共查询到20条相似文献,搜索用时 281 毫秒
1.
Xiaoyan LIU Qianya ZHU Jinlai FENG Gang QI Baosen ZHANG Yingli LI Jingxin SUN 《中国地球化学学报》2006,25(B08):161-161
In order to maintain the reservoir pressure and improve oil recovery efficiency, water flood recovery is used commonly in the middle and last periods of oilfield exploitation. At the same time, in order to avoid environmental pollution, the oilfield sewage should be reinjected. During that manufacture, variations in the conditions of pressure, temperature and unstability and incompatibility of thermodynamics make scale formation in water flood assize, casing, bottom of the wells, surface equipments and gathering lines. Taking the Daqing oil field for example, in which the surface gathering lines the scale forming is comparatively serious. In order to improve crude oil processing effect to warm up wet oil, this measure results in scale formation constant in pipelines and equipments, so inner diameter becomes less, leading to back pressure ascent in pipelines, the loss of efficiency of processing equipment, these all have a strong impact on normal activities in oilfield, increase the frequency of maintenance repairs and replacements for pipelines and equipments, and reduce the completion benefit. So forecasting the scaling tendency of surface gathering pipelines, and judging the degree of the scaling tendency or possibility, preventing and controlling scaling effectively is not a negligible research topic in petroleum production technology and oil-gas-water treatment technology. This paper introduces the fouling process, fouling mechanism and the influence factors of the scale, mainly analyses the formation mechanism of calcium carbonate and calcium sulfate, and some factors, such as temperature, pressure, salinity and some thermodynamics conditions. All these factors lead to changes in ionic equilibrium condition, so they will influence the fouling. This paper analyses the main kinds of scale in the gathered transportation water pipeline in the forth plant in the Daqing Oilfield, adopts the method of saturation exponent and energetic solubility to forecast the trend of fouling, reduces the calcium carbonate showing scaling tendency, calcium sulfate having the possibility of scaling. 相似文献
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S. Akbarnezhad A. Amini A. Soltani Goharrizi T. Rainey L. Morawska 《International Journal of Environmental Science and Technology》2018,15(5):1039-1048
Two proposed quartz fibrous filters with dissimilar solid volume fractions and thicknesses are investigated for their efficiency in removing soot aerosol particles from air. Soot particles are sourced from a candle burning in a chamber, and the tests involve 1.5 h of continuous loading of particles at three different flow rates: 4.5, 8.15 and 9.55 l/min. The fractional efficiency, morphology and pressure drop of both clean and loaded filters are studied using a scanning mobility particle sizer, scanning electron microscope and differential pressure gauge. Both filters have relatively similar levels of efficiency 93% for particle size (100–400 nm) at the lowest flow rate. At higher flow rates, the re-entrainment process effects the filtration efficiency of both filters. At the higher flow rate of 8.15 l/min, the filter with a higher solid volume fraction and thickness shows a higher pressure drop and an efficiency level of 95%. Increasing the flow rate to 9.55 l/min helps to pass the particles with diameters larger than 100 nm through two filters. This phenomenon decreases the fractional efficiency of both filters during the loading time. 相似文献
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B. Zhao 《Natural Hazards》2014,74(2):1299-1305
As a result of rapid economic development, China is consuming roughly 500 million tons of oil. At present, it is the second-largest consumer of oil worldwide. Furthermore, the increase in its oil consumption has been the highest in the world for 13 consecutive years. The total mileage of domestic oil–gas transportation pipelines in China is 102,000 km, and these pipelines are hazardous. On November 22, 2013, an oil pipeline exploded in Qingdao City in Shandong Province, thus resulting in great personnel and property losses. This short communication briefly introduces this catastrophe, its causes, and some of the related emergency responses. 相似文献
6.
在高温热田的井孔施工及测试实践中,通常由于高温热水在地层或井简内闪蒸汽化,形成复杂的两相流动而无法直接从单井放喷资料中计算地层参数。西藏羊八井属于高温热水型地热田,第四系热储内热液温度约介于140—155℃之间,埋藏深度大略为70—200米左右,井口闭井压力大多在2—4个大气压之间。热储流体在上述深度、温度和压力的配置下,在地层内处于单相液态,而在开发动态下则在大部分井筒上部达到饱和点而汽化,形成相对稳定的汽化面,构成双相流和单相流之间的界面。 相似文献
7.
