DETAILED DESCRIPTION OF H1 RESERVOIR IN HUOSHAN OILFIELD AND DEVELOPMENT PROGRAM RESEARCH
DETAILED DESCRIPTION OF H1 RESERVOIR IN HUOSHAN OILFIELD AND DEVELOPMENT PROGRAM RESEARCH
Tao Xu(许涛)
East China University of Technology
Copyright © 2022 by Cayley Nielson Press, Inc.
ISBN: 978-1-957274-07-2
Cayley Nielson Press Scholarly Monograph Series Book Code No.: 212-4-6
Series of Scientific Advances in Geological Environment & Underground Engineering, Volume VI
Editor in chief: Li, Mingdong and Xue, Kaixi(李明东,薛凯喜)
Editors: Yi, Jinxiang; Zhang, Jingwu; Zhu, Liping; Yang, Ting; Xu, Tao; Wang, Shengfu; Shan, Lingzhi; Wan, Yukuai (易进翔,张京伍,朱丽萍,杨婷,许涛,王升福,单凌志,万愉快)
US$150.00
Contents
Chapter 1 Overview of the study area 1
1.1 Oilfield overview 1
1.2 Development process 2
Chapter 2 Stratigraphic correlation and division 5
2.1 Stratigraphic division and correlation scheme and model 5
2.2 Stratigraphic correlation principle and fine correlation results 6
2.2.1 Stratigraphic correlation principle 7
2.2.2 Fine stratigraphic correlation results 10
2.3 Understanding of stratigraphic correlation 10
2.3.1 Understanding of stratigraphic framework cycle 10
2.3.2 Understanding of stratum thickness change 11
2.3.3 Stratigraphic division and correlation results 11
Chapter 3 Structural characteristics 13
3.1 Overview 13
3.2 Fracture characteristics 13
3.3 Structural characteristics 14
3.4 Microstructure research 15
Chapter 4 Reservoir logging interpretation 19
4.1 Data overview 19
4.1.1 Coring 19
4.1.2 Core test and analysis data 19
4.2 Logging data processing 19
4.2.1 Logging curve standardization 19
4.4.2 Core data homing 21
4.3 Reservoir four characteristics 23
4.3.1 Reservoir lithology characteristics 23
4.3.2 Reservoir physical property characteristics 23
4.3.3 Reservoir oil-bearing characteristics 24
4.3.4 Electrical characteristics 24
4.3.5 Summary 25
4.4 Effective thickness division of reservoir 25
4.4.1 Lithology identification 25
4.4.2 Mud content calculation model 26
4.4.3 Porosity(Ф) Calculation model 27
4.4.4 Permeability (k) calculation model 28
4.4.5 Oil saturation (so) calculation 29
4.4.6 Determination of the lower limit of effective thickness 30
4.4.7 Effective thickness division of single well 32
4.4.8 Verification of logging interpretation model 33
Chapter 5 Sedimentary characteristics 35
5.1 Regional sedimentary background 35
5.2 Analysis of regional provenance direction 35
5.3 Sedimentary system 36
5.4 Sedimentary characteristics and microfacies types 36
5.4.1 Rock types and characteristics 36
5.4.2 Particle size characteristics 38
5.4.3 Sedimentary microfacies type 38
5.5 Description of sedimentary microfacies of sand layer 42
Chapter 6 Reservoir characteristics 47
6.1 Lithology of reservoir 47
6.2 Micro heterogeneity characteristics of reservoir 47
6.2.1 Pore type 47
6.2.2 Pore structure characteristics 48
6.2.3 Pore throat structure characteristics 49
6.3 Reservoir macro heterogeneity 51
6.3.1 Reservoir physical properties 51
6.3.2 Intra layer heterogeneity 54
6.3.3 Interlayer heterogeneity 56
6.3.4 Characteristics of reservoir plane heterogeneity 57
Chapter 7 Fluid distribution and reserve recalculation 71
7.1 Fluid properties and distribution rules 71
7.1.1 Oil and gas properties 71
7.1.2 Oil layer distribution characteristics 72
7.2 Reserve calculation 76
7.2.1 Reserve parameters 76
7.2.2. Calculation of petroleum geological reserves 77
7.3 Reserve distribution characteristics 77
Chapter 8 Reservoir three-dimensional modeling 81
8.1 3D modeling data preparation and grid design 81
8.1.1 Data preparation 81
8.1.2 Grid design 82
8.2 3D structural modeling 83
8.3 Reservoir 3D lithofacies random modeling 83
8.3.1 Rock vertical and spatial probability analysis 84
8.3.2 Calculation of variogram 84
8.3.3 Reservoir 3D facies modeling 85
8.4 Reservoir 3D parameter modeling 86
8.4.1 Data processing 86
