UN BUEN PROFESIONAL . PRECISA DE UNA BUENA DOCUMENTACION TECNICA.

Para la compra de cuaquier libro de este blogg puede mandar un correo electronico a info@ingenieriayarte.com o a traves de nuestra pagina web. www.ingenieriayarte.com indicandonos nombre, direccion, poblacion y telefono de contacto .Dentro de España los envios son realizados por mensajeria 24 horas a cargo de MRW. Canarias y Ceuta los envios son por Correos España mediante Paquete Azu

Para cualquier envio Internacional los envios son por Agencia de transporte a su domicilio.Puede efectuar su pedido a traves de www.ingenieriayarte.com de forma comoda calcula los gastos de envio




jueves, 14 de febrero de 2013

SURFACE AND UNDERGROUND EXCAVATIONS


SURFACE AND UNDERGROUND EXCAVATIONS
Methods, Techniques and Equipment
Ratan Raj Tatiya

Excavation is a multi-disciplinary activity in the areas of civil, construction and mining engineering. The excavation industry is booming because of the yearly creation of thousands of kilometers of tunnels, many mine openings and millions of cubic meters of large underground excavations for transportation, mineral mining, oil and gas storage, hydroelectric power station construction, defense facilities and for the disposal of hazardous waste.
Surface and Underground Excavations – Methods, Techniques and Equipment provides a comprehensive text on the latest technologies and developments in excavation for any type of surface or underground excavation. In the first few chapters, unit operations are covered, including drilling, explosives and blasting, mucking, haulage, hoisting, supports and reinforcement. Subsequently, excavation techniques are described for various operations, like tunneling, raising, sinking, drifting, stoping, quarrying and surface-mining, underground mining, pillar blasting and liquidation. In addition, the design, planning and development of excavations are treated in a separate chapter. Special attention is paid to the construction of surface and subsurface excavations, including caverns and to new methodologies to select stoping methods through incremental analysis. For practical illustration, the final chapter contains case studies dealing with heavy underground blasting during pillar recoveries.
This expanded second edition has been wholly revised, removing obsolete information and including latest trends and best practices as well as questions at the end of each chapter. It is now fully up-to-date and even more appealing to students and those with a general or professional interest in surface and underground excavations. As such, this book is particularly suited to students in earth sciences, geology and in civil, mining and construction engineering.

Preface
Conversion tables
Introduction

Excavations and their classification
Surface excavations
Underground excavations
Importance of minerals and brief history to recover them
Current status of mineral industry
Excavation technologies/systems – development & growth
Unique features of mineral industry
Brief history civil work excavations including tunneling
Current scenario
Tomorrow’s mine & civil excavations
Way forward
References

Rocks and Minerals

Formation process and classification
Rock cycle & type of deposits
Texture, grain size and shape
The concepts of mineral resources and reserves; mineral inventory, cutoff grade, and ores
Geological structures
Physical & mechanical characteristics of ores and rocks
Some other properties/characteristics
Related terms – rock and mineral deposits
References

Prospecting, Exploration & Site Investigations

Introduction
Prospecting and exploration
Phases of prospecting and exploration program
Site investigations for civil constructions, or any excavation project including tunnels and caverns
Rocks and ground characterization
Rock quality designation (rqd)
References

Drilling

Introduction – unit operations
Primary rock breaking
Drilling
Operating components of the drilling system
Mechanics of rock penetration
Rock drill classification
Motive power of rock drills
Drilling accessories
Selection of drill
Drilling postures
References

Explosives and Blasting

Introduction – explosives
Detonation and deflagration
Common ingredients of explosives
Classification of explosives
Blasting properties of explosives
Explosive initiating devices/systems
Explosive charging techniques
Blasting accessories
Firing systems – classification
Ground blasting techniques
Secondary breaking
Use, handling, transportation and storage of explosives
Explosive selection
Blasting theory
Drilling and blasting performance
References

Mucking, Casting and Excavation

Introduction
Muck characteristics
Classification
Underground mucking units
ARM loaders
Scrapers
Mucking in tunnels
Surface – excavation, loading and casting units
Wheel loaders – front end loaders
Backhoe
Hydraulic excavators
Shovel
Dragline
Multi bucket excavators
Bucket chain excavator (BCE)
Bucket wheel excavator (BWE)
Calculations for selection of shovel/excavator
Total cost calculations
Governing factors for the selection of mucking equipment
References

