能够为相关微生物强化技术的研发提供一些参考。  相似文献   

2.
好氧堆肥是有机固体废弃物处理处置的有效手段之一,堆肥还田也是贫瘠土壤改良的常用措施。但好氧堆肥是一个典型的CO_2等温室气体的释放过程。如何减少堆肥过程中的CO_2释放,强化堆肥的腐殖化过程对于实现有机固体废弃物的低碳化堆肥、提高作为优良土壤改良剂的腐殖质产量具有重要意义。本文选取农林秸秆和餐厨垃圾作为堆肥原料,研究不同翻堆频率对堆肥过程中的物料减量化、腐殖化和稳定化的影响,以期发现一个较低碳的堆肥工艺,并从微生物角度初步探索了其影响机制。研究结果显示,不同的翻堆频率(分别为每2 d、4 d和6 d翻堆一次),堆料的减量化和腐殖化程度有一定差异,翻堆频率为4 d的堆肥工艺物料减量率最高为50.5%,但碳减量率最低为77.4%;而翻堆频率为2 d的堆肥工艺腐殖质产量最高;3种堆肥工艺经62 d堆肥都达到了腐熟程度,翻堆频率为4 d的堆肥工艺腐熟化程度最高。不同的翻堆频率可能通过影响堆肥过程中堆料的温度、含氧量等因素从而改变堆料中活性微生物量、种类和生物酶活性,进而影响堆料的矿化和腐殖化进程。  相似文献   

3.
以农村生活垃圾中的可堆肥腐熟成分和蘑菇渣为堆肥原料,通过添加微生物菌剂进行堆肥试验,研究其在农业废弃物堆肥腐熟过程中的作用,并通过田间试验研究堆肥腐熟后肥料样品对黄瓜和青椒的增产效果,以验证其肥效。结果表明添加微生物菌剂有助于堆肥腐熟后样品的氮、磷、钾的保全和有机质的增加,促进养分均衡。添加微生物菌剂的堆肥腐熟肥料样品在田间试验中对黄瓜和青椒的增产效果最为显著,分别为22.21%和19.87%。  相似文献   

4.
城市污泥好氧堆肥过程中积温规律的探讨   总被引:19,自引:0,他引:19  
对城市污泥好氧堆肥稳定化过程的温热条件进行了探讨 ,将物候学中的积温概念应用于堆肥稳定化 (腐熟 )过程。它同时兼顾到堆肥过程中的温度强度和持续时间两个参数。对于采用的强制通风静态垛堆肥工艺 ( CTB自动控制堆肥工艺 ) ,建议以 1 5℃作为生物学零度 ,积温指标为 1 0 0 0 0℃· h左右。堆肥原料的性质、堆肥工艺、微生物种群、生物学零度、外界环境等因素可能会对积温产生一定影响  相似文献   

5.
接种微生物菌剂对猪粪堆肥过程中细菌群落多样性的影响   总被引:9,自引:1,他引:9  
利用PCR-DGGE方法研究了接种外源微生物菌剂对鲜猪粪高温好氧堆肥过程中细菌群落多样性的影响.结果表明:接种外源微生物菌剂可以促进堆肥的顺利进行,比不接种处理的高温期提前2 d.DGGE图谱分析表明,堆肥中优势细菌群落组成发生了明显的更迭现象,不同堆肥时期细菌群落的Shannon-Wiener指数呈显著差异.目的条带克隆测序结果表明,整个堆肥过程Clostridium stercorarium subsp. thermolacticum sp.一直是优势菌属,不经培养细菌、Bacillus coagulans sp.、Clostridium thermocellum sp.在接种外源微生物菌剂处理的第10、16天成为优势菌属,不经培养的Firmicutes sp.和不经培养的 delta proteobacterium分别在未接种外源微生物菌剂处理堆肥发酵的第5天和第16天成为优势菌属.非优势菌属Ureibacillus thermosphaericus、不经培养的Silvimonas sp.出现在堆肥腐熟后期,不经培养的土壤细菌主要出现在堆肥初期和高温初期.UPGMC聚类分析表明,接种外源微生物菌剂明显影响了堆肥不同时期的细菌群落结构组成.堆肥化过程中细菌DGGE图谱主成分分析表明,细菌群落变化主要受外源接种微生物菌剂的影响.  相似文献   

