共查询到20条相似文献,搜索用时 31 毫秒
1.
城市垃圾填埋场甲烷资源量与利用前景 总被引:3,自引:0,他引:3
垃圾填埋气的主要成分为CH4、CO2等气体,可严重污染大气、地下水和生态环境,并对全球气候变暖产生一定的影响;同时填埋气也是一种清洁可再生能源和资源,回收和利用垃圾填埋气可实现环境、安全、能源、资源、经济多重效益。目前,垃圾填埋气的利用主要为甲烷利用。本文介绍了填埋气中甲烷资源量的计算方法,采用一阶动力模型对国内城市垃圾填埋气中的甲烷排放量进行了计算和预测,获得了城市生活垃圾填埋气中甲烷的资源量的范围,并分析了国内垃圾填埋气排放的特点和趋势以及国内外对填埋气利用的途径、方法及效果。结合清洁发展机制(CDM)项目和国情分析了垃圾填埋气的利用前景,并提出了填埋气回收利用的主要问题和建议,为国内城市生活垃圾填埋气的利用提供了有益参考。 相似文献
2.
为了研究渗滤液水位以下产气对孔隙压力的影响,从孔隙气在渗滤液水位以下特定的流动状态出发,采用峰值产气模型,结合了达西定律、理想气体状态方程和多孔介质流体动力学理论,建立了渗滤液水位以下考虑产气作用的气液迁移模型。运用差分法对产气引起的气液迁移问题进行了数值求解。计算结果表明,渗滤液水位以下垃圾体的产气对孔隙压力的影响主要有渗滤液渗流引起的附加孔隙压力和水位升高引起的附加孔隙压力,按孔隙气所处阶段的不同可以分为孔隙气被封闭时孔压积聚阶段、孔隙气突破孔隙水封闭时的孔压急剧消散阶段以及由对流作用控制的气液运移阶段;高产气速率、高渗滤液水位和低渗透系数都会使得垃圾体内产生较高的孔隙压力;降低填埋场内渗滤液水位是减小产气对孔隙压力影响的有效措施。 相似文献
3.
The primary objective of bioreactor landfill is to achieve adequate and rapid distribution of moisture in landfilled municipal solid waste (MSW) to accelerate the anaerobic biodegradation of the organic fraction within MSW. A horizontal trench system (HT) is commonly adopted for leachate distribution in MSW under pressurized conditions. However, this approach should be implemented carefully due to the potential instability of landfill slopes that comes from the generation and distribution of excessive pore fluid pressures. In this study, HT design charts are presented that determine the optimal location of horizontal trench systems from the side slope (i.e., minimum lateral setback distance) under continuous leachate addition with maximum applied injection pressures, for which the landfill slopes remain stable [factor of safety (FOS) where FOS ≥ 1.5]. Use of any higher injection pressure and/or shorter lateral setback distance of HT than the one presented in the design charts would result in an unacceptable design of the bioreactor side slope (FOS < 1.5). The design chart was developed based on a parametric study that used a numerical two-phase flow model that involved different slope configurations and landfill waste depths. MSW heterogeneity and anisotropy, as well as unsaturated hydraulic properties, were taken into consideration in these simulations. Transient changes in pore water and gas pressures due to leachate recirculation were accounted for dually in the slope stability computations. The importance of these design charts is illustrated using a practical example. Site-specific conditions and the expertise and prior experience of a designer or operator must also be adequately considered and utilized with the design charts presented here for the safe design of a horizontal trench system in a bioreactor landfill. 相似文献
4.
Prediction of long‐term settlement and control of gas pollution to the environment are two principle concerns during the management of municipal solid waste (MSW) landfills. The behavior of settlement and gas flow in MSW landfills is complicated due to the combined effect of mechanical deformation of the solid skeleton and continuous biodegradation of the waste. A one‐dimensional settlement and gas flow model is presented in this paper, which is capable of predicting time evolution of settlement as well as temporal and spatial distribution of gas pressure within multi‐layered landfills under a variety of operating scenarios. The analytical solution to the novel model is evaluated with numerical simulation and field measurements. The resulting efficiency and accuracy highlight the capability of the proposed model to reproduce the settlement behavior and gas flow in MSW landfills. The influences of operating conditions and waste properties on settlement and gas pressure are examined for typical MSW landfills. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
5.
