红山嘴油田稠油污水回注效果跟踪评价

红山嘴油田于1990年投入注水开发,在注水开发过程中,由于注水水质不稳定、配伍性差,造成注水系统结垢严重,注水井井况恶化、检配合格率低,修井频繁。文章对稠油净化污水回注开展可行性评价研究和论证,实现了稠油净化污水回注红山嘴油田,对净化污水回注后储层伤害、腐蚀结垢趋势进行动态跟踪评价,确定了净化污水对注水指标的影响程度及影响因素。动态跟踪结果表明:净化污水回注后,红山嘴油田注水水质得到明显改善,消除了注水系统的结垢问题,储层伤害得到有效控制,实现外排污水合理利用,可节约油田清水用量73万m~3/a,减少环保压力,为稠油净化污水回注技术储备和示范奠定良好基础。     

气田采出水处理系统优化运行效果评价

长北天然气处理厂气田采出水处理系统自投运以来,在生产运行过程中存在采出水悬浮物含量高、油分处理效果差的状况,回注水中含油、悬浮物较高,回注泵故障频发,回注压力高。分析水质变差原因,同时对现有采出水处理系统进行分析,优化缓蚀剂加注方案,制定加药程序,引入新设备、新工艺提升采出水处理效果,使回注水含油量、悬浮物含量达到SY/T 5329-2012《碎屑岩油藏注水水质指标及分析方法》要求。     

川南页岩气区块生命周期用水核算

选取川南页岩气区块为研究对象,运用过程生命周期评估和投入产出生命周期方法核算页岩气开采生命周期的直接和间接用水量,并与美国Marcellus页岩气区块用水量进行比较。川南区块总直接用水量为22 928 m^3/井,高于Marcellus区块的总直接用水量15 320 m^3/井。从生命周期阶段来看,川南页岩气开采钻井和压裂阶段的直接用水均远大于Marcellus区块。结合水环境管理指标,自然资源禀赋条件主要决定了直接用水量的差异。川南区块总间接用水量为25 098 m^3/井,超过总直接用水量,约为Marcellus区块总间接用水量的3倍。除井场准备阶段外,其余阶段的间接用水量均大于Marcellus区块,间接用水量的差异与钻井和压裂过程的添加剂、能源使用量和全行业用水效率有关。减少川南区块页岩气开发用水量的主要途径包括提高钻井液和压裂液回用率、改善钻井和压裂添加剂使用效率、提高柴油和电力等能源利用效率和全行业用水效率。     

中国石油采出水水质达标率超94%

<正>中国石油已建成各类采出水处理站630多座、含油污泥处理站26座,采出水水质综合达标率达到94.08%,为促进油田高产稳产、保护环境等发挥了重要作用。规章立制,提高水质达标率。2012年,中国石油发布《注水开发油田水处理和注水系统地面生产管理规定》,使注水开发油田水处理和注水地面生产管理工作有章可循。各油田进一步制定完善实施细则、标准规范和测试评价方法等,有力推动水系统工作标准化和规范化。     

气田采出水处理系统优化运行效果评价

长北天然气处理厂气田采出水处理系统自投运以来,在生产运行过程中存在采出水悬浮物含量高、油份处理效果差的状况,回注水中含油、悬浮物较高,回注泵故障频发,回注压力高。分析水质变差原因,同时对现有采出水处理系统进行分析,优化缓蚀剂加注方案,制定加药程序,引入新设备、新工艺提升采出水处理效果,使回注水含油量、悬浮物含量达到回注标准。     

含油废水处理及综合利用技术探索与实践

油田开发过程中,随着油井产量的增加势必会伴随产生大量的污水及衍生物(油泥),给周围生态环境造成一定的负面影响和危害.介绍了中石化河南油田王集油气开发区块对于稠油开发过程中产生的废水、压滤污泥,严格按照清洁生产要求,控制各项工艺流程,确保符合各项清洁生产标准.注水系统采用"除油+混凝沉降+气浮+过滤"的处理工艺,回用系统...     