6.
环境条件对猪粪好氧堆肥过程的影响   总被引:7,自引:0,他引:7  
禽畜粪便的大量排放给环境造成了巨大污染,其中猪场粪便和污水是最主要的污染源。为了实现猪粪的无害化、减量化和资源化,好氧堆肥是目前普遍应用和效果良好的实用技术。为了探明堆肥过程的生物学和化学过程,论本文主要从几个影响因素如温度、调理剂、含水率、通风方式、微生物菌剂等对猪粪好氧堆肥技术方面进行了综述。  相似文献   

7.
城市垃圾堆肥过程中的生物学问题研究   总被引:15,自引:0,他引:15  
介绍了城市垃圾堆肥处理的主要工艺,详细分析了垃圾堆肥过程中的生物化学变化和微生物学原理及研究现状。提出了可以将耗氧速率、C/N比、pH值作为堆肥腐熟度在线监测指标及在堆肥过程中,添加高效复合微生物接种剂可加快有机物的分解,缩短发酵周期,减少恶臭气体的产生,提高堆肥制品质量。  相似文献   

8.
畜禽粪便好氧堆肥过程氧化亚氮排放机制   总被引:8,自引:0,他引:8  
好氧堆肥是实现畜禽粪便处理及资源化的有效途径,但畜禽粪便好氧堆肥过程是全球温室气体N2O的潜在来源,与全球温室效应和大气臭氧空洞等问题密切相关.随着畜禽养殖规模的扩大和畜禽粪便堆肥产量的急剧提升,畜禽粪便好氧堆肥过程N2O排放问题日趋严重,堆肥过程N2O排放机制机理研究引发学者们的关注.本文综述了畜禽粪便好氧堆肥过程中N2O的产生途径、排放规律、排放影响因素及其相关微生物学机理研究动态,总结了该过程中减排N2O的措施,并对该领域的研究趋势进行了展望.  相似文献   

9.
对奶牛粪好氧堆肥过程中不同含碳有机物的变化特征以及腐熟程度进行了研究。根据腐熟指标(温度、种子发芽率、种子发芽指数、大肠杆菌以及蛔虫卵死亡率)的要求,奶牛粪经过堆肥后能够达到腐熟要求。堆肥过程中全碳、易氧化有机碳呈逐渐下降趋势,腐殖酸碳呈逐渐增加的趋势;微生物量碳和水溶性碳呈先增后降而后平稳的变化趋势;氧化稳定系数和H/F比(胡敏酸与富里酸比值)呈先降后增的变化趋势,而胡敏酸的E4/E6值(465和665nm处吸光系数比值)与氧化稳定系数和H/F比变化趋势相反。通过相关性分析发现,堆肥过程中易氧化有机碳和腐殖酸碳是影响全碳变化的主要因素;易氧化有机碳、腐殖酸碳、氧化稳定系数、H/F比、E4/E6值均能很好地表征奶牛粪堆肥的腐殖化和稳定化程度;微生物量碳和水溶性碳之间存在相互转化的关系。  相似文献   

10.
八角下脚料、甘蔗滤泥、桐麸联合堆肥的腐熟度指标研究   总被引:1,自引:0,他引:1  
测定八角下脚料与甘蔗滤泥、桐麸联合堆肥过程中温度、C/N比、种子发芽指数(GI)等腐熟度指标,研究各项指标在堆肥进程中的变化情况。结果表明:GI可作为八角下脚料与甘蔗滤泥、桐麸联合堆肥评价堆肥腐熟度的主要评价指标。在起始C/N比为31.45条件下进行八角提油下脚料、甘蔗滤泥、桐麸的联合高温好氧堆肥,堆制21 d和26 d时,三种腐熟度指标未全部显示堆肥腐熟;堆制31 d时,C/N比为18.55,T值为0.59(小于0.6),发芽指数GI为93.7%(大于80%)。从温度、发芽指数和C/N比三个指标均可认为堆肥已达到腐熟。  相似文献   

