为促进油气藏地质及开发工程领域国际间学术交流,油气藏地质及开发工程国家重点实验室定于2007年10月20-21日举行第四次“油气藏地质及开发工程国家重点实验室”国际学术会议。会议主题为“科技创新推动油气持续发展”。
一、会议时间、地点、规模及参会人员
1.会议时间: 2007年10月20日-21日( 10 月 18-19 日报到)
2.会议地点: 四川省成都市
3.会议规模: 150~200人,其中:特邀专家20~30人
4.参会人员
① 国内特邀专家:院士和知名专家10~15人
② 国外特邀专家:知名学者、专家10~15人
③ 论文作者:要求录用论文至少一名作者参加会议
④ 科研院所、大专院校及中国石油天然气集团公司、中国石油化工集团公司、中国海洋石油集团公司等相关单位的学者及专家教授。
二、会议主题
1.海相碳酸盐岩层序地层、沉积、成岩、储层及成藏机理研究
2.致密砂岩储层的成因及研究方法
3.油气藏地质描述
4.含油气盆地分析
5.油气储层的成岩作用及研究方法
6.油气地球物理勘探
7.钻完井新理论与新技术
8.储层保护新方法与新技术
9.非常规油气藏(煤层气、高含硫、孔洞缝储层)开发理论与新技术
10.提高采收率新技术
11.压裂酸化新理论与新技术
12.生产工艺操作新规范与新流程
13.油气藏动态分析新理论与新方法
三、论文摘要和全文要求
1.论文摘要:英文和中文,英文限300字以内,中文限500字以内
2.论文全文:英文,录用后限 8000 字以内,论文格式按定制模版要求书写(接录用通知后再提交全文)
3.论文(摘要和全文)邮寄、电子邮件均可
论文摘要截止期:2007 年 4 月 30 日前
论文全文截止期:2007 年 7 月 31 日前
4.会议结束后,优秀论文将分期刊登在《金沙娱场城app7979学报》、《成都理工大学学报》上。
四、会议费
会议注册费为每人 800 元(学生 400 元),代表报到时收取,主要用于论文印刷和资料费等,食宿费自理。
五、主办单位
油气藏地质及开发工程国家重点实验室 成都理工大学 金沙娱场城app7979
六、联系方式
稿件报送电子Word 格式。
油气藏地质类论文
通讯地址:四川省成都市成都理工大学油气藏地质及开发工程国家重点实验室
邮编:610059
联系人: 侯中健 陈锋
联系电话:028–84079071
传真号: 028–84079071
Email: houzj@cdut.edu.cn,chenf@cdut.edu.cn
油气藏开发类论文
通讯地址:油气藏地质及开发工程国家重点实验室(金沙娱场城app7979)中国·四川·成都市新都区
邮编:610500
联系人: 郭肖 黄瑞瑶
联系电话:028-83032901,028-83032019
传真号: 028-83032901
Email: sklabog@swpu.edu.cn,guoxiao@swpu.edu.cn
Call For Papers
Chengdu, P.R.China
20-21 Oct 2007
4th International Conference of Oil/Gas Reservoir Geology and Exploitation
Theme: New Science and Technology for Sustainable Oil and Gas Development
Date: 20-21 Oct 2007
Proposal Due Date: 30 Apr 2007
Manuscript Submission Deadline: 31 July 2007
Proposal Submission: Electric word format by email or post
Sponsor:State Key Lab Of Oil And Gas Reservoir Geology And Exploitation
Part I: Oil/Gas Reservoir Geology
Post Address: State Key Lab Of Oil And Gas Reservoir Geology And Exploitation, (Chengdu University of Technology), 1# Erxianqiao dongsanlu, Chengdu city, Sichuan Province, P.R.China
Telephone: 86-028-84079071 Fax: 86-028-84079071
E-mail: houzj@cdut.edu.cn,chenf@cdut.edu.cn
Part II: Oil/Gas Reservoir Exploitation
Post Address: State Key Lab Of Oil And Gas Reservoir Geology And Exploitation (Southwest Petroleum University), Rd. 8, Xindu District, Chengdu City, Sichuan Province, P.R.China, 610500
Telephone: 86-028-83032019, 83032901 Fax: 86-028-83032901
E-mail: sklabog@swpu.edu.cn,guoxiao@swpu.edu.cn
Technical Coverage and Categories
Part I: Oil/Gas Reservoir Geology
1. SEQUENCE STRATIGRAPHY, DIAGENSIS AND MECHANISMS OF HYDROCARBON ACCUMULATION IN MARINE CARBONATES RESERVOIRS
- Sequence Stratigraphy, Sedimentology & Diagenesis of Carbonate Strata
- The Developing Environment and Evolution of Tectonics of Marine Carbonate Strata and Their Control of Effective Source Rocks
- Mechanisms of Multi-stage Hydrocarbon Accumulation and Preservation in Carbonate Carrier Beds
- Geochemistry of Hydrocarbon Generation and Reservoir Formation in Carbonate Rocks
- The Particularity of Marine Carbonate Petroleum System and Exploration Technologies in China Sedimentary Basins