Francisco Javier López-Moro María Candelas Moro Susana María Timón María Luisa Cembranos Juan Cózar 《International Journal of Earth Sciences》2013,102(3):721-744
The Villalcampo Shear Zone (around 307 Ma) shows second-order shear zones (420–390 °C) with gold ore bodies hosted by episyenites, which consist of albite episyenites (albitites) and albite-Kfs episyenites, both types with different contents in sulphides and gold. Mass transfer modelling supports higher fluid/rock ratios in albitites than in albite-Kfs episyenites. The study of worldwide barren and gold-bearing episyenites reveals abundant sulphides in the latter as a distinguishing feature. The electrochemical processes at the surface of sulphide would have enhanced gold precipitation, sulphides working as a gold trap. A complex fluid history occurred in gold ore bodies hosted by episyenites, although in essence, it was similar to quartz-sealed faults hosting late Variscan gold deposits: (a) an early fluid equilibrated with the metamorphic pile with sulphides or with a metamorphic fingerprint, resulted in a sulphide deposition and (b) a shallower fluid reservoir of meteoric origin provided gold deposition. In contrast to earlier claims regarding episyenite fluid flow, a down temperature and probably an upwards fluid flow are proposed for the episyenitization process, also in keeping with the early stages of fluid flow in quartz-sealed faults. Fluid inclusions in albite confirm that the striking coupled quartz leaching albitization processes occurred around 400 °C and 60 MPa, crosscutting the retrograde solubility field of silica and yielding a vuggy rock. Initially, albite, and later quartz and sulphide, filled the vugs from the same or a very similar fluid. Uraninites deposited during the albitization and probably the onset of the sulphide deposition afforded the same age (270 ± 12 Ma) as other Spanish episyenites, confirming a synchronous and a regional-scale process and ruling out a relationship with the granite cooling history (324 ± 11 Ma). 相似文献
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《International Geology Review》2012,54(1):49-57
AbstractThe Antarctic Bottom Water (AABW) current plays a crucial role in storing and transporting heat, water, and nutrients around the world. However, it is impossible to monitor AABW in the Plio-Pleistocene by direct measurement. Hence, abyssal erosion was usually chosen as an effective indicator of the presence of the AABW in the Indian and Eastern Pacific Oceans during that period. Here, we report a high-resolution magnetostratigraphy of a gravity core, the JL7KGC-01A from the south of the Mariana Trench, northwest Pacific Ocean. The main results are as follows: (1) polarity data suggest that the sequence recorded the late Gauss chron to the early Brunhes chron, including the Jaramillo, Cobb Mountain, and Olduvai normal subchrons; (2) the sedimentary processes in the study area since 2.9 Ma show three stages of sedimentation: 83 cm/Ma during 2.9–1.2 Ma, 183 cm/Ma during 1.2–0.7 Ma, and no sedimentation since ~0.7 Ma; (3) the area south of the Mariana Trench experienced a significant change in the deposition rate at 1.2 Ma, which could be correlated with the intensified desertification in inland Asia, and experienced a prominent depositional hiatus since the early middle Pleistocene, which likely resulted from the enhanced/expanded AABW. Based on these new polarity data and comparisons with previous studies around the Pacific Ocean, we therefore propose that the AABW experienced a notable change during the early–mid Pleistocene transition. 相似文献
9.
F. Safari A. Tavasoli A. Ataei 《International Journal of Environmental Science and Technology》2016,13(10):2393-2400
A novel process based on supercritical water gasification has been used in this study for co-production of hydrogen and power from sugarcane bagasse as one of the main agricultural wastes of Iran. The cycle of the process was designed first, and then, the thermodynamic equilibrium model of the gasification process was simulated using ASPEN PLUS. The effects of temperature and feed concentration on molar fraction of main components of produced gas were investigated. The temperature was directly correlated with hydrogen production in which hydrogen and carbon monoxide production was favored at higher temperatures. The maximum hydrogen production occurred in the sugarcane bagasse concentrations about 20–30 wt%. Palladium membrane as a metallic dense membrane was used for separation of high-purity hydrogen. Hydrogen production of 8.55 kg/h and electrical power generation of 56 kW were obtained for the 20 wt% mixture of bagasse with a mass flow rate of 1000 kg/h, reactor pressure of 300 bars and temperature of 700 °C. 相似文献
10.