8.4.2 Data conversion 87
8.4.3 Test variogram fitting and analysis 88
8.4.4 Attribute parameter model 89
8.5 Reserve fitting 90
8.6 Model coarsening 92
Chapter 9 Evaluation of reservoir development effect 94
9.1 Reservoir decline law 94
9.2 Evaluation of water drive development effect 96
9.2.1 Water cut rise rate 96
9.2.2 Water storage rate, water consumption rate and water drive index 96
9.3 Injection production capacity characteristics 99
9.3.1 Analysis of oil production capacity 99
9.3.2 Water injection capacity analysis 101
9.3.3 Analysis of water drive control degree 102
9.3.4 Effectiveness analysis of water injection 102
9.4 Pressure system characteristics 104
9.5 Vertical production status of reserves 106
9.6 Oil field water drive recovery evaluation 106
9.6.1 Water drive curve method 107
9.6.2 Tong's curve method 108
9.6.3 Production decline method 109
9.6.4 Yu Qitai formula 110
9.6.5 Comprehensive evaluation of water drive recovery ratio 111
Chapter 10 Research on development policy boundary 112
10.1 Reasonable formation pressure maintenance level 112
10.2 Determination of bottom hole flow pressure limit 114
10.3 Determination of reasonable production pressure difference 117
10.4 Research on reasonable injection production well number ratio 117
10.5 Research on reasonable injection production ratio 119
10.5.2 Considering the reasonable injection production ratio when invalid water injection is considered 120
10.5.3 Calculation of reasonable injection production ratio 122
10.6 Research on reasonable oil production rate 123
10.6.1 Relationship between oil production rate and well pattern density 123
10.6.2 Comprehensive empirical relationship method 123
10.6.3 Calculation of reasonable oil production rate 124
10.7 Definition of reasonable injection pressure 124
10.7.1 Calculation of fracture pressure 124
10.7.2 Injection bottom hole flow pressure 125
10.7.3 Wellhead injection pressure 125
10.8 Determination of the scope of optimal exploitation technology policy 126
Chapter 11 Research on reservoir numerical simulation and remaining oil prediction 128
11.1 Data preparation 128
11.1.1 Production performance data 129
11.1.2 Other reservoir parameters 129
11.2 Reservoir history fitting 130
11.2.1 Fitting method 130
11.2.2 Geological reserve fitting 131
11.2.3 Reservoir basic index fitting 131
11.3 Study on remaining oil distribution 132
11.3.1 Reserve production status 132
11.3.2 Spatial distribution and control factors of remaining oil 134
Chapter 12 Research on reasonable well pattern, well spacing and development mode 140
12.1 Division of development strata 140
12.2 Reasonable injection production well pattern 140
12.3 Research on Optimization of well spacing and row spacing 142
12.3.1 Research on row spacing optimization of injection production well pattern 142
12.3.2 Study on well spacing ratio 143
12.3.3 Reasonable well spacing determination 144
12.4 Horizontal well development demonstration 144
12.4.1 Analysis of applicable conditions of horizontal wells 144
12.4.2 Optimization of favorable areas of horizontal wells 145
12.4.3 Horizontal well development demonstration 146
Chapter 13 Comprehensive treatment scheme and dynamic prediction 148
13.1 Potential tapping principle 148
13.2 Potential tapping measures 149
13.3 Potential tapping scheme 150
13.4 Scheme deployment 153
13.5 Scheme forecast 155
13.6 Prediction of implementation plan 157
13.7 Implementation suggestions 158
Readership
This book should be useful for students, scientists, engineers and professionals working in the areas of optoelectronic packaging, photonic devices, semiconductor technology, materials science, polymer science, electrical and electronics engineering. This book could be used for one semester course on adhesives for photonics packaging designed for both undergraduate and graduate engineering students.