新增探明储量的经济可采储量计算方法

提出了新增探明储量有无经济可采储量的判别方法。在此基础上，通过对立已开发油田技术可采储量经济转化率与油藏空气渗透率的相关关系式和图版，根据储层的空气渗透率，计算新增探明储量的经济转化率和经济可采储量。该方法参数易取，计算简便，对于快速、准确计算新增探明储量的经济可采储量具有重要意义。     

新增探明储量技术采收率主控因素

在申报探明可采储量时，关键是采收率的取值，由于油藏处在勘探评价或开发初期，受资料所限，采收率只能是应用经验公式法、经验取值法、类比法和数值模拟法求取，然后综合确定一个值，在求取过程中关键是明确此阶段采收率的主控因素，从而相对准确地求取采收率值。通过分析，明确了探明储量技术采收率的主控因素为油藏驱动类型、储层渗透率、储层非均质性、原油地下粘度及井网密度，为此阶段科学评价采收率奠定了基础。     

Sensitivity of generation reserve requirements in deregulated power systems

Since demand for power exhibits great variability the amount of firm energy to be purchased to meet real time demand based on forecasts is usually different from the realized demand for that period. The role of generation reserves is to meet the real time fluctuations of power demand. The predictable part of the demand is met through purchases of firm energy. In this paper a model is presented to determine optimal quantities of firm energy and generation reserves to meet random demands. The model is then parameterized introducing a set of factors to perform a sensitivity study. A full factorial experiment is designed to study the impact of five factors on the response variable (i.e., proportion of generation reserves on the total purchased quantity). An example consisting of 640 simulations corresponding to 2⁵ treatment combinations evaluated over 20 randomly generated mean demands is used to identify significant factors on the response variable. Results from the experiment suggest that generation reserve requirements should be adjusted considering changes in significant factors and in the mean demand over the dispatch interval.     

一种广义水驱特征曲线的建立

广义水驱特征曲线能描述综合含水储量采出程度呈多种不同的凸、S、凹曲线类型。根据油水两相渗流原理，从归一化的油水相对渗透率出发，建立起累积产油、累积产水与综合含水率的积分相关关系，进而建立了累积产油、累积产水与归一化的油水相对渗透率的关系。通过构建积分函数，利用公式形式类比，建立了更一般形式的广义水驱特征曲线。理论分析和实例计算表明，所建立的广义水驱特征曲线与实际数据线性相关性更强，结果更可靠。     

逻辑斯谛模型在预测油气田可采储量中的应用

逻辑斯谛模型是一个属于增长类型的模型，经过简单的推导得到了开发时间、原始储量、可采储量的采出程度，以及采出程度与开发时间之间的关系。矿场实例运用表明：该模型计算简单、预测精度较高，可作为油田制定中、长期开发规划的依据。     

锦45块“八五”期间新增可采储量技术途径研究

方法 利用注采特征曲线，对锦４５块“八五”期间新增可采储量进行了计算研究，目的 研究蒸汽吞吐阶段增加可采储量的途径，为同类油藏的合理开发提供依据，结果 蒸汽吞吐阶段增加可采储量的三项技术途径；一是加大滚动勘探开发力度，不断发现和投入新储量；二是开展油藏工程研究，搞清油水分布，合理部署调整井，三是综合治理，增加可采储量。结论 “八五”期间，利用上述技术途径，改善了锦４５块开发效果，新增可采储量２７１     

河南油田提高难采储量动用程度的做法

河南油田主力开发区已进入高含水开发后期,后备资源接替严重不足成为制约油田发展的瓶颈。“九五”期间,河南油田加大了难采储量评价和动用的工作力度,按照“整体研究、系统解剖、优选目标、重点突破、滚动发展”的工作思路,对目标区进行综合地质研究,同时运用简易开发、大斜度定向井、稠油冷采等多种开采方式动用难采储量,使资源利用程度逐年提高。“九五”期间共系统开发难采储量437×104t,增加可采储量63.3×104t,建成原油生产能力6.6×104t。文中以张店、新庄油田为重点,探讨了提高难采储量动用程度的途径。     

确定异常高压气藏地质储量和可采储量的新方法

基于文献[1]的定容，封闭，异常高压气藏的物质平衡方程式，提出了确定异常高压气藏原始地质储量，可采储量和采收率的新方法，通过实例的应用和对比表明，提供的新方法是适用的有效的。     

Electron-Impact Cross Sections for Dipole- and Spin-Allowed Excitations of Hydrogen,Helium, and Lithium

Electron-impact excitation cross sections are presented for the dipole- and spin allowed transitions from the ground states to the np ²P states for hydrogen and lithium, and to the 1snp ¹P states for helium, n = 2 through 10. Two scaling formulas developed earlier by Kim [Phys. Rev. A 64, 032713 (2001)] for plane-wave Born cross sections are used. The scaled Born cross sections are in excellent agreement with available theoretical and experimental data.     

The influence of hydroelectric power generation on the body composition of juvenile Atlantic salmon

The fat and protein content, and thus energy resources of young (parr) Atlantic salmon (Salmo salar) were examined in a temperate river. Juvenile salmon exhibited distinct seasonal patterns of energy storage and use. The lowest levels of energy were found towards the end of winter (mean mass specific energy about 4.3 kJ·g^?1). There was a rapid accumulation of fat in spring/early summer in spite of low‐water temperatures (highest mean content of mass specific energy of about 5.0 kJ·g^?1 in June). By early autumn (August) there was a rapid depletion of fat and energy resources. The decline in specific energy during late summer was of the same magnitude as the corresponding winter decline. Furthermore, total fat and protein content, and thus energy resources of juveniles below a hydroelectric power plant (hydrostation (HS)) differed from those at a (lower) reference station (RS). The younger fish exhibited higher gains, but also larger losses of energy resources compared to corresponding values at the RS. Specifically during the summer, young of year (YOY) had 31% lower total energy content at the regulated site (mean 1.27 kJ per individual) than the RS (mean 1.84 kJ). Higher mortality may occur at the site most affected by the hydroelectric plant, where energy resources on average were higher, but where depletion was also most severe. Copyright © 2006 John Wiley & Sons, Ltd.