浙江油田管5井区块注水处理研究

浙江油田管5井区块属于低渗透区块,油田开发过程中产出水悬浮物(SS)、硫酸盐还原菌(SRB)、腐生菌(TGB)等指标严重超标。未经处理的油田污水如果直接注入到地层中,注入水中的悬浮颗粒会伤害油层的渗透率,导致注水井的吸水能力降低和油井产能下降,从而影响开发效果。因而,对其油田产出水采用内压式中空纤维超滤工艺处理。文章介绍了注水处理工艺及流程,结果表明:超滤工艺出水水质:SS为0.25mg/L,SRB菌数为0,铁细菌数为17个/mL,腐生菌数0,相关水质指标符合《碎屑岩油藏注水水质推荐指标及分析方法》(SY/T5329-94)的要求。     

油田注水管道固着菌检测及控制技术

油田注水管线内壁的固着菌对水质的稳定性具有较大影响,为了能真实反映油田注水系统中固着菌的生长状况及对系统的影响,研制了适合油田注水系统的固着菌取样器,并优化筛选了渗透剥离能力强的固着菌杀菌剂,在胜利油田胜利采油厂宁海站进行了应用试验。试验结果表明:研制的取样器可实现现场固着菌原位取样;在试验周期内材料表面附着了大量固着菌,并存在一定程度的微生物腐蚀;筛选的杀菌剂具有高效生物膜剥离能力,可有效控制管壁固着菌的生长。     

气田产出水回注问题探讨

气田开采进入中、后期,随着气藏压力下降,地层水逐渐浸入气藏,流向气井,随天然气一道流到地面,即气田产出水。气田产出水中含大量氯离子,矿化度高,还含有油、S~(2-)等其他污染物,这些污染物随着气田产出水外排对环境将构成危害。产出水量大,又无外排条件时,一般应回注。为保证回注顺利进行,本文探讨了回注层位的选择,气田回注水的预处理,回注工艺的选择,注水效果监测以及气田注水中所存在的问题。最后,作者为提高气田注水技术,保护安全作业,提出了建议。     

高压注水井措施返排液回注技术探讨

在注水井进行措施作业前,存在放喷泄压时间长、返排液量大的难题,严重影响了措施作业的进度,也给油田生产带来很大的环保压力。利用井口自身注水工艺流程,将泄压放空的返排液经过处理后回注入注水井或者注水流程,对于油田生产和环境保护具有一定的重要意义。     

含油污泥深度调堵技术在大庆油田的应用

含油污泥调堵技术是将废弃的含油污泥配制成调堵剂,对低压井进行调堵,既可废物利用,又可对低压井进行治理。对配制工艺在室内实验研究的基础上,对大庆油田两口井的含油污泥进行了调堵试验,完成了设计注入量。对调堵剂的配方、配制技术、注入量及注入工艺进行了一系列的现场实践检验。结果表明,含油污泥深度调堵技术不仅能改善注入井吸水剖面,而且为解决油田废弃油泥的环境污染问题提供了新的途径。     

A low pressure direct gas injection system for a four stroke LPG: Diesel dual fuel engine

Internal combustion engines running on gaseous fuels produce low torque because the inducted gaseous fuel displaces air and reduces the volumetric efficiency. This can be overcome by injecting the gaseous fuel directly into the cylinder after the intake of air is completed. This work is a step in developing and demonstrating a cost effective system, as such systems are not readily available for small applications. A low-pressure gas injector was mounted on the cylinder barrel of a fully instrumented dual fuel engine. Its location is such that the injector will be exposed to the cylinder gases about 65.5 degrees before bottom dead center, where the cylinder pressure and temperature will be relatively low. An electronic controller was also developed to time the injection process to occur after the intake valve closes and also to control the duration of injection (quantity). Experiments were conducted with LPG (Liquefied petroleum gas) as the primary fuel that was injected with this new system and diesel as the pilot fuel at the rated speed of 1500 rpm with different amounts of LPG at 80% and 100% load. Comparisons of performance, combustion and emissions with the conventional manifold injection of LPG were done. The system allowed greater amounts of LPG to be used without knock as compared to manifold injection. On the whole the developed system has potential for application in small dual fuel and spark ignited gas engines and can be taken up for further optimization.     