Abenezer Mekonen Prabhakar Sharma Fritjof Fagerlund 《Environmental Earth Sciences》2014,71(8):3751-3760
In this study, a series of sand packed columns were used to investigate the mobility of multiwall carbon nanotubes (MWCNTs) in unsaturated porous media under unfavorable conditions for deposition. The flow through column experiments were designed to assess water content, flow rate, and grain size effect on the mobility of MWCNTs. It was found that variation in water content had no significant effect on retention of MWCNTs until it was lowered to 16 % effective saturation. Thick water films, high flow rate, and repulsive forces between MWCNTs and porous media made MWCNTs highly mobile. Different porous media grain sizes (D 50 = 150–300 μm) were used in this study. The mobility of MWCNTs slightly decreased in finer grain sands, which was deemed to be an effect of increase in surface area and the number of depositional sites, in combination with low-pore water velocity. However, physical straining was not observed in selected fine-grain sands and aspect ratio of MWCNTs had low impact on mobility. Variations in pore-water velocity were produced by both changes in water saturation and in flow rate. At high pore-water velocities, the MWCNTs were generally mobile. However, for the combination of low-pore water velocity with either low water saturation or small grain size, some retention of MWCNTs was observed. Hence, low velocity in combination with flow through smaller pores increased MWCNT deposition. 相似文献
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根据场区工程及水文地质和环境条件,选定了武汉市第二医院科教综合楼基坑的防渗止水方案,即单管高压旋喷法,详细阐述了其施工工艺。现场实践证明:所选定的方案截断了上层滞流水体,开挖时坑壁无滴水,为后续工程施工提供了便利;同时单管高压旋喷法施工具有施工简单、造价低、不需要开挖就可以处理隐蔽工程等特点,非常适于城市深基坑的止水与加固。 相似文献
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This paper studied the CO2-EGR in Altmark natural gas field with numerical simulations. The hydro-mechanical coupled simulations were run using a linked simulator TOUGH2MP-FLAC3D. In order to consider the gas mixing process, EOS7C was implemented in TOUGH2MP. A multi-layered 3D model (4.4 km × 2 km × 1 km) which consists of the whole reservoir, caprock and base rock was generated based on a history-matched PETREL model, originally built by GDF SUEZ E&P Deutschland GmbH for Altmark natural gas field. The model is heterogeneous and discretized into 26,015 grid blocks. In the simulation, 100,000 t CO2 was injected in the reservoir through well S13 within 2 years, while gas was produced from the well S14. Some sensitivity analyses were also carried out. Simulation results show that CO2 tends to migrate toward the production well S14 along a NW–SE fault. It reached the observation wells S1 and S16 after 2 years, but no breakthrough occurred in the production well. After 2 years of CO2 injection, the reservoir pressure increased by 2.5 bar, which is beneficial for gas recovery. The largest uplift (1 mm) occurred at the bottom of the caprock. The deformation was small (elastic) and caprock integrity was not affected. With the injection rate doubled the average pressure increased by 5.3 bar. Even then the CO2 did not reach the production well S14 after 2 years of injection. It could be concluded that the previous flow field was established during the primary gas production history. This former flow field, including CO2 injection/CH4 production rate during CO2-EGR and fault directions and intensity are the most important factors affecting the CO2 transport. 相似文献
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基于世界上几条多年冻土区修建输油气管道的经验,结合我国境内的中俄原油管道漠河-大庆段(漠大线)现场调查、油温监测和探地雷达等勘察结果,研究漠大线运营后可能面临的主要冻害问题、形成过程、影响因素、成灾机制、管道影响,提出预防和防治措施建议及进一步需要研究的主要问题。研究发现,目前漠大线面临的主要冻害问题包括融沉、冻胀丘、冰椎、冻土斜坡、冰刨蚀和潜在冻胀等,在管道持续运行和环境条件改变下,这些冻融灾害可能对管道造成一定的不利影响甚至破坏。现场油温监测显示,在2011年和2012年最低和最高油温分别为0.42 ℃和16.2 ℃,全年的正油温运行是造成目前管道周围冻土融沉的主要原因。冬季部分地段出现的冻胀丘、冰椎以及浮冰对管道形成一定的潜在威胁。研究成果为中俄原油管道漠大线以及规划建设的中俄原油管道二线、中俄输气管道、格尔木-拉萨输油管道改造工程以及其他多年冻土区输油气管道设计、施工、运营和维护提供参考和依据。 相似文献
14.