Transportation – Haulage and Hoisting

Introduction
Haulage system
Trackless or tyred haulage system
Conveyor system
Belt conveyors
Hoisting or winding system
Aerial ropeway
Ropes
Track and mine car
References

Supports

Introduction – necessity of supports
Classification of supports
Self support by in-place (in-situ) rock
Selection of support
Effect of ore extraction upon displacement of country rock and surface
References

Drives and Tunnels (Conventional Methods)

Introduction – function of drives and tunnels
Drivage techniques (for drives and tunnels)
Drivage techniques with the aid of explosives
Muck disposal and handling (mucking and transportation)
Ventilation
Working cycle (including auxiliary operations)
Driving large sized drives/tunnels in tough rocks
Conventional tunneling methods: tunneling through the soft ground and soft rocks
Supports for tunnels and mine openings
Driving without aid of explosives
Pre-cursor or prior to driving civil tunnels
References

Tunneling By Roadheaders and Impact Hammers

Tunneling by boom mounted roadheaders
Classification boom mounted roadheaders
Milling or longitudinal (augur) roadheaders
Classification based on weight
Advantages of roadheaders
Important developments
Procedure of driving by the heading machines
Auxiliary operations
Hydraulic impact hammer tunneling
Excavation procedure and cycle of operations
Merit and limitations
Partial face rotary rock tunneling machines
Excavators
Excavator with multiple tool miner (MTM) attachments
References

Full-Face Tunnel Borers (Tbms) & Special Methods

Introduction
Tunneling methods and procedures
Full face tunneling machines
Mini tunnel borers
Boring system
Rock cutting tools and their types
TBM Performance
Size of unit and its overall length including its trailing gear
Backup system/activities
tbms for soft ground/formations
Phases of tunneling project
Future technology
New Austrian tunneling method (NATM)
Tunneling through the abnormal or difficult ground, using special methods
Cut and cover method of tunneling
Submerged tubes/tunnels
References

Planning

Economical studies
Mine design elements
Dividing property for the purpose of underground mining
Mine planning duration
Mine development – Introduction
Access to deposit or means of mine access
System – opening up a deposit
Positioning and developing the main haulage levels
Size and shape of mine openings and tunnels
Pit top layouts
Pit bottom layouts
Structures concerning pit bottom layouts
References

Excavations in Upward Direction – Raising

Introduction
Raises’ applications in civil and construction industries
Classification – types of raises for mines
Raise driving techniques
Conventional raising method: open raising
Conventional raising method: raising by compartment
Raising by the use of mechanical climbers: jora hoist
Raising by mechanical climbers: alimak raise climber
Blasthole raising method: long-hole raising
Blasthole raising method: drop raising
Raising by the application of raise borers
Raise boring in a package – borpak
Ore pass/waste rock pass
References

Shaft Sinking

Introduction
Location
Preparatory work required
Sinking appliances, equipment and services
Sinking methods and procedure
Reaching up to the rock head
Sinking through the rock
Special methods of shaft sinking
Piling system
Caisson method
Special methods by temporary or permanent isolation of water
The freezing process
Shaft drilling and boring
Safety in sinking shafts
References

Large Sub-Surface Excavations

Introduction
Caverns
Powerhouse caverns
Oil storage caverns
Repository
Salt cavern storage
Aquifer storage
Exhibition hall caverns
Underground chambers in mines
Equipment and services selection
References

Underground Mining/Stoping Methods

Introduction
Open stoping methods
Supported stoping methods
Caving methods
Common aspects
Mine liquidation
Planning for mine closure
References

Surface Excavations

Introduction – surface mining methods
Open pit mining
Haul roads
Ramp and its gradient
Open cast mining/strip mining
Quarrying methods/techniques
The diamond belt saw
Earth movers
References
Subject index

Hazards, Occupational Health and Safety (Ohs), Environment and Loss Prevention

Introduction
Excavations’ Potential Hazards
Safety
Occupational Health and Surveillance
Environment Degradation and Mitigation Measures
Loss Prevention
Way Forward
Questions
References

Sustainable Development

Sustainable Development (SD) in Mining
Stakeholders and Sustainable Development
Scenarios Influencing Mining Industry
Is Mining Industry Equipped to Meet Challenges?
Proposed strategy to run mines economically viable (beneficial) i.e. implementation of cost-effective systems and best practices.
Measures for SD through improvements environmentally, socially and ethically
Legal compliances and Mining Policy
Quality of Human Resources
The Ultimate Goal - Way Forward
Way forward: Proposed milestones / strategy
Questions
References