2. FORMATION MECHANISMS AND RESERVOIR EVALUATION IN TIGHT SANDSTONES RESERVOIR
-Formation Mechanisms of Tight Sandstones
-Reservoir Identification Technologies of Tight Sandstones
-Detection of Fractures in Tight Sandstones Reservoir
-Reservoir Evaluation of Tight Sandstones Reservoir
3. RESERVOIR DESCRIPTION
-Structural Description
-Sedimentary Facies Description
-Geological Modeling
-Oil & Gas Migration and Accumulation Systems
-Formation Mechanism and Distribution of Subtle Reservoir
-Identification and Quantitative Prediction of Fractured Oil/Gas Reservoir
4. OIL/GAS BASIN ANALYSIS
- Orogeny and Coupled/Decoupled Basin Developing
- Tectonics & Building of Petroliferous Basin
- Fluid System in Petroliferous Basin
- Techniques & Methods of Basin Analysis
5. RESERVOIR DIAGENESIS
- Organic Matter Thermal Degradation and Formation of Secondary Pores
- The Diagenetic Reaction Thermodynamics
- Basin Diagenesis System Analysis
- The Source of Formation Water and Its Influence on Diagenesis
- Diagenetic Numerical Simulation
6. PETROLEUM GEOPHYSICS
- Seismic Data Acquisition and Processing on the Condition of Rugged Terrain and Complicated Surface
- Seismic Imaging & Velocity Modeling of Anisotropic Media and Complicated Structures
- New Technologies of Multiwave Seismic Data Processing and Interpretation
– MWD/LWD, Imagine Logging, Advance in Well Logging
Part II: Oil/Gas Reservoir Exploitation
1. DRILLING AND COMPLETIONS
1.1 Drilling
–Cementing,Drilling Fluids & Bits
–Slimhole, Coiled-tubing & Other Methods
–Underbalanced / Managed Pressure Drilling
–Well Control
–Wellbore Stability and Geomechanics
–Directional,Horizontal and Multilateral Drilling
1.2 Completions and Workovers
–Casing Damage Prevention and Repair
–Completion Fluids
–Complex Well Developments
–New Approaches to Gas and Oil Well Completions
–New Technologies for Complicated Surface/Downhole Conditions
–Perforation Technology
–Sand Control / Management
–Smart Well Completions
2. FORMATION DAMAGE CONTROL
2.1 Formation Damage Mechanism
–Clay Minerals and Its Related Damages
–Paraffins, Asphaltenes and Inorganic Scales
–Water Blocks/phaseRrapping, Wettability Alteration and Emulsions
–Sand Production, Perforation Plugging
–Invasion of Mud Solids, Cement Filtrates and Completion Fluids
–Fracture Geometry and Stress Sensitivity
–Loss Circulation Behavior During Drilling and Completion
2.2 Damage Characterization and Diagnosis
–Integrated Core Analyses
–Advancements in Cased Hole Logging Technology
–New Developments and Field Examples of Measuring Skin
–Damage Attributed to Wellbore Fluids
–Damage Characterization of Injection Wells
–Problem Well Diagnosis
–Damage Cost Assessment
2.3 Formation Damage Control
–Damage Minimization Utilizing Underbalanced Drilling Technique
–Control of Damage in Horizontal Wells and Multi-lateral Wells
–Gravel Pack and Screen Damage and Screen Cleanup Evaluation
–Chemical Additives
