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1.
超声波预处理对餐厨垃圾产VFAs的影响   总被引:4,自引:0,他引:4  
采用超声波预处理餐厨垃圾以提高产挥发性脂肪酸(VFAs)产率.结果表明,在超声强度720W/L下处理15min后,餐厨垃圾SCOD含量比原样中SCOD提高了1倍,其中有机质中碳水化合物溶出量最大,由原样中8.2g/L提高到处理后的43.5g/L;在pH=6、温度35℃条件下,对含固率约为12%的餐厨垃圾进行厌氧发酵,未预处理和超声处理后的餐厨垃圾产生的VFAs最大值分别达到33.4,42.5g/L,经超声预处理的餐厨垃圾产VFAs的量提高了27.2%.  相似文献   

2.
不同湿热预处理条件对餐厨垃圾厌氧发酵产氢的影响   总被引:1,自引:0,他引:1  
采用湿热水解技术处理餐厨垃圾,研究不同湿热预处理温度与时间下餐厨垃圾w(VS)(VS为挥发性固体)、ρ(CODsCr)(CODs为溶解性化学需氧量)、ρ(TOC)、ρ(TN)等指标的变化,以评价湿热预处理对餐厨垃圾厌氧产氢效能的影响. 在此基础上,结合厌氧产氢动力学分析,确定厌氧发酵产氢的最佳湿热预处理条件. 结果表明:湿热预处理温度、时间对餐厨垃圾可浮油脱出量、w(VS)具有显著影响. 餐厨垃圾湿热预处理后ρ(CODsCr)、ρ(TOC)、ρ(TN)变化情况与w(VS)呈负相关. 餐厨垃圾经90℃湿热预处理30min后,可浮油脱出量为37.5mLkg,w(VS)w(TS)为95.12%,最大比产氢量达242.1mLg,最大产氢速率为12.46mLh,累积产氢率达0.88molmol,厌氧产氢启动时间为12.85h. 说明对餐厨垃圾进行适度的湿热预处理可有效提高有机物溶解性与生物可利用效率,进而提高厌氧发酵累积产氢量与产氢速率. 综合能耗、产出等因素,湿热预处理温度90℃,处理时长30min,为餐厨垃圾厌氧发酵产氢的最佳湿热预处理条件.  相似文献   

3.
餐厨垃圾可定向发酵产乙醇,但复杂的预处理导致处理时间长、工艺复杂度增加. 本文通过直接接种酵母菌和灭菌后接种酵母菌对比试验,分析发酵系统内乙醇、乙醇前体物还原糖、还原糖前体物淀粉的降解与产生规律,探讨餐厨垃圾直接接种酵母菌固态厌氧发酵产乙醇的可行性及规律. 结果表明:酵母菌的添加能够促进餐厨垃圾固体厌氧发酵产生乙醇,接种酵母菌后乙醇浓度为11.86~12.09 g/L,是空白对照的8.41~31.50倍,且高于灭菌预处理后接种的6.88~10.02 g/L;基于修正的Gompertz模型分析也证实了上述结果,接种酵母菌后,系统产乙醇潜力(Pm)和单位最大乙醇产率(Rm)也随之上升,但接种量对餐厨垃圾的Pm和Rm影响不大. 对乙醇前体物还原糖的分析表明,接种酵母菌能够在发酵初期就可以发挥作用,促使系统内还原糖在0~4 h内快速降为43.37~46.55 mg/g,从而加速了餐厨垃圾的稳定化进程,但在4~24 h内,由于次生代谢物的抑制作用,系统内还原糖未出现明显的产生和降解. 还原糖前体物淀粉的水解情况分析表明,接种酵母菌可将淀粉的水解率由19.36%提高到27.90%~37.57%,但淀粉含量在274.02~316.51 mg/g之间时已不再发生水解. 研究显示,直接接种酵母菌有助于餐厨垃圾固态厌氧发酵产乙醇含量的提高,体系中还原糖、淀粉含量并未成为餐厨垃圾固态厌氧发酵产乙醇量的限制性因素.   相似文献   

4.
选用4种矿物材料对400g餐厨垃圾在35℃下进行4h好氧预处理,比较了预处理前后餐厨垃圾水解率的变化,并且详细研究了预处理对餐厨垃圾高温厌氧消化过程及产沼气效果的影响.结果表明:在同等条件下,添加矿物材料可以有效促进餐厨垃圾的水解,其中添加1.25%(质量分数,以餐厨垃圾湿基计)膨润土和添加2.5%轻烧MgO的处理水解率分别达到了96.79%和96.51%.轻烧MgO有效地缓解了餐厨垃圾由于酸化引起的pH值下降,使产气高峰期较早来到;而在总产气量上添加白云石粉的促进作用显著.膨润土次之,其中添加2.5%白云石粉的总产气量最高,为10925mL.添加矿物材料降低了消化液中钠离子的浓度,可减轻对产甲烷细菌的抑制作用.  相似文献   