Observaciones 2013
Medidas 17x24
Paginas  846
Precio  140,00     A la venta en Marzo 2013

OPEN PIT MINE PLANNING & DESIGN




Large Image

OPEN PIT MINE PLANNING & DESIGN
William A. Hustrulid, Mark Kuchta, Randall K. Martin

Open Pit Mine Planning and Design is an outstanding textbook designed for courses in surface mine design, open pit design, geological excavation engineering, and advanced open pit mine planning and design. The step-by-step introduction to mine design and planning enables a fast-track approach to the matter by undergraduate and graduate students. The excellent, user-friendly software guides the student through the planning and design steps, and the drillhole data sets allow the student to practice the described principles in various mining properties case examples. The large number of illustrative examples and case studies, together with the exercises and the reference lists at the end of each chapter, provide the student with all the material needed to study effectively the theory and application methods of open pit mine planning and design.
Volume One: Fundamentals covers the fundamental concepts involved in the planning and design of open pit mines. Subjects covered include mine planning, mining revenues and costs, orebody description, geometrical considerations, pit limits, production planning, mineral resources and ore reserves, responsible mining, blasting, drilling, loading, hauling and equipment availability, and utilization.
Volume Two: CSMine Software Package deals with CSMine, a user-friendly mine planning and design software that was developed specifically to illustrate the principles involved when applied in practice. It includes CSMine software, a CSMine tutorial, MicroModel user's guide and tutorial and various orebody case examples.
Although intended as student course material, many practitioners have used it as a practical reference guide. This third edition has been wholly revised, updated, and significantly expanded.

1 MINE PLANNING
1.1 Introduction
1.2 Mine development phases
1.3 An initial data collection checklist
1.4 The planning phase
1.5 Planning costs
1.6 Accuracy of estimates
1.7 Feasibility study preparation
1.8 Critical path representation
1.9 Mine reclamation
1.10 Environmental planning procedures
1.11 A sample list of project permits and approvals
References
Review questions and exercises

2 MINING REVENUES AND COSTS

2.1 Introduction
2.2 Economic concepts including cash flow
2.3 Estimating revenues
2.4 Estimating costs
References
Review questions and exercises

3 OREBODY DESCRIPTION

3.1 Introduction
3.2 Mine maps
3.3 Geologic information
3.4 Compositing and tonnage factor calculations
3.5 Method of vertical sections
3.6 Method of vertical sections (grade contours)
3.7 The method of horizontal sections
3.8 Block models
3.9 Statistical basis for grade assignment
3.10 Kriging
References
Review questions and exercises

4 GEOMETRICAL CONSIDERATIONS

4.1 Introduction
4.2 Basic bench geometry
4.3 Ore access
4.4 The pit expansion process
4.5 Pit slope geometry
4.6 Final pit slope angles
4.7 Plan representation of bench geometry
4.8 Addition of a road
4.9 Road construction
4.10 Stripping ratios
4.11 Geometric sequencing
4.12 Summary
References
Review questions and exercises
5 PIT LIMITS
5.1 Introduction
5.2 Hand methods
5.3 Economic block models
5.4 The floating cone technique
5.5 The Lerchs-Grossmann 2-D algorithm
5.6 Modification of the Lerchs-Grossmann 2-D algorithm to a 2½-D algorithm
5.7 The Lerchs-Grossmann 3-D algorithm
5.8 Computer assisted methods
References
Review questions and exercises

6 PRODUCTION PLANNING

6.1 Introduction
6.2 Some basic mine life – plant size concepts
6.3 Taylor’s mine life rule
6.4 Sequencing by nested pits
6.5 Cash flow calculations
6.6 Mine and mill plant sizing
6.7 Lane’s algorithm
6.8 Material destination considerations
6.9 Production scheduling
6.10 Push back design
6.11 The mine planning and design process – summary and closing remarks
References
Review questions and exercises

7 REPORTING OF MINERAL RESOURCES AND ORE RESERVES

7.1 Introduction
7.2 The JORC code – 2004 edition
7.3 The CIM best practice guidelines for the estimation of mineral resources and mineral reserves – general guidelines
References
Review questions and exercises
8 RESPONSIBLE MINING
8.1 Introduction
8.2 The 1972 United Nations Conference on the Human Environment
8.3 The World Conservation Strategy (WCS) – 1980
8.4 World Commission on Environment and Development (1987)
8.5 The ‘Earth Summit’
8.6 World Summit on Sustainable Development (WSSD)
8.7 Mining industry and mining industry-related initiatives
8.8 ‘Responsible Mining’ – the way forward is good engineering
8.9 Concluding remarks
References
Review questions and exercises