Managing disposal of water produced with petroleum in Kuwait

Disposal of water produced with petroleum has been of great interest in Kuwait for the last 20 years. The current problem arose when the Burgan oil field, which is the second largest field in the world, experienced successive increases in the water content of the produced oil. This study introduces a decision-making analysis of the considered alternatives for the disposal of the produced water. Four alternative solutions exist for the industry as practical solutions for the disposal of water produced in Kuwait. The first method utilizes a large number of pits to discharge water. The second alternative depends on discharging water into sealed pits. The third approach to dispose water is by injecting the water underground. The last method is similar to the previous one, but takes into consideration the recovery of reservoir pressure to maintain the rate of oil production. A questionnaire was distributed to 48 experts at the top management level of the petroleum companies and the governmental authority. The data collected considered cost, efficiency, and environmental parameters. Based on the data, a statistical analysis was conducted using the factor analysis method to reduce the number of investigated variables. The analysis concluded that the optimal solution is to use the effluent injection method to discharge water produced with oil in Burgan and similar fields in Kuwait.     

ARTIFICIAL RECHARGE IN SASKATCHEWAN: CURRENT DEVELOPMENTS1

ABSTRACT: The use of artificial recharge in Saskatchewan and the rest of Canada to improve rural community and farmstead domestic water supply has great potential. Approximately 75 percent of the people in rural Saskatchewan and 26 percent of all the people in Canada are dependent on ground water for their domestic water supply. Typically, this water is highly mineralized and is often unpalatable due to odor and taste. A source of readily available, high quality water to eliminate expensive chemical treatment of available water and long distance hauling would be of significant value to rural residents. Storage of high quality water in aquifers by injection through wells has been documented and has been shown to depend on the use of a surface water catchment system to provide the high quality water. Since air entrainment or formation clogging can occur in poorly operated recharge schemes, development of proper design and operation of recharging procedure is required. This can be accomplished by using an injection response computer model and a properly designed injection system. Small scale artificial recharge projects will provide a valuable commodity to rural water users and will promote sustainable and conjunctive use of surface and ground water resources.     

含油污泥调剖技术在陇东油田悦29区的应用

针对长庆陇东油田悦29区注水平面矛盾突出的特点,优选了含油污泥调剖技术。详细介绍了调剖体系的配制,调剖体系性能测试表明其相关性能指标满足要求。进行了驱替模拟试验,结果表明:其封堵作用可以维持较长时间,通过对不同注水井组进行现场应用,显示该技术能改善水驱开发效果,可以满足油藏深部封堵大孔道的技术要求,有增油降水效果。     

SALINITY INCREASES IN THE NAVAJO AQUIFER IN SOUTHEASTERN UTAH1

ABSTRACT: Salinity increases in water in some parts of the Nava-jo aquifer in southeastern Utah have been documented previously. The purpose of this paper is to use bromide, iodide, and chloride concentrations and del oxygen-18 and deuterium values in water from the study area to determine if oil-field brines (OFB) could be the source of increased salinity. Mixing-model results indicate that the bromide-to-chloride X 10,000 weight ratio characteristic of OFB in and outside the study area could not be causing the bromide depletion with increasing salinity in the Navajo aquifer. Mixing-model results indicate that a mixture of one percent OFB with 99 percent Navajo aquifer water would more than double the bromide-to-chloride weight ratio, instead of the observed decrease in the weight ratio with increasing chloride concentration. The trend of the mixing line representing the isotopically enriched samples from the Navajo aquifer does not indicate OFB as the source of isotopically enriched water; however, the simulated isotopic composition of injection water could be a salinity source. The lighter isotopic composition of OFB samples from the Aneth, Ratherford, White Mesa Unit, and McElmo Creek injection sites relative to the lsmay site is a result of continued recycling of injection water mixed with various proportions of isotopically lighter make-up water from the alluvial aquifer along the San Juan River. A mixing model using the isotopic composition of the simulated injection water suggests that enriched samples from the Navajo aquifer are composed of 36 to 75 percent of the simulated injection water. However, chloride concentrations predicted by the isotopic mixing model are up to 13.4 times larger than the measured chloride concentrations in isotopically enriched samples from the Navajo aquifer, indicating that injection water is not the source of increased salinity. Geochemical data consistently show that OFB and associated injection water from the Greater Aneth Oil Field are not the source of salinity increases in the Navajo aquifer.     

