共查询到19条相似文献,搜索用时 78 毫秒
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随着地勘单位生产规模不断扩大,安全生产环境越来越复杂,安全管理难度越来越大,传统的安全生产管理手段已经难以适应安全生产新形势的要求。根据地勘单位的安全生产状况,江苏煤炭地质局应用现代信息和网络技术开发了安全生产管理信息系统,实现了安全生产中的级别差异管理、基础数据管理、安全生产过程管理、调度管理及综合信息查询。地勘单位安全生产管理信息系统的应用,对于提升地勘单位安全生产管理水平具有重要的现实意义。 相似文献
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中国现在的生产调度工作还多采用传统的方式,这种原始的生产调度管理方式降低了矿山生产管理效率,已不适应矿山的发展。建立生产调度信息管理系统,利用现代信息技术,提高矿山调度管理水平成为矿山企业的必然选择。本文在结合矿山现场生产调度工作的基础上,分析了生产调度工作的流程,划分了生产调度系统的结构,设计了生产调度系统的功能,研发了矿山生产调度信息管理系统。使分散在三维空间上的生产设备、工作人员和作业信息集中到统一的网络平台上。相关人员可以在不同的地点以不同形式,了解矿山的生产情况,及时做出科学决策,指挥调度生产。 相似文献
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3月6日,国投新登郑州煤业有限公司实现安全生产1893天,即将迎来安全生产2000天。但该公司决定不搞庆典,而是要求各部门,尤其是安全生产、机电、通风等一线部门,进一步梳理安全工作思路,认真查找安全生产过程中存在的薄弱环节,巩固安全生产成果,确保公司全年安全生产万无一失。 相似文献
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论述了施工企业建设现代安全生产管理体系的重要性,并总结了广东煤炭地质局建设安全生产管理体系.促进安全生产的实践经验,提出了施工企业应从以建立完善安全生产责任制为核心,健全各项规章制度.加强员工的教育培训、资金投入和安全检查五个方面为重点建立现代安全生产管理体系的思路。 相似文献
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通过多年的工作研究,测绘生产管理单位,在大型网络数据库环境下,利用GIS技术、数据库技术、工作流技术等,建立基于网络化的测绘生产管理系统,可以实现集中管理项目、实时监控作业流程、透明检查质量、一体化生产入库的网络化测绘数据产品生产调度管理服务体系,实现生产管理的科学化、动态化、规范化,明确了今后测绘单位网络资源的共享及合理、高效利用的方向。 相似文献
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几年来我矿生产探勘工作,在上级的正确领导与苏联专家帮助下,取得一定成绩,给矿山生产提供足夠的工业矿量。但目前地质人员本身对生产探矿工作及探矿工程布置,还存在一定缺点,现提出与同志们商榷。生产勘探工作是矿山进入生产时,在地质勘探基础上进一步提升矿量极别,为进行开采准备提供地质资料的一个步骤。所以生产勘探工作进行的好坏,对矿山生产是有直接影响的。生产勘探及地质勘探两个 相似文献
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构造地质学计算机辅助教学课件SGCAI 总被引:2,自引:0,他引:2
构造地质学计算机辅助教学课件(SGCAI)利用数据库,图形动画及多媒体等技术,对地质学基础课程的计算机辅助教学研究作了初步探索,课件分为学生学习,教师管理,附属功能和执行四大模块,具有学习选择,图片说明,动画演示,练习测验,辅导答题等十个功能,课件设计新颖,技术全面,使用方便,使用该课件能充分调动学生学习的主观能动性,使学生成为真正的学习主体,有助于提高教学质量。 相似文献
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利用统计分析、数值模拟手段将煤层气储层按照日产水量的多少分为四种类型,即:日产水量在1 m3以下的为特低产水煤层气储层,日产水量在1~5 m3的为低产水煤层气储层,日产水量在5~20 m3的为中产水煤层气储层,日产水量在20 m3以上的为高产水煤层气储层。深入分析了煤层气储层高产水、低产水的成因,发现含水层富水性与构造条件以及压裂措施是煤层气储层高产水的主要控制因素,煤层气储层物性是煤层气储层低产水的主要控制因素,同时排采模式等也间接影响着煤层气储层的产水量。进一步给出了产气量不理想情况下的高产水、特低产水煤层气储层的开发建议。 相似文献
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《China Geology》2020,3(2):197-209
Clayey silt reservoirs bearing natural gas hydrates (NGH) are considered to be the hydrate-bearing reservoirs that boast the highest reserves but tend to be the most difficult to exploit. They are proved to be exploitable by the first NGH production test conducted in the South China Sea in 2017. Based on the understanding of the first production test, the China Geological Survey determined the optimal target NGH reservoirs for production test and conducted a detailed assessment, numerical and experimental simulation, and onshore testing of the reservoirs. After that, it conducted the second offshore NGH production test in 1225 m deep Shenhu Area, South China Sea (also referred to as the second production test) from October 2019 to April 2020. During the second production test, a series of technical challenges of drilling horizontal wells in shallow soft strata in deep sea were met, including wellhead stability, directional drilling of a horizontal well, reservoir stimulation and sand control, and accurate depressurization. As a result, 30 days of continuous gas production was achieved, with a cumulative gas production of 86.14 ×104 m3. Thus, the average daily gas production is 2.87 ×104 m3, which is 5.57 times as much as that obtained in the first production test. Therefore, both the cumulative gas production and the daily gas production were highly improved compared to the first production test. As indicated by the monitoring results of the second production test, there was no anomaly in methane content in the seafloor, seawater, and atmosphere throughout the whole production test. This successful production test further indicates that safe and effective NGH exploitation is feasible in clayey silt NGH reservoirs. The industrialization of hydrates consists of five stages in general, namely theoretical research and simulation experiments, exploratory production test, experimental production test, productive production test, and commercial production. The second production test serves as an important step from the exploratory production test to experimental production test. 相似文献
