Geothermal power generation: developments and innovation
Gespeichert in:
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam
Elsevier, WP
[2016]
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| Schriftenreihe: | Woodhead Publishing series in energy
number 97 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | xxxi, 822 Seiten Illustrationen, diagramme, Karten |
| ISBN: | 9780081003374 |
Internformat
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Datensatz im Suchindex
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| adam_text | Contents
F)
Woodhead Publishing Series in Energy xv
Author biographies xxi
Preface xxix
1 Introduction to geothermal power generation X
L.Y. Bronicki
Part One Resource exploration, characterization
and evaluation 5
2 Geology of geothermal resources 7
XV.A. Elders, J.N. Moore
2.1 Introduction 7
2.2 Heat flow and plate tectonics 7
2.3 Geologic techniques 10
2.4 Hydrothermal alteration 13
2.5 Volcanic-hosted systems 18
2.6 Sediment-hosted geothermal systems 22
2.7 Extensional tectonic geothermal systems 24
2.8 Unconventional geothermal resources 26
2.9 Conclusions 27
References 28
3 Geophysics and resource conceptual models in geothermal
exploration and development 33
W. Cumming
3.1 Introduction 33
3.2 Geophysics in the context of geothermal decision risk assessment 35
3.3 Geothermal resource conceptual models 35
3.4 Geothermal resource models with elements that differ from
those in Fig. 3.1 39
3.5 Formation properties and geophysical methods 41
3.6 Choosing geophysical methods and designing surveys for
geothermal applications 44
3.7 Resistivity methods 46
3.8 MT surveys 48
53
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57
58
61
62
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65
67
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138
3.9 TEM resistivity sounding for correction of MT static distortion
3.10 Awibengkok MT model and validation
3.11 Using MT to build conceptual models and define resource areas
and targets
3.12 Deep low-resistivity zones
3.13 Gravity methods for exploration and development
3.14 Magnetic methods
3.15 Seismic monitoring
3.16 Reflection/refraction seismic methods
3.17 Borehole wireline logs
3.18 SP method
3.19 Geophysics management issues
Acknowledgments
References
Application of geochemistry to resource assessment
and geothermal development projects
J.R. Haizlip
4.1 Introduction
4.2 Early-phase resource assessment
4.3 Contributions to conceptual models
4.4 Geochemical contributions to geothermal power project design
4.5 Geochemical tools for geothermal reservoir operation and
maintenance
4.6 Summary
References
Geothermal well drilling
L.E. Ccipuano, Jr.
5.1 Introduction
5.2 Getting started
5.3 Casing design
5.4 Mud program
5.5 Directional program
5.6 Wellhead design and blow-out preventer systems
5.7 Cementing program
5.8 Cement placement
5.9 Hydraulic and bit program
5.10 Drilling curve
5.11 Mud logging
5.12 Drilling rig selection and special considerations
5.13 Cost estimate
Ackn o wledgments
References
Contents vii
6 Characterization, evaluation, and interpretation of well data 141
R.N. Home
6.1 Upward convective flow in reservoirs 141
6.2 Pressure and temperature profile analysis 143
6.3 Injection testing 151
6.4 Discharge tests 152
6.5 Pressure transient tests 153
6.6 Wellbore heat loss 158
6.7 Summary 162
References 163
7 Reservoir modeling and simulation for geothermal resource
characterization and evaluation 165
M.J. O’Sullivan, J.P. O’Sullivan
1A Review of resource estimation methods 165
7.2 Computer modeling methodology 170
7.3 Computer modeling process 173
7.4 Recent modeling experiences 182
7.5 Current developments and future directions 184
References 190
Part Two Energy conversion systems 201
8 Overview of geothermal energy conversion systems:
reservoir-wells-piping-plant-reinjection 203
R. DiPippo
8.1 Introduction 203
8.2 It begins with the reservoir 204
8.3 Getting the energy out of the reservoir 207
8.4 Connecting the wells to the power station 209
8.5 Central power station 211
8.6 Geofluid disposal 213
8.7 Conclusions and a look ahead 214
References 215
9 Elements of thermodynamics, fluid mechanics, and heat transfer
applied to geothermal energy conversion systems 217
R. DiPippo
9.1 Introduction 217
9.2 Definitions and terminology 217
9.3 First law of thermodynamics for closed systems 218
9.4 First law of thermodynamics for open steady systems 220