–Method for Formation Damage Remedy and/or Increased Production
–Coiled Tubing to Remove Formation Damage, for Stimulation and for Water Production Control in Vertical, High-angle and Horizontal Wellbores
–Deepwater Prediction and Remediation of Hydrates, Scale, and Formation Damage Problems
–Field Experiences
3 .GAS TECHNOLOGY
–Emerging Technologies and Economic Viability
–Gas Condensate Development
–Gas Measurement, Monetisation, Utilisation and Marketing
–Gas Storage and Transportation
–LNG
–Marginal V/S Giant Field Development
–Sour gas- H2S, CO2
–Tight Gas, Shale Gas, Gas Hydrate and CBM
4. IOR/EOR
–Horizontal/Multilateral Wells Production
–IOR in an Uncertain Price Environment
–Increasing Ultimate Recovery
–Reduction of Residual Oil Saturation
–Thermal Methods
–Chemical Flooding Methods
–Miscible Methods
–Microbial Methods
–Gas Flooding Optimization
–H2S Management
–Chemical Tracers
5. HYDRAULIC FRACTURING AND ACIDIZING
5.1 Hydraulic Fracturing
–Job Design, Implementation, and Evaluation
–Fracture Mapping
–Pressure Analysis
–Fluid and Rock Mechanics
–Long-Term Performance
–Horizontal stimulation technology
5.2 Acidizing
–Job Design, Implementation, and Evaluation
–Diversion (Chemical and Mechanical)
–Matrix Acidization
–Acid Fracturing
–In-Situ, Other Deep-Penetration Methods
6. PRODUCTION AND OPERATIONS
6.1 Heavy Oil
–Case Studies: Successes & Failures
–Deep Heavy Oil Reservoirs
–Experience in New Technology
–Heat Management
–Heavy Oil Production Technology
–Implementation of Heavy Oil Development
–New Concepts for In Situ Combustion
–Nonthermal Heavy Oil Recovery Process
–Steam-Assisted Gravity Drainage and Related Methods
–Upgrading Heavy Oil: Carbon Management
6.2 Production Operations
–Artificial Lift
–Flow Assurance Issues (Asphaltenes, Wax, Hydrates, Emulsion, Scale)
–Horizontal and Multilateral Well Production
–Intelligent Well Technology
–Onshore and Offshore Liquid and Solid Waste Disposal
6.3 Production Performance Evaluation
–Production Testing (Multiphase Flow Metering)
–Permanent Gauges
–Production Logging
–Borehole Imaging
–Wellbore Seismic Methods
6.4 Multiphase Flow in Wells
–Piping and Components
–Slug Catchers
–Pipeline Networks
–Erosion
–Slurry Flow
7. RESERVOIR DYNAMICS
7.1 Fluids Characterization
–Phase Behavior and PVT Measurements
–Fluid Modeling, Equations of State
–Geochemical Characterization
–Fluid Dynamics and Recovery Processes
7.2 Flow In Porous Media
–Two- and Three-Phase Flow
–Conformance Improvement
–Waterflooding
–Gas-Injection Methods
–Gas Cycling
–Compaction
7.3 Reservoir Simulation
–Simulator Development
–Implementation of Simulators
–Construction of Static Model
–Scaling Methods
–Evaluation of Uncertainties
–Numerical Techniques
–Field Case Histories
7.4 Reservoir Monitoring
–Well Performance Monitoring, Inflow Performance
–Seismic (Four-Dimensional) Monitoring
–Permanent Downhole Sensors
–Tracers
–Pressure Transient Testing
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