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Understanding how carbonate factories influence platform evolution is either based on qualitative conceptual models or quantitative numerical stratigraphic forward models. This study establishes new production depth profiles for four Cenozoic carbonate factories and uses two-dimensional stratigraphic forward models to explore how interactions between sediment production and transport within carbonate systems influence carbonate platform development. Newly established production/depth profiles are used to model photozoan and heterozoan carbonate grain associations, and the associated carbonate producing factories, and results are compared with well-studied outcrop successions. Sediment production from photozoan and heterozoan grain associations is also equalized, so that the total sediment production is the same but the depth/production profiles retain their distinctly different form. Thus, the effect of the different production profiles can be assessed. Ramps form when sediment diffusional transport rates are high relative to production rates and flat-top steep-margin platforms form when sediment diffusional transport rates are low relative to production rates, whether they are photozoan or heterozoan grain associations. The control exerted by sediment production and transport is expressed as a sediment transport–production ratio where transport ratio is a diffusional sediment transport in two-dimensions and production ratio is the total sediment production rate which is the product of a production profile that varies in depth and laterally. The transport–production ratio is a key control on the evolution and geometry of carbonate platforms. This is the case with different production profiles (both euphotic and oligophotic) and in mixed grain-size and mixed transport-rate systems. Carbonate producing factories significantly influence the rate of sediment production, the depth distribution of sediment production (production profiles), as well as the type of grain sizes produced (influencing resistance to erosion). Thus, different types of carbonate grain associations, and the associated carbonate producing factories, can produce the critical differences between carbonate platform geometries. 相似文献
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数值模拟方法能够较好地描述煤层气的储存特征及流动机理,是目前研究煤层气产能较为有效的方法,但该方法应用费时、复杂,实用性较差。以沁水煤层气田樊庄区块为例,基于煤层气数值模拟方法,建立樊庄无因次产气曲线,研究了13种地质、排采参数对无因次产气曲线的影响,选择影响较大的参数绘制出无因次产气图版。研究结果表明,无因次产气图版能够方便地确定已投产和未投产煤层气井产能、最大产气量及其出现时间、煤层原始含气量等重要参数。实例验证可知,使用无因次产气图版在预测煤层气井产能和确定最大产气量等参数方面,具有较高的准确性。 相似文献
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安全生产档案是安全生产管理系统的重要组成部分,为实现地勘单位安全生产目标.必须建立和健全安全生产档案。安全生产档案是实现安全生产管理法制化、科学化、标准化的基础。地勘单位安全管理工作复杂、繁重,建立健全安全生产档案,能有效地帮助单位领导及安全管理部门及时准确的实施安全措施,掌握和了解安全生产形势,创新安全生产管理办法。 相似文献
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With the implementation of the production tests in permafrost and offshore regions in Canada, US, Japan, and China, the study of natural gas hydrate has progressed into the stage of technology development for industrial exploitation. The depressurization method is considered as a better strategy to produce gas from hydrate reservoirs based on production tests and laboratory experiments. Multi-well production is proposed to improve gas production efficiency, to meet the requirement for industrial production. For evaluating the applicability of multi-well production to hydrate exploitation, a 2D model is established, with numerical simulations of the performance of the multi-well pattern carried out. To understand the dissociation behavior of gas hydrate, the pressure and temperature distributions in the hydrate reservoir are specified, and the change in permeability of reservoir sediments is investigated. The results obtained indicate that multi-well production can improve the well connectivity, accelerate hydrate dissociation, enhance gas production rate and reduce water production as compared with single-well production. 相似文献
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砂岩油田开发过程中注采结构优化调整是一项非常复杂的工程,采液速度和采油速度是其中两个重要的指标,依照其变化可以把油田不同开采阶段划分为3种模式:提液稳产模式、稳液降产模式和降液控水模式。注采结构直接关系到油田的开发效果,在油气田不同的开发阶段,注采结构中存在的问题也是不同的。为了达到注采结构优化调整目的,针对沉积微相、沉积构造和剩余油分布进行精细的研究,根据构造特点调整注采结构,根据微构造、沉积微相特征进行注采井网的适应性调整,从而提高注水结构面横纵向调整和注水井整体调整以及油田分区、油井分类及单井结构调整等注采结构优化调整的切实效果。 相似文献