9 ROCK BLASTING

9.1 General introduction to mining unit operations
9.2 Rock blasting
9.2.1 Rock fragmentation
9.2.2 Blast design flowsheet
9.2.3 Explosives as a source of fragmentation energy
9.2.4 Pressure-volume curves
9.2.5 Explosive strength
9.2.6 Energy use
9.2.7 Preliminary blast layout guidelines
9.2.8 Blast design rationale
9.2.9 Ratios for initial design
9.2.10 Ratio based blast design example
9.2.11 Determination of KB
9.2.12 Energy coverage
9.2.13 Concluding remarks
References
Review questions and exercises

10 ROTARY DRILLING

10.1 Brief history of rotary drill bits
10.2 Rock removal action
10.3 Rock bit components
10.4 Roller bit nomenclature
10.5 The rotary blasthole drill machine
10.6 The drill selection process
10.7 The drill string
10.8 Penetration rate – early fundamental studies
10.9 Penetration rate – field experience
10.10 Pulldown force
10.11 Rotation rate
10.12 Bit life estimates
10.13 Technical tips for best bit performance
10.14 Cuttings removal and bearing cooling
10.15 Production time factors
10.16 Cost calculations
10.17 Drill automation
References
Review questions and exercises

11 SHOVEL LOADING

11.1 Introduction
11.2 Operational practices
11.3 Dipper capacity
11.4 Some typical shovel dimensions, layouts and specifications
11.5 Ballast/counterbalance requirements
11.6 Shovel production per cycle
11.7 Cycle time
11.9 Shovel productivity example
11.10 Design guidance from regulations
References
Review questions and exercises

12 HAULAGE TRUCKS

12.1 Introduction
12.2 Sizing the container
12.3 Powering the container
12.4 Propeling the container – mechanical drive systems
12.5 Propelling the container – electrical drive systems
12.6 Propelling the container – trolley assist
12.7 Calculation of truck travel time – hand methods
12.8 Empty return calculations
12.9 Calculation of truck travel time – computer methods
12.10 Autonomous haulage
References
Review questions and exercises
 
13 MACHINE AVAILABILITY AND UTILIZATION

13.1 Introduction
13.2 Time flow
13.3 Availability – node 1
13.4 Utilization – node 2
13.5 Working efficiency – node 3
13.6 Job efficiency – node 4
13.7 Maintenance efficiency
13.8 Estimating annual operating time and production capacity
13.9 Estimating shift operating time and production capacity
13.10 Annual time flow in rotary drilling
13.11 Application in prefeasibility work
References
Review questions and exercises
Index

14 THE CSMINE TUTORIAL

14.1 Getting started
14.2 The Arizona Copper property description
14.3 Steps needed to create a block model
14.4 Data files required for creating a block model
14.5 CSMine program design overview
14.6 Executing commands with CSMine
14.7 Starting the tutorial
14.8 The drill hole mode
14.9 The composite mode
14.10 The block mode
14.11 Conclusion
14.12 Suggested exercises

15 CSMINE USER’S GUIDE

15.1 Basics
15.2 Drill hole mode
15.3 Composite mode
15.4 Block model mode
15.5 Economic block values
15.6 Pit modeling
15.7 Block plots
15.8 Contour plot
15.9 Plotting pit profiles
15.10 Block reports
15.11 Summary statistics
15.12 Variogram modeling
References

16 THE MICROMODEL V8.1 MINE DESIGN SOFTWARE

16.1 Introduction
16.2 Program overview
16.3 Data entry tutorial
16.4 Pit generation tutorial
16.5 Other data sets – Continuation

17 OREBODY CASE EXAMPLES

17.1 Introduction
17.2 The Arizona copper property
17.3 The Minnesota natural iron property
17.4 The Utah iron property
17.5 The Minnesota taconite property
17.6 The Kennecott Barneys Canyon gold property
17.7 The Newmont gold property
17.8 The Codelco Andina copper property
17.9 The Codelco Norte copper property
References
Index

Observaciones 2013      3º ED. 2 vol  Incluye CD.ROM
Medidas 17x24
Paginas 1500
Euros    140,00