在分析苏里格气田辫状河体系及储层结构特征的基础上,提出了剖面储量集中度的概念,建立了厚层块状型、垂向叠置泛连通型、分散局部连通型、分散孤立型4种砂体分布模式,探讨了不同储层结构下的水平井采出程度,提出了水平井提高采收率技术对策。研究结果表明,辫状河沉积体系复合有效砂体由于“阻流带”的存在,直井动用不完善,水平井能克服“阻流带”的影响,提高层内储量动用程度;但由于砂体多层状分散分布,水平井开发会导致纵向含气层系储量动用不充分,影响层间采出程度。对于剖面储量集中度高的厚层块状型、垂向叠置泛连通型储层,采用水平井整体开发,Ⅰ+Ⅱ类井比例达70%以上,可显著提高储量动用程度和采收率。对于剖面储量集中度低的分散局部连通型储层,采用直井井网开发后进行甜点式优选水平井井位加密部署,可提高采收率10%以上。 相似文献
6.
Yongchao Xue Yonghui Wu Linsong Cheng Shijun Huang Shuang Ai Yanwei Yang 《Arabian Journal of Geosciences》2018,11(18):551
Multi-stage fractured horizontal wells play an important role in developing shale gas reservoirs by significantly improving productivity. By considering fracture networks, gas desorption, stress-sensitive fracture permeability, and pressure-dependent gas PVT properties, an analytical model is developed for shale gas wells. Fracture networks are handled based on transient linear flow, gas desorption is handled by defining a new total compressibility, stress-dependent hydraulic fracture permeability is handled by variable substitution, and pseudo-pressure and pseudo-time are used to handle pressure-dependent PVT properties. After obtaining the solution of the linearized model, a material balance method and successive substitution iteration procedure are proposed to convert the pseudo-time into real time and calculate the production contribution from gas desorption. The results show that induced fractures also have a great impact on the production of the well. Production contribution from free gas and adsorbed gas could be quantified using the proposed material balance principle and iterative method. The rank of parameters that influence the ultimate recovery is the following: half-length of hydraulic fracture, induced fracture length/hydraulic fracture spacing, hydraulic fracture spacing, conductivity of induced fractures, conductivity of hydraulic fracture, and induced fracture spacing. 相似文献
7.
考虑填埋场沉降和生物降解作用下的孔隙度仿真预测研究 总被引:5,自引:0,他引:5
垃圾填埋场上覆层的压缩以及自身的降解作用使内部孔隙结构发生了改变。沉降和生物化学反应的双重作用改变了填埋场原有孔隙度分布。将垃圾压缩变形和微生物降解所引起的产气过程相结合,建立了描述填埋场孔隙度-位移-气体压力相互作用的耦合数学模型,并给出了耦合模型的数值格式。通过数值计算得到了垃圾填埋体的沉降应变、孔隙度、孔隙渗透及扩散特性的变化规律。计算结果表明,填埋场运营前10年垃圾降解对孔隙度作用较明显,孔隙度呈线性增大,随后增大幅度减缓,达到峰值后逐渐减小,减小过程主要受垃圾沉降作用影响;不同成分的有机质含量对孔隙度的影响也存在差异;受有机质降解作用的影响,填埋约为190个月时固有渗透率可达到1.4 10-12 m2,Dg/D0可达到0.178。因此,开展填埋场沉降和生物降解作用下孔隙度的预测研究,对于评价填埋气体的有效控制以及填埋场安全指标体系的完善都具有重要的现实意义。 相似文献
8.