9.5 First law of thermodynamics for open unsteady systems 221
221
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321
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350
9.6 Second law of thermodynamics for closed systems
9.7 Second law of thermodynamics for open systems
9.8 Exergy and exergy destruction
9.9 Thermodynamic state diagrams
9.10 Bernoulli equation
9.11 Pressure loss calculations
9.12 Pxinciples of heat transfer applied to geothermal power plants
9.13 Example analyses for elements of geothermal power plants
9.14 Conclusions
Sources of further information
References
Flash steam geothermal energy conversion systems: single-,
double-, and triple-flash and combined-cycle plants
W. Hawey, K. Wallace
10.1 Flash steam cycles
10.2 Mixed and combined cycles
10.3 Cogeneration and coproduction from flashed brines
10.4 Equipment research and development
10.5 Summary
References
Direct steam geothermal energy conversion systems: dry steam
and superheated steam plants
K. Phair
11.1 Introduction
11.2 Power cycle
11.3 S team quality
11.4 Steam systems
11.5 T urbine-generators
11.6 Condensers
11.7 Gas removal systems
11.8 Cooling systems
11.9 Plant auxiliaries
11.10 Engineering materials
11.11 Summary
Relevant literature
Total flow and other systems involving two-phase expansion
I.K. Smith
12.1 Total flow
12.2 Alternative systems for power recovery based on two-phase
expansion
References
Bibliography
Contents
ix
13 Binary geothermal energy conversion systems: basic Rankine,
dual—pressure, and dual—fluid cycles 353
G. Mines
13.1 Introduction 353
13.2 Binary power cycle 354
13.3 Binary cycle performance 356
13.4 Types of binary cycles 360
13.5 Selection of working fluid 366
13.6 Cycle performance comparison 377
13.7 Design considerations 380
13.8 Economic considerations 385
References 388
14 Combined and hybrid geothermal power systems 391
R. DiPippo
14.1 Introduction and definitions 391
14.2 General thermodynamic considerations 392
14.3 Combined single- and double-flash systems 394
14.4 Combined flash and binary systems 395
14.5 Geothermal-fossil hybrid systems 397
14.6 Geothermal-solar hybrid systems 412
14.7 Conclusions 417
Nomenclature 417
References 419
Additional reading 420
Part Three Design and economic considerations 421
15 Waste heat rejection methods in geothermal power generation 423
A. Chiasson
15.1 Introduction: overview and scope 423
15.2 Condensers in geothermal power plants 424
15.3 Water-cooled condensers 427
15.4 Air-cooled condensers 435
15.5 Evaporative (water- and air-cooled) condensers 438
15.6 Concluding summary and future trends 441
References 442
16 Silica scale control in geothermal plants—historical perspective
and current technology 443
P. von Hirtz
16.1 Introduction 443
16.2 Geochemistry of silica 444
16.3 Thermodynamics of silica solubility 444
X
Contents
16.4 Silica precipitation kinetics 447
16.5 Silica scaling experience in geothermal power production 450
16.6 Historical techniques for silica/silicate scale inhibition 452
16.7 Current scale control techniques at high supersaturation 457
16.8 Case study for scale control in a combined-cycle plant design 460
16.9 Pilot-plant testing for bottoming cycle optimization 463
16.10 Guidelines for optimum pH-mod system design 467
16.11 Summary 474
References 475
17 Environmental benefits and challenges associated with
geothermal power generation 477
AC. de Jesus
17.1 Introduction 477
17.2 Environmental, social, and cultural benefits and challenges
of geothermal power generation 477
17.3 Developing an environmentally sound and socially
responsible project 486
17.4 Geothermal energy in the context of sustainable development 493
17.5 Conclusions 494
References 494
18 Project permitting, finance, and economics for geothermal power
generation 499
M.C. Moore
18.1 Introduction 499
18.2 Finance background 503
18.3 Recent evidence in geothermal drilling and construction 505
18.4 Cost and financing issues 506
18.5 Permitting land use and interconnection 510
18.6 Long-term economic and financing security 513
18.7 Conclusions 529
References 530
Appendix A 532
Part Four Case studies 535
19 Larderello: 100 years of geothermal power plant evolution in Italy 537
R. Parri, F. Lazzeri
Prologue by R. Cataldi: historical outline on geothermal
development in Italy up to 1960, with particular reference to
the boraciferous region 537
From prehistory to the end of eighteenth century 537