Li Huang Jia-le Kang Xiao-dong Shen Jian-ye Sun Qing-guo Meng Qiang Chen Gao-wei Hu Chang-ling Liu Neng-you Wu 《China Geology》2022,5(2):310-321
Blockage in water-dominated flow pipelines due to hydrate reformation has been suggested as a potential safety issue during the hydrate production. In this work, flow velocity-dependent hydrate formation features are investigated in a fluid circulation system with a total length of 39 m. A 9-m section pipe is transparent consisted of two complete rectangular loops. By means of pressurization with gas-saturated water, the system can gradually reach the equilibrium conditions. The result shows that the hydrates are delayed to appear as floccules or thin films covering the methane bubbles. When the circulation velocity is below 750 rpm, hydrate is finally deposited as a “hydrate bed” at upmost of inner wall, narrowing the flow channel of the pipeline. Nevertheless, no plugging is observed during all the experimental runs. The five stages of hydrate deposition are proposed based on the experimental results. It is also revealed that a higher driving pressure is needed at a lower flow rate. The driving force of hydrate formation from gas and water obtained by melting hydrate is higher than that from fresh water with no previous hydrate history. The authors hope that this work will be beneficial for the flow assurance of the following oceanic field hydrate recovery trials.©2022 China Geology Editorial Office. 相似文献
15.
Anurag Gupta Somnath Chattopadhyaya Sergej Hloch 《Rock Mechanics and Rock Engineering》2013,46(1):169-177
Mining and petroleum drill bits are subjected to highly abrasive rock and high-velocity fluids that cause severe wear and erosion in service. To augment the rate of penetration and minimize the cost per foot, such drill bits are subjected to increasing rotary speeds and weight. A rotary/percussive drill typically hits the rock 50 times per second with hydraulic impact pressure of about 170–200 bar and feed pressure of about 90–100 bar, while rotating at 75–200 rpm. The drill rig delivers a high-velocity flow of drilling fluid onto the rock surface to dislodge cuttings and cool the bit. The impingement of high-velocity drilling fluid with entrained cuttings accelerates the erosion rate of the bit. Also, high service temperature contributes to softening of the rock for increased penetration. Hence, there is a need to optimize the drilling process and balance the wear rate and penetration rate simultaneously. This paper presents an experimental scanning electron microscopy (SEM) study of electroplated (nickel-bonded) diamond drills for different wear modes. 相似文献
16.
An extremely large rock avalanche occurred on April 9, 2000 at Yigong, Tibet, China. It started with an initial volume of material of 90?×?106 m3 comprising mainly of loose material lying on the channel bed. The rock avalanche travelled around 10 km in horizontal distance and formed a 2.5-km-long by 2.5-km-wide depositional fan with a final volume of approximately 300?×?106 m3. An energy-based debris flow runout model is used to simulate the movement process with a new entrainment model. The entrainment model considers both rolling and sliding motions in calculating the volume of eroded material. Entrainment calculation is governed by a second order partial differential equation which is solved using the finite difference method. During entrainment, it is considered that the total mass is changed due to basal erosion. Also the profile of the channel bed is adjusted accordingly due to erosion at the end of each calculation time step. For Yigong, the profile used in the simulation was extracted from a digital elevation model (DEM) with a resolution of 30 m?×?30 m. Measurements obtained from site investigation, including deposition depth and flow height at specific location, are used to verify the model. Ground elevation-based DEM before and after the event is also used to verify the simulation results where access was difficult. It is found that the calculated runout distance and the modified deposition height agree with the field observations. Moreover, the back-calculated flow characteristics based on field observations, such as flow velocity, are also used for model verifications. The results indicate that the new entrainment model is able to capture the entrainment volume and depth, runout distance, and deposition height for this case. 相似文献
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S. Tulaphol S. Bunsan E. Kanchanatip H.-Y. Miao N. Grisdanurak W. Den 《International Journal of Environmental Science and Technology》2016,13(6):1465-1474
Multi-walled carbon nanotubes (MWCNTs) embedded in SiO2 particles were prepared through the floating-catalyst chemical vapor deposition method. The parameters reaction time and flow rate of the carbon source (CH4) were studied to obtain optimum conditions for MWCNT synthesis. The obtained MWCNTs were characterized by transmission electron microscopy, scanning electron microscopy, Raman spectroscopy, and Fourier transform infrared spectroscopy to confirm their morphology and crystallinity. The optimum conditions were a CH4 flow rate of 100 ml/min in a H2–Ar mixture at a flow rate of 500 ml/min and a reaction time of 20 min. Under these conditions, MWCNTs with average outer and inner diameters of around 50 and 10 nm, respectively, were obtained. SiO2 particles with embedded MWCNTs were studied for their adsorption of gaseous chlorinated phenolic compounds (CPCs), with emphasis on the effect of number of chlorine substituents. The CPC compounds of 2-chlorophenol (CP) and 2,4-dichlorophenol (DCP) were compared against phenol (P). Adsorption of P and CPCs on the particles fit well the Langmuir isotherm. The adsorption capacities of P, CP, and DCP on SiO2 particles with embedded MWCNTs were found to be 3.12, 13.83, and 44.25 mg/g, respectively. Desorption activation energy was determined by thermogravimetric analysis. Chlorine substitution on P changed the adsorption process from physical to chemical adsorption. The particles showed high potential for use as a pre-concentration unit for solid-phase microextraction. 相似文献
18.