通过某危险废物安全填埋场项目,介绍了安全填埋工程的总体设计工艺,包括危险废物填埋处置总体流程、预处理系统、填埋库体结构、防渗系统、终场覆盖及环境监测等。结合工程设计实践,探讨了危险废物填埋场设计工艺要点。分析认为在沿海软土地区,采用双衬层水平防渗和垂直防渗相结合的半刚性结构方式,可以达到有效保护库区环境的目的。 相似文献
9.
Data from two free soil gas sampling programs are evaluated for the effects of barometric pumping over time on measured soil gas volumes. One program collected data from the trapped atmosphere immediately above two hazardous waste landfill areas. Of these areas, one had extremely high soil gas emanations, whereas the other had a more modest soil gas release. The second experimental program involved the collection of free soil gas samples on a rough grid with an approximate spacing of 1.6 km over a 720-sq-km area. This reconnaissance effort was designed to establish regional soil gas background values and to establish the utility of this method as a geological mapping tool in the Atlantic Coastal Plain. Methane, ethane, propane, and hydrogen data are used for this study. The data suggest that there is a predictable change in soil gas volume with a given change in barometric pressure. The rate of change is greater with large soil gas volumes in permeable soils versus lower soil gas volumes in impermeable soils; however, a simple linear relationship seems to generate a predictable curve with a margin of error of approximately 50%. Furthermore, the results of this study indicate that barometric pumping effects should be strongly considered during soil gas screening efforts at hazardous waste sites as well as in regional studies for hydrocarbon source potential mapping. 相似文献
10.
黄土在我国西北地区广泛分布,是当地垃圾填埋场封顶覆盖层的主要材料,该材料的气体渗透特性直接影响了覆盖层对填埋气释放的控制效果。利用渗析技术和自制的气体渗透系数测量装置,模拟和测试了干湿气象条件下覆盖黄土服役含水率变化及其对气体渗透系数的影响,并建立填埋气在垃圾体和覆盖层中的一维稳态运移模型,分析了覆盖层气体渗透系数和抽气速率对填埋气释放控制效果的影响。研究结果表明:渗析技术能有效模拟覆盖黄土服役含水率的变化,压实黄土试样的气体渗透系数介于10-17~10-12 m2量级,随服役含水率的增加而降低,且对于压实度比较高的黄土降低得更加明显;覆盖层底部的填埋气压随气体渗透系数的减小而增大,通过覆盖层下部的气体扩散层负压抽气等措施,可有效减小覆盖层底部气压和填埋气的释放量。 相似文献
11.
元素硫从含硫天然气中析出沉降会影响流体流动,常规的水平井产量预测模型无法用于高含硫气藏水平井非稳态产量预测。本文基于非稳态椭圆流理论,耦合基质内的椭圆流动和裂缝内的非达西流动,考虑元素硫沉积及缝间干扰效应的影响,建立了适用于酸化水平井与酸压水平井的非稳态产量预测模型。分析了硫沉积对渗透率、孔隙度的影响,计算了不同裂缝参数对产能的影响,该模型适用于变井底流压生产条件。计算结果表明:科学准确的元素硫溶解度模型能较好地预测高含硫气藏水平井产量。酸压改造后缝间干扰现象会降低气井产能,且随着时间逐渐增强。硫沉积会降低储层渗透率和孔隙度,使得产量下降。增大裂缝导流能力,增加裂缝半长或者裂缝数量都能有效提高水平井产量,与裂缝导流能力相比,裂缝半长和裂缝数量对产量的影响更大。 相似文献
12.
13.
压力是气藏的“灵魂”,地层压力是评价气井产能,分析气藏潜力的基础。然而,受到资料完整程度、方法适用条件等因素的限制,大部分气井无法准确获取地层压力。为了评价致密砂岩气藏地层压力,基于少量压力监测资料,采用数学反演思维,提出物质平衡反演法。首先,利用拟稳定流动状态下气井生产数据,拟合Blasingame图版,计算气井动态储量。而后,通过动态储量及一个测压数据进行反演,建立物质平衡方程,代入累产气量,评价地层压力,最后,以大宁–吉县区块致密砂岩气井为例,进行地层压力计算。结果表明:(1) 物质平衡反演法仅需一个测压点,可以评价气井的地层压力变化。(2) 气井原始地层压力差异大,单井地层压力变化复杂,存在多个压力系统。(3) 压力系统不一致与储层非均质性强有关。研究结果对于致密气单井压力计算和致密气藏压力评价提供了可靠的方法,为致密气藏开发方案调整和效益开发奠定了基础。 相似文献
14.
