Quarry Manager Development Program

Quarry Manager Development Program
Haulage & Transportation

Outline Objectives Rock Transportation Methods
Conveyor belts Gravity Haulers Type of Haulers Selection Criteria's Characteristics and Specifications Hauler Performance Hauler Production Estimation Haul Road Design Criteria's Safety Mining Op Hauling & transportation

Objectives Objectives:
Rock transportation requires a significant amount of energy and big size equipment. This operation is dangerous. We have to understand how we can conduct this operation in a safe manner. It is possible to optimize this process and to reduce the operating costs. Mining Op Hauling & transportation

Rock Transportation Methods
The Main Rock Transportation Methods Conveyor belts A loading machine is feeding a crusher. A mobile or semi-mobile crusher is following the quarry face. The crusher feeds the conveyor belt. Gravity Glory holes, feeders of transfer points onto a conveyor belt, tunnels, crusher(s). Rock slides Haulers Mostly trucks but also in some applications dozer(s), wheel loader(s), scraper(s), train wagon(s). Mining Op Hauling & transportation

Rock Transportation Methods
The Rock Transportation Selection Criteria's are: Safety Environment Flexibility and versatility Availability Effectiveness Maintenance Production cost Mining Op Hauling & transportation

Outline Objectives Rock Transportation Methods Conveyor belts
Mining Op Hauling & transportation

Rock Transportation Methods – Conveyor Belts
Conveyor haulage Usage of a mobile or semi-mobile crusher. Extending or adding conveyor belt to the crushing unit. Feeding the crusher with a back-hoe excavator. Mining Op Hauling & transportation

Long belt conveying to plant. Martres Quarry Conveying 0-300mm limestone to the plant Mining Op Hauling & transportation

Conveyor Belts Classification (1) In pit conveyor: to replace haulers / trucks: with portable /mobile crusher and steep- slope belt. Overland conveyor: adapted to the terrain, they are: Very strong for long distances, Wide (900 to 1200 mm) Fast (3-6 mt/sec) High capacity (800 to 3000 tph) In-Plant conveyor: most commonly used inside the plants, velocities from 1 to 3 m/sec. Mining Op Hauling & transportation

Conveyor Belts Classification (2) COSTS Acquisition Cost is very high (1200 to 7000 USD/metre) Operating Cost is low: Labour Cost: very variable but low Power Cost: very variable and low (upwards: conveyor consumes; downhill: it generates energy) Annual Maintenance: 1 – 2 % of installed conveyor price. When reasonable, replacing stationary crusher by a Mobile crusher + Conveyors to reduce mobile fleet must be assessed Mining Op Hauling & transportation

Designing: Belt Width vs. Lump Size Mining Op Hauling & transportation

Outline Objectives Rock Transportation Methods Conveyor belts Gravity

Rock Transportation Methods - Gravity
Mining in Steep & Vertical Slope: Du Jiang Yan Lafarge Limestone Quarry in China Rock slide typically generate dust and an adverse visual impact High dipping Rock slide requires a safe unloading facility Mining Op Hauling & transportation

Mining in Steep & Vertical Slope: Du Jiang Yan Limestone Quarry Rock slide stoppage of rock slide during loading Loading trucks is performed when the rock slide is not utilized and vice versa Unloading area Mining Op Hauling & transportation

Mining in Steep & Vertical Slope: Du Jiang Yan Limestone Quarry Rock slide mining operation issues Problem to operate the rock slide at the same time with crusher. Cleaning of rock slide Flying stone Action done & to be done to Improve the mining operations Modification of some parts of the rock slide Cleaning the rockslide frequently Proper design for the second rock slide. Modification of the angle to avoid the remaining of sticky materials Mining Op Hauling & transportation

Mining in Steep & Vertical Slope: Lafarge Kanthan Limestone Quarry in Malaysia First Situation – Rock slides Mining Op Hauling & transportation

Mining in Steep & Vertical Slope: Lafarge Kanthan Limestone Quarry in Malaysia Intermediate Situation (Haul Methodology) – High Grade Slope Mining Op Hauling & transportation

