陕北油气田开发中水资源综合利用

通过对陕北工业用水短缺、大量污水无序排放的调查。研究了造成陕北严重缺水的原因，发现化工废水难以净化后供人们生活使用。但通过去重金属离子后可用于油田注水开发。炼油厂废水与油田产出水按不同比例混合处理后，根据不同油田储层物性进行回注采油。结果表明，处理后的污水适应于不同地质特征的产层。这即解决陕北特低渗油层注水的水敏性问题，同时也使大量污水得到充分利用，具有明显的经济效益和社会效益。     

煤矿排水对枣庄市清凉泉水源地污染作用分析

近年来,随着枣庄市陶枣矿区煤矿资源的大规模开发,矿坑排水对矿区地下水资源及生态环境产生的负面影响愈发突出,尤其是矿坑水沿地表河流排放途中,通过灰岩“天窗”大量灌入岩溶地下水中,造成地处煤田下游的清凉泉水源地水质遭受明显污染,供水水质难以保证。根据矿坑排水量、水源地水质、开采现状等分析认为,对串层污染进行封堵和控制矿坑水排放渠道是防治水源地污染的有效措施。     

临沂市土地可持续利用评价研究

从资源合理性、经济可行性、社会可接受性3个方面,建立了土地可持续利用综合评价指标体系。采用层次分析法确定了指标权重,应用模糊数学中的隶属函数对指标体系中的各项指标进行无量纲化处理,然后用加权法求得临沂市1995—2004年的土地可持续利用水平,用协调度模型求得临沂市土地可持续利用的协调度,运用障碍度模型,分析了各项指标的障碍度。     

Numerical evaluation of the dilogarithm of complex argument

A numerical algorithm to evaluate the dilogarithmic function of a complex argument is proposed. The use of the dilogarithm in celestial mechanics appears in the exact Delaunay normalization of some functions involving the equation of the centre.     

Knowledge based systems for risk assessment of the subsurface of contaminated sites

Computer-based risk evaluation methods are practical tools to compare automatically and evaluate contaminated sites. HYDRISK is an example of adequate knowledge-based systems: HYDRISK evaluates hydrogeological properties and chemical criteria relevant to contaminant transport with respect to the necessary remedial actions. It works at a high investigative level and enables geologists and engineers to draw differentiated conclusions for selecting remediation methods for the contaminated site. HYDRISK emphasizes space and time dependent aspects of the contaminant transport. It is supported by a geographic information system (GIS) to display the evaluation results. Some ideas on considering the spatiotemporal variability of relevant parameters by means of geostatistical methods and numerical models will be given.     

Research on regional comprehensive development in developed regions —The case of Shanghai-Nanjing-Hangzhou area

The developed regions are faced with the problems of regional comprehensive development, and the research on regional comprehensive development has become a trend in the world. To optimize regional industrial structure and to select and determine scientifically the spatial development strategy of regional industries are the central themes to be solved for the research on regional comprehensive development in the developed regions. This paper proposed the basis for optimizing regional industrial structure, and the main factors of selecting and determining the regional leading industries. Based on this, the paper puts forward the leading industries and the spatial development strategy in Shanghai-Nanjing-Hangzhou area in the future ten or more years. Combined with the situation of Shanghai-Nanjing-Hangzhou area, the paper also discusses some problems of locating superior developing axis to benefit the rational distribution of regional productive forces.     

Numerical solutions for flow in porous media

A numerical approach is proposed to model the flow in porous media using homogenization theory. The proposed concept involves the analyses of micro‐true flow at pore‐level and macro‐seepage flow at macro‐level. Macro‐seepage and microscopic characteristic flow equations are first derived from the Navier–Stokes equation at low Reynolds number through a two‐scale homogenization method. This homogenization method adopts an asymptotic expansion of velocity and pressure through the micro‐structures of porous media. A slightly compressible condition is introduced to express the characteristic flow through only characteristic velocity. This characteristic flow is then numerically solved using a penalty FEM scheme. Reduced integration technique is introduced for the volumetric term to avoid mesh locking. Finally, the numerical model is examined using two sets of permeability test data on clay and one set of permeability test data on sand. The numerical predictions agree well with the experimental data if constraint water film is considered for clay and two‐dimensional cross‐connection effect is included for sand. Copyright © 2003 John Wiley & Sons, Ltd.     