5.
通过批试验分析湿热预处理前后餐厨废弃物CODs(溶解性化学需氧量)、CODt(总化学需氧量)、粗蛋白浓度、碳氮比(C/N)等指标及代谢产物的变化,研究湿热预处理对餐厨废弃物厌氧发酵类型和产氢效能的影响。采用Gompertz动力学模型分析经湿热预处理后厌氧发酵系统启动速度、累积产氢量、产氢速率的变化。结果表明,餐厨废弃物经150℃湿热预处理30 min后,可浮油脱出量高达97.5 mL/kg,CODs和C/N变化显著;VFAs(挥发性有机酸)和乙醇浓度分析表明,湿热预处理可使餐厨废弃物厌氧发酵产氢的产酸类型从丙酸型发酵转变为丁酸型发酵。在微生物的作用下,湿热预处理时间为30 min时,经90℃处理后餐厨废弃物中的丁酸等VFAs进一步降解转化为乙酸、CO2和H2,比产氢量最高为242.1 mL/g(以VSS计)。湿热预处理可以改变餐厨废弃物中碳水化合物、蛋白质和脂肪的理化性质,影响其厌氧发酵产氢产酸类型,达到改善餐厨废弃物厌氧发酵产氢效能的目的。  相似文献   

6.
湿热处理参数对餐厨垃圾脱水和脱油性能的影响   总被引:5,自引:0,他引:5  
为了改善餐厨垃圾脱水和脱油性能,提高处理效果,对餐厨垃圾湿热工艺中的温度和加热时间等主要影响因素进行了2因素5水平的完全试验,分析了湿热处理产物的比阻、脱水率和可浮油含量等指标的变化规律,构建了餐厨垃圾固相脂质浸出反应动力学模型,研究了湿热处理参数对餐厨垃圾脱水和脱油性能的影响机理.结果表明,湿热处理初期,垃圾脱水率下降,加热40min后,脱水率开始上升,且温度越高,上升越快,180℃加热100min达最高;随着温度的升高和加热时间的延长,餐厨垃圾脱油性能呈上升趋势,温度越高,上升趋势越明显;当温度达到1  相似文献   

7.
污泥和餐厨垃圾共消化具有提高污泥稳定化的作用,为进一步强化污泥与餐厨垃圾共消化效果,提出高温预处理强化污泥与餐厨垃圾中温厌氧共消化的运行策略,并从宏观和微观2个层面探讨了共消化系统的运行机制。结果表明:污泥与餐厨垃圾经过1 d高温预处理后,其SCOD/TCOD从33.9%提高到65%;中温厌氧消化时的甲烷产率和有机物去除率高达0.54 L/g和78.8%(SRT=20 d)、0.76 L/g和56.6%(SRT=15 d),略高于某实际餐厨废弃物及市政污泥协同处理项目一期的0.53 L/g和53.5%,该项目采用150~170℃高温、1 MPa高压热水解进行预处理;采用Illumina MiSeq测序技术得出水解酸化菌属如Porphyromonadaceae、Draconibacteriaceae、Eubacterium和Romboutsia在高温预处理后的共消化系统中得到富集,促进了系统的水解和产酸过程,为系统中产甲烷菌Archaea提供了丰富的基质,强化了污泥与餐厨垃圾共消化产气效果。  相似文献   

8.
探究了餐厨垃圾微氧发酵产挥发性脂肪酸(VFAs)的强化条件,即5种预处理方式(酸、碱、超声、热及热碱预处理)对餐厨垃圾接种酵母菌和醋酸菌后水解及产酸效果的影响.结果表明,预处理均有效提高了餐厨垃圾微氧发酵产VFAs及乙酸的性能,且产物组成并未发生改变.VFAs中乙酸、丙酸及丁酸分别约占81.81%~92.35%、0.00%~7.48%及6.69%~17.36%.其中,热碱预处理效果最好,在微氧发酵7d后,其发酵液中溶解性化学需氧量、VFAs产量、乙酸产量分别达到22.04、30.08和27.78g/L,较空白实验提高了46.54%、54.34%及77.06%,极大地加快了微氧发酵过程.  相似文献   