Wenkuan Zheng Yuetian Liu Jianshu Huang Yisheng Liu Jian Chen 《Arabian Journal of Geosciences》2018,11(20):640
In order to understand the percolation mechanism and development regulation in offshore buried hill fractured reservoir, similarity criteria of physical simulation on water flooding in the fractured reservoirs were established by using similarity and flow theory. Based on the similarity theory and Warren–Root model, a large-scale (1 m?×?1 m?×?0.5 m) physical similarity model was built. By conducting the similar physical experiments, the behavior and mechanism of fluid flow in the reservoir in different development modes were studied, together with the optimal development program selected. The physical simulation results show that the stereoscopic staggered horizontal well pattern can give full play to the function of oil–water gravitational differentiation and reduce the rising rate of water cut. Flooding mechanisms vary from mode to mode: The sweep efficiency of cold water flooding is higher, whereas the oil displacement efficiency in the fracture and oil recovery in the matrix are lower in the affected area. The hot water flooding can improve the oil–water flow ratio of the mainstream line, reduce the seepage resistance, and improve the oil displacement efficiency in the fracture and the oil recovery of the matrix in the area. However, due to poor heat transfer efficiency, the difference of seepage resistance between the mainstream line and other regional increases results in decreased sweep efficiency. Surfactant flooding reduces oil–water interfacial tension and improves flooding efficiency in the area, yet degenerates oil recovery for the matrix. 相似文献
19.
电化学导流提高原油采收率技术,在油田各个开发阶段都可达到增油降水的效果.目前多数主力油层内部剩余油分布零散,注水效果差,新增储量的油层大多数是渗透率低、物性差的薄油层.现场试验证明,应用电动法这一新技术,已初步实现了增加原油渗流速度、提高油水流动的相对渗透率和解除油层堵塞等的效果,工艺上是可行的.且用导线传输直流电场与其它传输方式相比,对井口及地面通电设备的安全性也较好. 相似文献
20.
An important issue that is not considered in most flood risk assessments in mountain villages in Spain is the transport of solids associated with the flood flow, in this case, large wood transport. The transport and deposition of this wood in urban areas may be a potentially worse hazard than the flood flow itself. Despite its importance, large wood is a key ecological element in rivers, so removing it could be an unsuccessful approach. Therefore, efforts are needed in the better understanding of wood transport and deposition in streams. To analyse this process, scenario-based 2D hydrodynamic flood modelling was carried out. Since flood risk assessment has considerable intrinsic uncertainty, probabilistic thinking was complemented by possibilistic thinking, considering worst-case scenarios. This procedure obtained a probabilistic flood map for a 500-year return period. Then, a series of scenarios was built based on wood budget to simulate wood transport and deposition. Results allowed us to identify the main infrastructures sensitive to the passing of large wood and simulate the consequences of their blockage due to wood. The potential damage was estimated as well as the preliminary social vulnerability for all scenarios (with and without wood transport). This work shows that wood transport and deposition during flooding may increase potential damage at critical stream configurations (bridges) by up to 50 % and the number of potentially exposed people nearby these areas by up to 35 %. 相似文献