塔中油田硫酸盐还原菌恶性繁殖机理分析＊

硫酸盐还原菌等的恶性繁殖使油田生产管线设施腐蚀破坏、结垢堵塞,注入地层后对油层造成伤害。研究发现,塔中油田联合站水体可检测SRB菌数高达2.5×104个/mL,注水管垢含FeS高达29.8%,属硫酸盐还原菌恶性繁殖代谢产物。塔中油田水系统各主要环节中硫酸盐还原菌和硫化氢含量与油田水处理工艺特点密切相关,其中塔中油田联合站完全密闭的水处理压力流程是造成该站硫酸盐还原菌恶性繁殖的主要原因。实验表明,前端适度曝氧、添加H2O2等氧化性杀菌剂和300mg/L冲击式加药等都是抑制硫酸盐还原菌的有效方法。     

RECLAIMED WASTE WATER FOR GROUNDWATER RECHARGE1

ABSTRACT. The Orange County Water District has conducted studies in waste water reclamation and groundwater recharge since 1965. The work has been done in three phases: (1) Study in both laboratory and pilot-scale units on the feasibility of reclaiming trickling filter effluent for injection through wells into confined aquifers; (2) long-term injection study to determine the fate of injected reclaimed water and to observe the performance of a multi-casing injection well; (3) testing alternative treatment methods in a 25,000 gpd pilot plant to solve the water quality problems which developed during the injection study. The reclaimed trickling filter effluent was found to be injectable and did not cause excessive well clogging. The multi-casing injection wells performed very satisfactorily. The reclaimed water would be acceptable for domestic use after travel through 500 feet of a confined aquifer in that bacteria, virus and toxic material were consistently absent. However, the odor and taste which persisted in the injected reclaimed water and the high concentration of dissolved inorganics are undesirable characteristics. Methods to eliminate the odor are being tested at the present time. A cooperative project with the Office of Saline Water is under way to develop a source of desalted seawater to blend with reclaimed waste water.     

Intermediate storage of carbon dioxide in geological formations: A technical perspective

Enhanced oil recovery (EOR) through CO₂ flooding has been practiced on a commercial basis for the last 35 years and continues today at several sites, currently injecting in total over 30 million tons of CO₂ annually. This practice is currently exclusively for economic gain, but can potentially contribute to the reduction of emissions of greenhouse gases provided it is implemented on a large scale. Optimal operations in distributing CO₂ to CO₂-EOR or enhanced gas recovery (EGR) projects (referred to here collectively as CO₂-EHR) on a large scale and long time span imply that intermediate storage of CO₂ in geological formations may be a key component. Intermediate storage is defined as the storage of CO₂ in geological media for a limited time span such that the CO₂ can be sufficiently reproduced for later use in CO₂-EHR. This paper investigates the technical aspects, key individual parameters and possibilities of intermediate storage of CO₂ in geological formations aiming at large scale implementation of carbon dioxide capture and storage (CCS) for deep emission reduction. The main parameters are thus the depth of injection and density, CO₂ flow and transport processes, storage mechanisms, reservoir heterogeneity, the presence of impurities, the type of the reservoirs and the duration of intermediate storage. Structural traps with no flow of formation water combined with proper injection planning such as gas-phase injection favour intermediate storage in deep saline aquifers. In depleted oil and gas fields, high permeability, homogeneous reservoirs with structural traps (e.g. anticlinal structures) are good candidates for intermediate CO₂ storage. Intuitively, depleted natural gas reservoirs can be potential candidates for intermediate storage of carbon dioxide due to similarity in storage characteristics.