9.
鉴于蒸汽爆破(简称"汽爆")预处理对污泥和餐厨垃圾联合厌氧消化的影响还鲜有报道,为探讨汽爆预处理对污泥和餐厨垃圾联合中温厌氧消化的促进效果及经济可行性,利用小型发酵罐在35℃下开展了未预处理污泥和餐厨垃圾联合消化、汽爆污泥单独消化、汽爆污泥和餐厨垃圾联合消化的试验,并进行能耗分析.结果表明,未预处理污泥与餐厨垃圾联合消化阶段,VS(挥发性固体)去除率为33.9%,沼气产率为311.0 mL/g(以投料VS计);汽爆污泥单独消化阶段,VS去除率和沼气产率均略高于未预处理污泥与餐厨垃圾联合消化阶段,但反应器ρ(NH4+-N)过高,影响产气稳定性,沼气φ(CH4)较低.汽爆污泥与餐厨垃圾联合消化阶段,VS去除率和沼气产率分别达到49.5%和420.5 mL/g,显著优于未预处理联合消化阶段.能耗分析表明,预处理的升温过程使汽爆预处理整体能耗偏高,但若能有效回收70%的热量,则汽爆预处理可提高污泥-餐厨垃圾联合中温厌氧消化工艺3.34 kW·h/t(以污泥量计)的能量产率.研究显示,汽爆预处理可提高污泥和餐厨垃圾联合中温厌氧消化工艺35.2%的沼气产率,但由于预处理能耗较高,预处理过程中热能的有效回收是汽爆预处理应用于污泥和餐厨垃圾联合中温厌氧消化经济可行的关键.   相似文献   

10.
利用餐厨垃圾-污泥耦合厌氧发酵产挥发性脂肪酸(volatile fatty acids,VFAs)具有广泛的经济和应用价值。本实验考察了在1 V电化学预处理条件下,研究餐厨垃圾占比(空白对照,0%,5%,10%,质量分数)对厌氧发酵生成VFAs产量的影响,从而得出产VFAs的最优条件。研究表明:经过60 min 1 V电化学预处理后,随着餐厨垃圾占比从0%增加到10%,水体中溶解性COD浓度随时间变化迅速增加,最高可达到969~1266 mg/L,随着厌氧发酵的进行转化成VFAs。其中,当餐厨垃圾占比为10%时,VFAs在15 d内最高浓度可达到132.2 mg/L。实验结果表明,电化学预处理可改善餐厨垃圾-污泥特性,加快厌氧发酵过程,同时餐厨垃圾可增加污泥中有机质含量,增加VFAs产量,实现餐厨垃圾-污泥产VFAs的资源化利用途径。  相似文献   

11.
Two different conditioning procedures, one appetitive and the other aversive, were used in separate attempts to demonstrate response to magnetic fields in the goldfish, Carassius auratus. Our results lead us to question those of an orientation experiment by Becker, although we recognize the possibility that goldfish may be sensitive primarily to magnetic field direction rather than intensity and that their directional sensitivity may be evidenced most readily by orientation in the field.  相似文献   

12.
从生态旅游到低碳旅游——从理念到实践   总被引:3,自引:1,他引:2  
阐述了生态旅游、低碳旅游的基本概念,分析了生态旅游存在的不足,提出低碳旅游的量化及建立各项标准及其指标评价体系并将之融入低碳旅游全过程以实现低碳旅游的标准化,重点在于实现低碳理念、低碳参与者及低碳实践3个方面的有机结合,以促进旅游业的可持续发展的可操作性建议.  相似文献   

13.
根据心理学理论,学习是一个学生内化的过程,学生是自主学会的,而不是被动教会的。因此在教学中,教师只有做到以学定教,才能有效提高教学效率,促进学生对知识的掌握。  相似文献   

14.
应急监测是突发性环境污染事故处置中的首要环节,是对污染事故及时、正确地进行应急处理、减轻事故危害和制定恢复措施的根本依据。文章从制定应急监测预案、加强应急监测能力建设、摸清污染源状况、加强应急培训和应急演练等方面对做好突发环境事件应急监测的快速响应作了简要的阐述,供大家探讨。  相似文献   

