دانلود کتاب Hard Rock Mine Reclamation. From Prediction to Management of Acid Mine Drainage
کتاب احیای معدن سنگ سخت. از پیش بینی تا مدیریت زهکشی معدن اسیدی نسخه زبان اصلی
دانلود کتاب احیای معدن سنگ سخت. از پیش بینی تا مدیریت زهکشی معدن اسیدی بعد از پرداخت مقدور خواهد بود
توضیحات کتاب در بخش جزئیات آمده است و می توانید موارد را مشاهده فرمایید
توضیحاتی در مورد کتاب Hard Rock Mine Reclamation. From Prediction to Management of Acid Mine Drainage
نام کتاب : Hard Rock Mine Reclamation. From Prediction to Management of Acid Mine Drainage
عنوان ترجمه شده به فارسی : احیای معدن سنگ سخت. از پیش بینی تا مدیریت زهکشی معدن اسیدی
سری :
نویسندگان : Edited By
ناشر : CRC Press
سال نشر : 2021
تعداد صفحات : 409
ISBN (شابک) : 9781315166698
زبان کتاب : English
فرمت کتاب : pdf
حجم کتاب : 41 مگابایت
بعد از تکمیل فرایند پرداخت لینک دانلود کتاب ارائه خواهد شد. درصورت ثبت نام و ورود به حساب کاربری خود قادر خواهید بود لیست کتاب های خریداری شده را مشاهده فرمایید.
فهرست مطالب :
Hard Rock Mine Reclamation
Hard Rock Mine Reclamation
Contents
Acknowledgments
Editors
Authors
Dr Akue Sylvette Awoh
Mostafa Benzaazoua
Pr Vincent Boulanger-Martel
Pr Bruno Bussiere
Jean Cote
Pr Isabelle Deniers
Adrien Diniech
Pr Marie Guittonny
Pier-Luc Labonte-Raymond
Pr Abdelkabir Maqsoud
Pr Mamert Mbonimpa
Pr Carmen Mihaela Neculita
Pr Thomas Pabst
Pr Benoit Plante
Gary Schudel
G. Ward Wilson
Gerald J. Zagury
Introduction
Marie Guittonny and Bruno Bussiere *
CONTEXT
CONTENT AND AUTHORS
FINAL REMARKS
REFERENCES
Generation of Acid
Mine Drainage
Benoit Plante, Cary Schudel, and Mostafa Benzaazoua
1.1 HISTORICAL PERSPECTIVE AND OVERVIEW OF THE PROBLEM
1.2 MINERALOGICAL ASPECTS OF AMD GENERATION
1.3 FACTORS INFLUENCING THE DEVELOPMENT OF AMD CONDITIONS
1.4 RESEARCH NEEDS
REFERENCES
Prediction of Acid
Mine Drainage
Benoit Plante, Cary Schudel, and Mostafa Benzaazoua
2.1 AMD PREDICTION STRATEGY AND SAMPLING CONSIDERATIONS
2.2 STATIC TESTS
2.3 KINETIC TESTS
0 Z
2.4 RESEARCH AND DEVELOPMENT NEEDS
REFERENCES
Water, Gas, and Heat
Movement in Cover Materials
Mamert Mbonimpa, Vincent Boulanger-Martel, Bruno Bussiere, and Abdelkabir Maqsoud
3.1 INTRODUCTION
3.2 BASIC PROPERTIES
3.3 WATER FLOW IN SATURATED COVER MATERIALS
kM (m.r1) = 9.80
3.4 WATER FLOW IN UNSATURATED COVER MATERIALS
AND REACTIVE COVER MATERIALS
3.6 HEAT TRANSFER IN COVER MATERIALS
3.7 RESEARCH NEEDS
REFERENCES
Low Saturated Hydraulic Conductivity Covers
Abdelkabir Maqsoud, Bruno Bussiere, and Mamert Mbonimpa
4.1 INTRODUCTION: BACKGROUND AND HISTORICAL PERSPECTIVES
4.2 TYPICAL LSHCC CONFIGURATIONS
4.3 TYPES OF LOW SATURATED HYDRAULIC CONDUCTIVITY MATERIALS
4.3.2 GMs
4.3.3 GCLs
4.4 COVER DESIGN
IN MINE SITE RECLAMATIONS
4.6 ADVANTAGES AND LIMITS
4.7 RESEARCH NEEDS
REFERENCES
Г Store-and-Release Covers
Bruno Bussiere and C. Ward Wilson
5.1 INTRODUCTION: BACKGROUND AND HISTORICAL PERSPECTIVES
5.2 CONCEPTS AND MAIN FACTORS OF INFLUENCE FOR UNIDIMENSIONAL CONDITIONS (ID)
FOR INCLINED SR COVERS (2D)
5.4 METHODOLOGY FOR THE DESIGN
5.5 CASE STUDIES OF SR COVERS TO RECLAIM MINE WASTES