The chemical industry of Larderello in the nineteenth century 539
Contents
xi
The chemical and geo-power industries from 1900 to 1960 544
Concluding remarks 549
Essential references for the prologue 549
19.1 Introduction: background of geothermal power generation 552
19.2 1900“ 1910: first experiments of geo-power generation
and initial applications 554
19.3 1910—1916: first geothermal power plant of the world,
experimental generation, and start of geo-power production
at the commercial scale 556
19.4 1917—1930: consolidation of geoelectric power production
at the industrial scale and start of a new technology:
the direct-cycle geo-power units 560
19.5 1930—1943: toward a balanced economic importance
of chemical production and geo-power generation 562
19.6 1944—1970: destruction, reconstruction, relaunching, and
modification of the geo-power system 567
19.7 1970—1990: from reinjection of spent fluids and processing
of steam to the renewal of all power units and remote control
of the whole generation system 575
19.8 1990—2014: recent technological advancements, with
special regard to the “AMIS Project,” new materials, and
environmental acceptability 580
19.9 Other geothermal areas 585
Acknowledgments 588
References 589
20 Fifty-five years of commercial power generation at The Geysers
geothermal field, California: the lessons learned 591
S.K. Sanyal, S.L. Enedy
20.1 Introduction 591
20.2 Background 591
20.3 The fledgling years (1960-69) 597
20.4 Geothermal comes of age (1969—79) 597
20.5 The geothermal rush (1979-86) 598
20.6 The troubled era (1986-95) 599
20.7 The watershed years (1995—98) 601
20.8 Stability at last (1998-2004) 602
20.9 Renewed optimism (2004—15) 602
20.10 The future (beyond 2015) 605
20.11 Lessons learned 606
Acknowledgments 607
References 607
609
611
612
615
618
619
620
621
622
637
641
641
641
642
642
645
645
647
650
651
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663
664
667
667
690
711
712
712
717
717
723
Indonesia: vast geothermal potential, modest but growing
exploitation
5. Darma
21.1 Introduction
21.2 Geological background
21.3 Vast geothermal potential
21.4 History of geothermal development in Indonesia
21.5 Geothermal law and other geothermal regulations
21.6 National energy condition and policy
21.7 Geothermal energy role in the National Energy Mix
21.8 Geothermal development plan
21.9 Geothermal exploitation growth
21.10 Challenges in geothermal development
21.11 Future planning of geothermal development
21.12 Conclusions
Acknowledgments
References
Bibliography
New Zealand: a geothermal pioneer expands within
a competitive electricity marketplace
LA. Thairiy P. Brown
22.1 Reform of the NZ electricity generation and supply industry
22.2 Geothermal resource management
22.3 Geothermal: a Maori treasure being actively and
innovatively used
22.4 Geothermal developments—2000 to 2015
22.5 Field review of geothermal power, tourism, and direct use
developments
22.6 Geothermal outlook
References
Central and South America: significant but constrained
potential for geothermal power generation
P. Moya Rojas
23.1 Central America
23.2 South America
23.3 Final remarks
Acknowledgments
References
Mexico: thirty-three years of production in the Los Azufres
geothermal field
L.C.A. Gutiérrez Negrín, MJ. Lippmann
24.1 Geothermal power in Mexico
24.2 Main features of the Los Azufres field
Contents xiii
24.3 Geothermal production 727
24.4 Power plants and output 730
24.5 Perspectives 739
Acknowledgments 741
References 741
25 Enhanced geothermal systems: review and status of research
and development 743
E. Huenges
25.1 Introduction 743
25.2 Characterization of geothermal energy systems 744
25.3 Reservoir types applicable for EGS development 745
25.4 Treatments to enhance productivity of a priori
low-permeable rocks 746
25.5 Environmental impact of EGS treatments 751
25.6 Sustainable operation 756
25.7 Outlook 758
References 760
26 Geothermal energy in the framework of international
environmental law 763
E. Rodriguez Arias
26.1 Introduction 763
26.2 Environmental international law and geothermal energy 775
26.3 Environmental features in public and private companies
developing geothermal projects; green sells 779
26.4 Global interest in geothermal energy 783
26.5 Conclusion 785
References 786
Index 787
Many of the images used in the book are historic photographs. They are the only
available best quality pictures.