Modified precise time step integration method of structural dynamic analysis

The precise time step integration method proposed for linear time-invariant homogeneous dynamic systems can provide precise numerical results that approach an exact solution at the integration points. However, difficulty arises when the algorithm is used for non-homogeneous dynamic systems, due to the inverse matrix calculation and the simulation accuracy of the applied loading. By combining the Gaussian quadrature method and state space theory with the calculation technique of matrix exponential function in the precise time step integration method, a new modified precise time step integration method （e.g., an algorithm with an arbitrary order of accuracy） is proposed. In the new method, no inverse matrix calculation or simulation of the applied loading is needed, and the computing efficiency is improved. In particular, the proposed method is independent of the quality of the matrix H. If the matrix H is singular or nearly singular, the advantage of the method is remarkable. The numerical stability of the proposed algorithm is discussed and a numerical example is given to demonstrate the validity and efficiency of the algorithm.     

The Potential of Fuzzy Multi-objective Model for Rainfall Forecasting from Typhoons

This study applies the fuzzy multi-objective approach to forecast short-term (around 24 h) typhoon rainfall, which can be implemented without much background meteorological knowledge. The physical characteristics of 40 typhoons, including route, central pressure, central velocity and cyclonic radius, were used as the data set. The fuzzy multi-objective method mined information from the database to forecast both the depth and pattern of rainfall, which were then combined to estimate a cumulative rainfall curve. The results of calibration with reference to 40 historical typhoon events and the results of validation using another five typhoon events indicate that the proposed model has the potential to forecast short-term cumulative rainfall curves if more variables can be included and more historical typhoon events can be collected to enlarge the database.     

Modeling of complex multi-aquifer systems for groundwater resources evaluation—Swidnica study case (Poland)

An example of groundwater resources evaluation methodology by numerical modeling in the complex, unconsolidated, multi-aquifer system of the Swidnica area (~627 km²) is presented. In this study Groundwater Modeling System (GMS) was used to develop a conceptual model on the basis of data from several hundred boreholes and to calibrate a numerical, multi-aquifer model. A steady state calibration was performed using historical natural groundwater table (quasi-natural simulation) data and abundant pumping test transmissivity data. The calibrated recharge was first spatially distributed based on surface lithology and then adjusted until a good match between calculated and measured heads was obtained. The quasi-natural simulation budget input of ~165,000 m³/day consisted of 40.5% of lateral inflow from the SW fault model boundary, 34.5% of average net recharge from precipitation, 13% of infiltration from the Mietkowskie Lake and 12% of river infiltration. The budget output (the same as input) consisted of ~ 88% of river drainage and ~ 12% of lateral outflow. The final, abstraction-influenced simulation representing the current stationary condition was used to verify the model by cross referencing present well drawdowns with well abstractions and by comparison of the groundwater discharge to the rivers with the field baseflow measurements. In this simulation, the total well abstraction of ~53,000 m³/d resulted in 9% increase in overall water balance up to ~180,000 m³/day, 38% increased river infiltration, 24% reduced river drainage, 17% reduced lateral outflow and ~3 times increased downward leakage to the deepest, productive aquifer. The Swidnica study case shows an example, which analyzes an impact of well abstractions on the decline of groundwater table and river discharges, concluding that reserves of renewable water resources are still available. It shows also, that by setting up a conceptual model within the numerical model environment and by applying a quasi-3D solution, complex multi-aquifer systems can be well and efficiently modeled.