我国的层状盐岩储层具有岩层厚度薄、夹层含量多、杂质含量高的特点,盐层厚度较薄时立式盐岩储气库有时难以获得较为经济的溶腔体积,通过提高储气库水平方向尺寸而建造的卧式储气库则可以达到经济体积的要求。从力学稳定性角度探讨卧式储气库的可行性,提出了卧式椭球储气库的力学简化模型。在前期研究的基础上使用弹性理论方法,推导了卧式椭球上关键点处以椭球形状比s(水平半轴与竖直半轴之比)、材料泊松比 、腔体内压 和远场应力( 、 、 )为函数的应力解。对理论解和数值解进行了对比,结果表明二者误差平均在3%左右。使用推导得到的理论公式,结合DP屈服准则,计算了当椭球形状比一定时储气库的最小运营内压值,得到了椭球形状比与储气库最小运营内压的关系曲线,并对卧式储气库运营内压的稳压范围进行了简单讨论。 相似文献
15.
由于子洲气田低渗致密气储层地质情况复杂,储层物性差异大,造成子洲气田各井的产量、压力等生产特征不同。为了更好地指导低渗致密气井高效合理的开发,需要基于各井的静态特征和动态规律,对其进行合理的分类。采用储能系数和地层系数两个储层物性参数,作为静态评价指标;采用稳产期累产气量、稳产期日均产气量、平均日产气和单位压降产气量四个动态参数,作为动态评价指标。创造性地提出依据各评价指标频率分布直方图的特征,对气井进行各指标分级。基于正交矩阵的思路,建立了动静结合的低渗致密气井分类评价方法,最终形成了静-动结合的气井分类结果:子洲气田152口低渗致密气井中I类井(储层物性好,实际产量高)占11.2%、II类井(储层物性较差,实际产量高)占8.5%、III类井(储层物性好,实际产量低)占30.3%、IV类井(储层物性差,实际产量低)占50.0%。其中,III类井是今后生产开发的研究重点,明确III类井的范围,可为将来措施提产指明方向。建立的动静结合低渗致密气井分类评价方法,可为类似区块低渗致密气井的分类提供借鉴。 相似文献
16.
An analytical solution for one-dimensional contaminant diffusion through multi-layered media is derived regarding the change
of the concentration of contaminants at the top boundary with time. The model accounts for the arbitrary initial conditions
and the conditions of zero concentration and zero mass flux on the bottom boundary. The average degree of diffusion of the
layered system is introduced on the basis of the solution. The results obtained by the presented analytical solutions agree
well with those obtained by the numerical methods presented in the literature papers. The application of the analytical solution
to the problem of landfill liner design is illustrated by considering a composite liner consisting of geomembrane and compacted
clay liner. The results show that the 100-year mass flux of benzene at the bottom of the composite liner is 45 times higher
than that of acetone for the same composite liner. The half-life of the contaminant has a great influence on the solute flux
of benzene diffused into the underlying aquifer. Results also indicates that an additional 2.9–5.0 m of the conventional (untreated)
compacted clay liner under the geomembrane is required to achieve the same level of protection as provided by 0.60 m of the
Hexadecyltrimethylammonium (HDTMA)-treated compacted clay liners in conjunction with the geomembrane. Applications of the
solution are also presented in the context of a contaminated two-layered media to demonstrate that different boundary and
initial conditions can greatly affect the decontamination rate of the problem. The method is relatively simple to apply and
can be used for performing equivalency analysis of landfill liners, preliminary design of groundwater remediation system,
evaluating experimental results, and verifying more complex numerical models. 相似文献
17.