WOODHEAD PUBLISHING SERIES IN ENERGY
Advanced energy technologies are urgently required to meet the challenges of
economic development, climate change mitigation, and energy security. Geothermal
resources are considered renewable and can be used to generate baseload electricity
while producing very low levels of greenhouse gas emissions and thus play a key role.
Edited by a highly respected expert. Geothermal Power Generation: Developments and
Innovation provides a comprehensive overview of the major aspects of geothermal
power production.
The chapters, contributed by specialists in their respective areas, cover resource
discovery, resource characterization, energy conversion systems, design, and
economic considerations. The final section provides fascinating case studies from
across the world, ranging from historic plants at Larderello in Italy to modern plants
in Indonesia.
Geothermal Power Generation: Developments and Innovation is an essential text
for research and development professionals and engineers in the geothermal energy
industry as well postgraduate researchers in academia working on geothermal energy.
Dr. Ronald DiPippo is a world authority and consultant on Geothermal Power
Plants. He is Chancellor Professor Emeritus of Mechanical Engineering and former
Associate Dean of Engineering at the University of Massachusetts Dartmouth (UMD),
a visiting Research Professor and Visiting Lecturer at Brown University in Providence,
Massachusetts Institute of Technology (MIT), as well as a visiting lecturer at the
School for Renewable Energy Science at the University of Akureyri, Iceland, and the
National Geothermal Academy at the University of Reno, Nevada.
ISBN 978-0-08* 100337-4
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| indexdate | 2024-07-10T07:33:25Z |
| institution | BVB |
| isbn | 9780081003374 |
| language | English |
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| physical | xxxi, 822 Seiten Illustrationen, diagramme, Karten |
| publishDate | 2016 |
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| series | Woodhead Publishing series in energy |
| series2 | Woodhead Publishing series in energy |
| spelling | Geothermal power generation developments and innovation edited by Ronald DiPippo Amsterdam Elsevier, WP [2016] xxxi, 822 Seiten Illustrationen, diagramme, Karten txt rdacontent n rdamedia nc rdacarrier Woodhead Publishing series in energy number 97 Geothermik (DE-588)4020285-9 gnd rswk-swf Geothermisches Kraftwerk (DE-588)4255900-5 gnd rswk-swf Geothermisches Kraftwerk (DE-588)4255900-5 s DE-604 Geothermik (DE-588)4020285-9 s DiPippo, Ronald (DE-588)102755377X edt Erscheint auch als Online-Ausgabe 978-0-08-100344-2 Woodhead Publishing series in energy number 97 (DE-604)BV036553081 97 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029134851&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029134851&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
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| subject_GND | (DE-588)4020285-9 (DE-588)4255900-5 |
| title | Geothermal power generation developments and innovation |
| title_auth | Geothermal power generation developments and innovation |
| title_exact_search | Geothermal power generation developments and innovation |
| title_full | Geothermal power generation developments and innovation edited by Ronald DiPippo |
| title_fullStr | Geothermal power generation developments and innovation edited by Ronald DiPippo |
| title_full_unstemmed | Geothermal power generation developments and innovation edited by Ronald DiPippo |
| title_short | Geothermal power generation |
| title_sort | geothermal power generation developments and innovation |
| title_sub | developments and innovation |
| topic | Geothermik (DE-588)4020285-9 gnd Geothermisches Kraftwerk (DE-588)4255900-5 gnd |
| topic_facet | Geothermik Geothermisches Kraftwerk |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029134851&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029134851&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV036553081 |
| work_keys_str_mv | AT dipipporonald geothermalpowergenerationdevelopmentsandinnovation |