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Resumen Se presenta un ejemplo de metodología de evaluación de recursos de aguas aubterráneas por medio de modelación numérica en el sistema multi-acuífero, complejo, no consolidado del área de Swidnica (~627 km2). Em este estudio se utilizó un sistema de modelamiento de aguas subterráneas (GMS) para desarrollar un modelo conceptual sobre la base de datos de varios cientos de pozos y para calibrar un modelo multi-acuífero numérico. Se llevó a cabo calibración de un estado constante mediante el uso de datos históricos del manto de aguas subterráneas (simulación casi natural) y de abundantes datos de transmisividad de las pruebas de bombeo. En primer lugar se distribuyó la recarga calibrada en base a la litología de superficie y luego se ajustó hasta obtener una buena correlación entre las cimas calculadas y las medidas. El casi natural presupuesto en la simulación de ~165,000 m3/día consistió de 40.5 % de influjo lateral del límite del modelo de la falla SO, 34.5% de recarga neta promedio de precipitación, 13 % de infiltración del lago Mietkowskie y 12% de infiltración de los ríos. El presupuesto de los productos (output) (igual que el input)consistió de ~ 88 % de drenaje de los ríos y ~ 12 % de flujo lateral. La simulación final, influida por la abstracción, que representa la condición estacionaria actual se utilizó para verificar el modelo mediante la verificación cruzada de los conos de abstracción actuales con abstracciones de los pozos y mediante la comparación de la descarga de aguas subterráneas a los ríos con las medidas de flujo de base de terreno. En esta simulación, la abstracción total de los pozos de ~53,000 m3/d dio como resultado un incremento de 9 % en el balance de gua total de hasta ~180,000 m3/día, un incremento de 38 % infiltración de los ríos, una reducción de 24 % del drenaje a los ríos, una reducción de 17 % del eflujo lateral y un incremento de ~3 veces de filtración hacia abajo al acuífero má profundo productivo. El caso de estudio Swidnica muestra un ejemplo que analiza el impacto de las instalaciones de abstraccion de pozos sobre el decrecimiento del mato de aguas subterráneas y descargas de ríos. Sin embargo, la conclusión es que las reservas de recursos aguas renovables están disponibles todavía. También muestra que los sistemas multi-acuíferos complejos se puede modelar eficientemente y satisfactoriamente al establecer un modelo conceptual dentro del ambiente de un modelo numérico y mediante la aplicación de soluciones casi 3D.

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Resumé Un exemple méthodologique dévaluation des ressources en eau souterraine par modélisation numérique dun système aquifère multiple complexe et non-consolidé de la région de Swidnica (~627 km2) est présenté. Le système de modélisation de leau souterraine GMS (Groundwater Modeling System) est utilisé afin de développer un modèle conceptuel basé sur les données provenant de plusieurs centaines de puits, ainsi que pour caler le modèle numérique daquifère multiple. Une calibration en régime permanent a été effectuée en utilisant les données historiques du niveau naturel de la nappe phréatique (simulation quasi-naturelle) et les données de transmissivité provenant de nombreux essais de pompage. La recharge calibrée a été obtenue en utilisant dabord des valeurs spatiallement distribuées en fonction de la lithologie de surface qui ont par la suite été ajustées jusquà ce quune bonne correspondance entre les charges mesurées et simulées soit obtenue. Le bilan des intrants deau pour la simulation quasi-naturelle de ~165,000 m3/j est réparti comme suit: 40.5% provenant dentrée deau latérale le long de la limite sud-ouest du modèle qui représente une faille, 34.5% de recharge moyenne nette provenant des précipitations, 13% dinfiltration provenant du lac Mietkowskie et 12% dinfiltration provenant de rivières. Le bilan des extrants deau qui forme le même volume que les intrants est réparti entre ~88% de drainage par les rivières et ~12% découlement latéral. La simulation finale influencée par le captage qui représente les conditions actuelles a été utilisée afin de vérifier le modèle en comparant le rabattement actuel avec le captage des puits et en comparant lécoulement deau vers les rivières avec les valeurs découlement de base des rivières mesurées sur le terrain. Dans cette simulation, le total deau pompé (~53,000 m3/j) produit une augmentation de 9% dans le bilan deau total qui devient ~180,000 m3/j, une augmentation de 38% dinfiltration par les rivières, une réduction de 24% du drainage par les rivières, une réduction de 17% de lécoulement de sortie latéral et une augmentation denviron 3 fois du drainage vers le bas vers laquifère le plus productif. Létude de cas de Swidnica montre un exemple qui analyse limpact dinstallation de puits de captage sur le déclin de la nappe phréatique et sur la décharge dans les rivières, en concluant par contre, que les réserves en eau renouvelable sont toujours disponibles. Cet exemple montre également quen construisant un modèle conceptuel avec un environnement de modèle numérique et quen appliquant une solution quasi 3D, les systèmes multiaquifères complexes peuvent être bien et efficacement modélisés.