涪陵页岩气田是我国第一个投入商业化开发的国家级页岩气示范区,与北美相比,涪陵地区地表条件、地质条件和页岩气储层特征更加复杂、储层埋藏更深,开发初期钻井机械钻速低、钻井周期长、成本高。为此开展了涪陵页岩气田水平井组优快钻井技术研究,形成了集水平井组钻井工程优化设计、水平井优快钻井技术、国产低成本油基钻井液、满足大型压裂要求的长水平段水平井固井技术、山地特点“井工厂”钻井技术以及绿色环保钻井技术为核心的页岩气水平井组优快钻井技术体系。在涪陵页岩气田推广应用了290口井,完井256口,平均单井机械钻速提高了182%,平均单井钻井周期缩短了55%,平均单井钻井成本降低了34%。为涪陵页岩气田年50亿m3一期产能建设的顺利完成提供了强有力的技术支撑,对我国页岩气规模开发提供了重要的借鉴和引领作用。 相似文献
18.
Most multiple-fractured horizontal wells experience long-term linear flow due to the ultralow permeability of shale gas reservoirs. Considering the existence of natural fractures caused by compression and shear stresses during the process of tectonic movement or the expansion of high-pressure gas, a shale gas reservoir can be more appropriately described by dual-porosity medium. Based on the assumption of slab dual-porosity, this paper uses the trilinear flow model to simulate the transient production behavior of multiple-fractured horizontal wells in shale gas reservoirs, which takes the desorption of adsorbed gas, Knudsen diffusion and gas slippage flow in the shale matrix into consideration. Production decline curves are plotted with the Stehfest numerical inversion algorithm, and sensitivity analysis is done to identify the most influential reservoir and hydraulic fracture parameters. It was found that the density and permeability of the natural fracture network are the most important parameters affecting the production dynamics of multiple-fractured horizontal wells in shale gas reservoirs. The higher the density and permeability of the natural fractures are, the shorter the time is required to exploit the same amount of reserve, which means a faster investment payoff period. The analytical model presented in this paper can provide some insight into the reserve evaluation and production prediction for shale gas reservoirs. 相似文献
19.
A good prediction of solid waste landfill settlement is important for landfill design and rehabilitation. A one-dimensional model which accounts for mechanical settlement and biodegradation processes is developed to simulate the settlement behavior of municipal solid waste landfill. The derivation of analytical solutions for specific conditions is introduced. The numerical approach, capable of coping with more general conditions, is also presented to estimate the spatial and temporal distribution of landfill settlement. The proposed model can simulate typical features of short- and long-term landfill settlement behaviors. With proper selection of parameter values, field measurements are well simulated by this model. The effects of some design parameters on the settlement behavior of municipal solid waste landfills are also examined with the help of this model. 相似文献
20.
煤层气井稳产时间预测对煤层气井合理稳产气量预测与排采制度优化具有重要意义。基于沁水盆地南部樊庄?郑庄区块不同井型的大量生产数据,明确煤层气井稳产阶段及稳产时间的基本概念,提出稳产时间预测经验公式并分析其影响因素。结果表明,煤层气井依靠持续降低井底流压保持稳产,稳产时间为开始稳产时刻的井底流压降至集气管线压力所用的时间。提出能够有效表征直井、L型筛管水平井、L型套管压裂水平井稳产阶段累积稳产时间与井底流压关系的经验公式,基于经验公式得到的最终稳产时间计算公式能够准确预测各井型的稳产时间,误差仅为?8.30%~8.03%。稳产时间的影响因素较多,第一,稳产流压损耗系数越大稳产时间越短,稳产流压损耗系数与解吸压力成反比,与提产流压损耗系数成正比,提产流压损耗系数控制在0.006 5 d?1以下利于长期稳产;第二,开始稳产时刻,井底流压越高、稳产时间越长,应该高压提产、高压稳产;第三,对不同的煤层气井,稳产气量高,稳产时间不一定短,需确定合理的稳产气量。提出的稳产时间计算方法可实现不同稳产气量下稳产段累积产气量的预测,进而可确定合理的稳产气量。 相似文献