15.
The impacts of climate change are expected to be generally detrimental for agriculture in many parts of Africa. Overall, warming and drying may reduce crop yields by 10–20% to 2050, but there are places where losses are likely to be much more severe. Increasing frequencies of heat stress, drought and flooding events will result in yet further deleterious effects on crop and livestock productivity. There will be places in the coming decades where the livelihood strategies of rural people may need to change, to preserve food security and provide income-generating options. These are likely to include areas of Africa that are already marginal for crop production; as these become increasingly marginal, then livestock may provide an alternative to cropping. We carried out some analysis to identify areas in sub-Saharan Africa where such transitions might occur. For the currently cropped areas (which already include the highland areas where cropping intensity may increase in the future), we estimated probabilities of failed seasons for current climate conditions, and compared these with estimates obtained for future climate conditions in 2050, using downscaled climate model output for a higher and a lower greenhouse-gas emission scenario. Transition zones can be identified where the increased probabilities of failed seasons may induce shifts from cropping to increased dependence on livestock. These zones are characterised in terms of existing agricultural system, current livestock densities, and levels of poverty. The analysis provides further evidence that climate change impacts in the marginal cropping lands may be severe, where poverty rates are already high. Results also suggest that those likely to be more affected are already more poor, on average. We discuss the implications of these results in a research-for-development targeting context that is likely to see the poor disproportionately and negatively affected by climate change.  相似文献   

16.
吕彤 《世界环境》2009,(6):70-71
密西西比河是美国第一大河。它一路曲曲弯弯向着墨西哥湾蜿蜒流去.沿途形成广袤的洪泛平原,滋润着美国大陆41%的土地。水量也比美国其他河流都要多。密西西比河及其洪泛平原哺育着400多种野生动植物。北美地区40%的水禽都沿着密西西比河的路径迁徙。密西西比河对于美国。如同长江对于中国,无论从经济还是生物多样性保护等方面,其作用都是举足轻重。  相似文献   

17.
Adoption of glyphosate-resistant canola (Brassica napus L.) has increased glyphosate applications to this crop, and concerns have been raised about unintended consequences of these multiple applications. A field trial was conducted to evaluate the effects of pre-seed and in-crop glyphosate and alternative herbicides on soil microbial community functional structure, diversity and biomass. Pre-seed treatments were 2,4-D, glyphosate and 2,4-D + glyphosate, and in-crop treatments were glyphosate applied once, glyphosate applied twice, ethalfluralin, ethalfluralin + sethoxydim + ethametsulfuron + clopyralid, and sethoxydim + ethametsulfuron. Rhizosphere and bulk soil was collected at flowering stage of canola and analyzed for bacterial community-level substrate utilization patterns and microbial biomass C (MBC). Where differences were significant, pre-seed application of both 2,4-D and glyphosate altered the functional structure and reduced the functional diversity of soil bacteria, but increased MBC. These effects were not necessarily concurrent. The reduction in functional diversity was due to reduction in evenness, which means that the soil where both pre-seed herbicides had been applied was dominated by only few functional groups. In 1 year, two in-crop applications of glyphosate also reduced the functional diversity of soil bacteria when applied after pre-seed 2,4-D, as did in-crop sethoxydim + ethametsulfuron following pre-seed glyphosate. Even though significant differences between herbicides were fewer than non-significant differences, i.e., there were no changes in soil microbial community structure, diversity or biomass in response to glyphosate or alternative herbicides applied to glyphosate-resistant canola in most cases, the observed changes in soil microbial communities could affect soil food webs and biological processes.  相似文献   

18.
从幼儿园升入小学是孩子迈入知识殿堂的关键一步,也是孩子人生的一大转折。如何协助家长和教师,帮助孩子顺利实现这次转折是非常重要的。基于此目的,结合多年从事幼小教育工作的实际,并根据教育部颁布的《幼儿园教育指导纲要》精神,紧扣学前儿童的心理和学习特点,阐述如何让孩子在各方面得到系统的锻炼和提高,为顺利升入理想的小学、并尽快适应小学阶段的学习和生活做好准备。  相似文献   

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20.
"它随处可见,从最大的海洋到最小的水坑,从最茂密的森林到最干旱的荒漠,从最富饶的沼泽到最高的山峰……它是一个活的银行账户,为人类全部事业和财富提供资本.它是什么?它就是……生物多样性." 翻开《生物多样性知识达人手册》的第一页,在"开头的话"中,你就能读到上面这一段饶有趣味的文字,让你不自觉地联想到我们所处的环境和我们赖以生存的地球.没错,这是一本新鲜出炉的、以生物多样性为主题的读物,用生动有趣的方式告诉你,什么是生物多样性?生物多样性为什么重要?你怎样才能保护好这个星球的生物多样性?  相似文献   

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