5.6 ADVANTAGES AND LIMITS
5.7 RESEARCH NEEDS
REFERENCES
Water Covers
Akue Sylvette Awoh, Mamert Mbonimpa, and Bruno Bussiere
6.1 INTRODUCTION AND BACKGROUND
6.2 CONCEPT
6.3 EFFECTIVENESS OF WATER COVERS: PARAMETERS OF INFLUENCE
IH III
6.4 DESIGN METHODOLOGY
6.5 CASE STUDIES
6.6 MAIN ADVANTAGES AND LIMITATIONS OF THE TECHNIQUE
6.7 PERSPECTIVESAND RESEARCH NEEDS
REFERENCES
Covers with Capillary
Barrier Effects
Isabelle Demers and Thomas Pabst
7.1 INTRODUCTION AND BACKGROUND
7.2 CONCEPT
7.3 FACTORS THAT INFLUENCE COVER PERFORMANCE
7.4 DESIGN METHODOLOGY
7.5 CASE STUDIES
7.6 APPLICABILITY OF CCBEs
7.7 OPPORTUNITIES AND RESEARCH NEEDS
REFERENCES
g Elevated Water Table with Monolayer Covers
Thomas Pabst
8.1 INTRODUCTION AND BACKGROUND
8.2 ELEVATED WATER TABLE
8.3 MONOLAYER COVERS
8.4 CASE STUDIES
8.5 MAIN ADVANTAGES AND LIMITATIONS OF THE EWT TECHNIQUE
8.6 PERSPECTIVES AND RESEARCH NEEDS
REFERENCES
g Insulation Covers
Vincent Boulanger-Martel, Bruno Bussiere, and Jean Cote
9.1 INTRODUCTION
FOR COVER DESIGN
9.3 DESIGN BASIS
9.4 MAIN FACTORS OF INFLUENCE
9.5 METHODOLOGY FOR THE DESIGN
9.6 CASE STUDIES
9.7 ADVANTAGES AND LIMITS
9.8 PERSPECTIVE AND RESEARCH NEEDS
REFERENCES
\'j Q Monitoring the Performance of Mine Site Reclamation
10.1 INTRODUCTION
10.2 METEOROLOGICAL PARAMETERS
10.3 HYDROGEOLOGICAL AND HYDROLOGICAL PARAMETERS
10.4 WATER QUALITY MONITORING
10.5 GAS MOVEMENT
10.6 VEGETATION PARAMETERS
10.7 GROUND TEMPERATURE
10.8 MONITORING STRATEGY
10.9 FINAL REMARKS
REFERENCES
Passive Treatment of
Acid Mine Drainage at the Reclamation Stage
Carmen M. Neculita, Cerald /. Zagury, and Bruno Bussiere
11.1 INTRODUCTION
11.2 PRINCIPLE, CLASSIFICATION, AND FACTORS OF INFLUENCE
11.3 DESIGN APPROACH - PRACTICAL METHODOLOGY
11.4 CASE STUDIES
11.5 ADVANTAGESAND LIMITS
11.6 PERSPECTIVES AND RESEARCH NEEDS
REFERENCES
Revegetation of Mine Sites
Marie Cuittonny
12.1 INTRODUCTION
ESTABLISHMENT ON MINE SUBSTRATES
12.3 METHODOLOGICAL APPROACH TO DESIGNING A REVEGETATION PLAN
ASSOCIATED INDICATORS OF REVEGETATION SUCCESS
APPROACH USED ON EACH ZONE
12.6 SPECIFYING THE REVEGETATION DESIGN
THE FINAL REVEGETATION DESIGN
OF REVEGETATION SUCCESS
12.9 REVEGETATION WITH ADDED VALUE
12.10 CHALLENGESAND R&D NEEDS
REFERENCES
Alternative and Innovative Integrated Mine Waste Management Approaches
Isabelle Demers and Thomas Pabst
13.1 INTRODUCTION
13.2 DENSIFIED TAILINGS
13.3 BACKFILLING
13.4 ENVIRONMENTAL DESULFURIZATION
13.5 CO-DISPOSAL OF WASTE ROCK AND TAILINGS
13.6 VALORIZATION OF MINE WASTE
13.7 INTEGRATED WASTE ROCK MANAGEMENT
13.8 CONCLUSION AND RESEARCH NEEDS
REFERENCES
Long-Term Evolution of
Reclamation Performance
Bruno Bussiere and Marie Cuittonny
14.1 INTRODUCTION
14.2 EFFECTS OF CLIMATE CHANGE
14.3 EFFECTS OF VEGETATION
14.4 EVOLUTION OF MATERIAL PROPERTIES
14.5 DURABILITY OF COARSE-GRAINED COVER MATERIALS
14.6 METHODOLOGICAL APPROACH TO INTEGRATE EVOLUTIVE PARAMETERS FOR THE PREDICTION OF LONG-TERM PERFORMANCE
14.7 FINAL REMARKS
REFERENCES
Index
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