11.
在烟草生产及加工过程中,通常会产生大量的烟草废弃物,如何有效利用这些废弃物以避免环境污染和资源浪费,已成为烟草行业亟需解决的问解。研究发现,烟草废弃物堆肥化处理是规模化利用废弃资源的有效途径之一,对烟草农业的绿色、低碳、循环、可持续发展具有重要意义。从有机肥堆肥制备技术、肥效研究等方面进行了系统综述,从整体上展示了烟草废弃物堆肥技术的发展现状,以期为国内烟草废弃物源堆肥未来技术的研发及产业化提供一定的参考。通过分析发现,在堆肥制备技术方面,主要有微生物菌剂添加技术、共堆肥技术和烟草材料预处理技术3种,此外还衍生出液态有机肥和厌氧发酵联产有机肥技术;在堆肥肥效研究方面,烟草废弃物堆肥可明显改善土壤的物性参数、化学参数以及生物学参数,显著钝化土壤重金属元素,进而提高作物的产量或品质,其中堆肥与化学肥料配施的效果相对较好;堆肥的多功能化是未来堆肥创新利用的重要途径。  相似文献   

12.
Olive mill wastes exacerbate environmental problems in Mediterranean countries. These wastes are highly phytotoxic and contain phenolic compounds, lipids and organic acids. They also contain high percentages of organic matter and a vast range of plant nutrients that could be reused as fertilizers for sustainable agricultural practices. In this paper, recent research on composting wastes of 2-phase and 3-phase olive mills is reviewed, concentrating on factors affecting composting such as bulking agents, aeration strategy, physicochemical characteristics (duration of the thermophilic phase, moisture content, organic matter, volatile solids, total organic carbon, water soluble carbon, total nitrogen, total phosphorus, potassium, C/N ratio, phenols and the humification process), and phytotoxicity. The review highlights the effects of composting operational factors (bulking agent, additives, and aeration strategy) on the physicochemical characteristics of the final compost, and the production of a good quality soil amender or fertilizer.  相似文献   

13.
Composting of several organic wastes of different chemical composition (source-separated organic fraction of municipal solid waste, dewatered raw sludge, dewatered anaerobically digested sludge and paper sludge) was carried out under controlled conditions to study the suitability of different biological indexes (oxygen uptake rate, respirometric index, and respiratory quotient) to monitor the biological activity of the composting process. Among the indexes tested, oxygen uptake rate (also referred to as dynamic respirometric index) provided the most reliable values of microbial activity in a compost environment. On the other hand, values of the static respirometric index measured at process temperature, especially in the early stages of the composting process, were significantly lower than those of the dynamic index, which was probably due to oxygen diffusion limitations present in static systems. Both static and dynamic indexes were similar during the maturation phase. Static respirometric index measured at 37 degrees C should not be used with samples obtained during the thermophilic phase, since it resulted in an underestimation of the respiration values. Respiratory quotient presented only slight variations when changing the process temperature or the waste considered, and its use should be restricted to ensure aerobic conditions in the composting matrix.  相似文献   

14.
The growing burden of waste disposal coupled with natural resource scarcity has renewed interest in the remediation, valorization, and/or repurposing of waste. Traditional approaches such as composting, anaerobic digestion, use in fertilizers or animal feed, or incineration for energy production extract very little value out of these waste streams. In contrast, waste valorization into fuels and other biochemicals via microbial fermentation is an area of growing interest. In this review, we discuss microbial valorization of nonconventional, aqueous waste streams such as food processing effluents, wastewater streams, and other industrial wastes. We categorize these waste streams as carbohydrate-rich food wastes, lipid-rich wastes, and other industrial wastes. Recent advances in microbial valorization of these nonconventional waste streams are highlighted, along with a discussion of the specific challenges and opportunities associated with impurities, nitrogen content, toxicity, and low productivity.  相似文献   

15.
为探究化肥配施不同腐熟度有机肥对土壤微生物生物量氮(MBN)的影响及土壤MBN调控土壤矿质氮的作用,将堆肥过程与土壤培养试验相结合,设置常规化肥对照(CK)、化肥+腐熟度为50%(种子发芽指数为50%,下同)的有机肥(CO1)、化肥+腐熟度为80%的有机肥(CO2)、化肥+腐熟度为100%的有机肥(CO3)共4个处理,测定土壤MBN、矿质氮(NH4+-N、NO3--N)、净硝化速率、微生物生物量碳(MBC)、可溶性有机碳(DOC)、脲酶和蛋白酶,并揭示土壤MBN对矿质氮的调控作用。结果表明: 到培养结束时,与CK处理相比,有机肥处理(CO1、CO2、CO3)的土壤MBN、NH4+-N含量显著提高50.1%~62.4%、109.9%~147.1%,土壤NO3--N、净硝化速率显著降低23.3%~46.8%、26.2%~51.5%,土壤MBC、DOC含量、脲酶和蛋白酶活性分别显著提高33.8%~69.6%、7.4%~20.8%、11.2%~69.0%、9.4%~25.1%,且CO2、CO3的变化幅度均显著高于CO1。冗余分析和结构方程模型显示,较高腐熟度有机肥(腐熟度≥80%)对MBC、MBN、NH4+-N含量、脲酶和蛋白酶活性具有正向调控作用,对土壤净硝化速率具有负向调控作用。化肥配施较高腐熟度有机肥可以明显增加土壤MBN,提升脲酶、蛋白酶活性,增加NH4+-N含量,降低土壤净硝化速率。因此,在实际应用中,建议采用腐熟度为80%的有机肥与化肥配施,减少有机肥生产成本及时间,实现有机固体废弃物的资源化利用。  相似文献   

16.
在实验室可控条件下,以碳氮比28.7∶1的农业有机废弃物(牛粪和稻秆)为赤子爱胜蚓(Eisenia foetida)的培养基质,研究蚯蚓的堆制作用对有机物料的化学及生物学特性的影响.结果表明: 蚯蚓堆制处理30 d后,基质pH值、碳氮比显著降低,全磷显著升高,而全氮、碱解氮、可溶性碳、速效磷、微生物生物量碳、呼吸速率和微生物熵分别提高8.5%、2.6%、18%、63%、212%、44%和300%,有机质、呼吸熵分别降低5.0%和21.9%.蚯蚓堆制处理后物料具有较高的转化酶、酸性和碱性磷酸酶活性,较低的过氧化氢酶和脲酶活性.多元数据分析结果显示,自然堆制和蚯蚓堆制处理物料的化学和生物学特性均呈现显著的差异性.蚯蚓堆制处理优于自然堆制处理,可以明显改善有机物料的化学、生物学性质,是一种高效率处理农业有机废弃物的技术.  相似文献   

17.
Five different piles were prepared by mixing olive mill wastewater (alpechin) and alpechin sludge with two bulking agents (cotton waste and maize straw) and two organic wastes with high content of nitrogen (sewage sludge and poultry manure), which were composted by the Rutgers static pile composting system in a pilot plant. The aim of this work was to study the evolution of total nitrogen and different forms of organic matter and evaluate the variation in the aerobic bacterial microbiota present and biotoxicity during the composting process.In piles prepared with alpechin, the use of the maize straw as a bulking agent reduced the nitrogen losses whereas the use of sewage sludge, instead of poultry manure, with cotton waste originated the highest degradation of organic matter. In piles prepared with alpechin sludge a similar evolution of the composting process was observed. There were not great variations during composting in the aerobic bacterial microbiota present in the mixtures. However, the pile prepared with alpechin sludge and maize straw was only one to present bacteria capable of growing in alpechin, and the toxicity study showed that this was only present in the starting mixtures.  相似文献   

18.
Changes in organic matter degradation and microbial communities during thermophilic composting were compared using two different types of anaerobic sludge, one from mesophilic methane fermentation, containing a high concentration of proteins (S-sludge), and the other from thermophilic methane fermentation, containing high concentrations of lipids and fibers (K-sludge). The difference in the organic matter degradation rate corresponded to the difference in the organic matter constituents; the CO(2) evolution rate was greater in the composting of S-sludge than of K-sludge; moreover, the NH(3) evolution resulting from the protein degradation was especially higher in the composting of S-sludge. Then the differences in the microbial communities that contributed to each composting were determined by the PCR-DGGE method. Ureibacillus sp., which is known as a degrader with high organic matter degradation activity, was observed during the composting of S-sludge, whereas Thermobifida fusca, which is a well known thermophilic actinomycete that produces enzymes for lignocellulose degradation, were observed during the composting of K-sludge.  相似文献   

19.
随着养殖业的发展禽畜废弃物已经成为有机废弃物的主要来源之一,并产生了很多恶臭气体,对环境造成了严重污染。论述了恶臭气体的发生、危害及国内外物理、化学、生化和生物法过程控制的研究进展,并在此基础上提出了微生物在禽畜废弃物恶臭气体控制中的问题和研究展望。  相似文献   

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