Mining in Steep & Vertical Slope: Lafarge Kanthan Limestone Quarry in Malaysia Final Development Mining Op Hauling & transportation

Glory Hole in the Lafarge Exshaw plant in Canada Mining Op Hauling & transportation

Glory Hole in the Lafarge Exshaw plant in Canada Limestone is introduced in the system by dumping over a 16” grizzly. The boulders > 16” are crushed in the adjacent jaw crusher. The limestone falls in a glory hole and is carried towards the impact crusher via a conveyor belt Grizzly Bars above the glory hole Mining Op Hauling & transportation

Glory Holes and Tunnels in the Lafarge Tavernola Plant (Italy) The Tavernola Ca’Bianca quarry is in a mountain. It consist of crushing the shot rock to a 150mm size. It is then introduced in a series of three glory holes and transfer points till a secondary crusher and final stock pile of 0-80mm. Glory Hole Mining Op Hauling & transportation

Glory Holes and Tunnels in the Lafarge Tavernola Plant (Italy) Upper Tunnel Exit Glory Hole Transfer Point Glory Hole and Tunnel Project Mining Op Hauling & transportation

Haulers Type of Haulers Mining Op Hauling & transportation

Hauler – Type of Hauler The Quarry Hauler Types
Dozer (in a rip & push quarrying methodology) Wheel loader (in a load & carry quarrying methodology) Scraper (for soft limestone like marl or chalk) Trucks (on-road, quarry rigid frame or articulated) Wagon or Train wagon (rarely used in our operations) Mining Op Hauling & transportation

Hauler – Type of Hauler Dozer: Lafarge Harleyville Plant in USA. The dozer is ripping and pushing the marl to the semi-mobile lump breaker Mining Op Hauling & transportation

Possible mismatch between on-road trucks and other quarry equipment
Hauler – Type of Hauler On-Road Truck Used when transportation onto public road is required between the quarry shot rock face and the crusher at the plant. Reinforced rock boxes are offered for hauling shot rock, but typically do not last long. Re-lining the box is required. These trucks are not designed for hauling large piece of rock and therefore not ideal for shot rock applications. If these trucks are to be used, it is necessary to shoot the rock as fine as possible. Possible mismatch between on-road trucks and other quarry equipment Mining Op Hauling & transportation

Hauler – Type of Hauler Articulated Truck
Appropriate for poor underfoot, wet conditions and steep grades. Can be offered all wheel drive. Typically used for overburden removal, but there are also suitable shoot rock application models (lined rock boxes) The service life is shorter than in quarry trucks (rigid frame) ( 15,000 compared to 26, 000 hours) The truck load capacity range is from 25 to 40 tonnes Mining Op Hauling & transportation

Hauler – Type of Hauler Rigid Frame Truck
High horsepower to weight ratio Deep pits. Requires a well maintained smooth haul road surface. Can be used with any type of material ( e.g., blocky, free flowing, etc. ) Used for dumping into hoppers or over bank or fill Economic distance limited Mining Op Hauling & transportation

Hauler – Type of Hauler Wheel Loader
Frequently used with the Load & Carry quarrying methodology Consist of loading at the shot rock face and haul to the mobile crusher The economical hauling distance shall not exceed 100 meters It is necessary to select the proper tire brand for this application Mining Op Hauling & transportation

Hauler – Type of Hauler Scrapers
Used when the limestone body is soft (marl, chalk) A dozer is sometimes required to assist the scraper loading process by pushing it. This happens when wet conditions prevails or when the rock surface is slippery. Scrapers are known to be and economical hauling device when it can be utilized. Mining Op Hauling & transportation

Hauler – Type of Hauler Haulers Economical Distance of Transportation

Haulers Type of Haulers Selection Criteria's Mining Op Hauling & transportation

Hauler – Selection Criteria's
Criteria's to consider for the selection of haulers Production requirement and operating schedule Material characteristics Density in place and loose, swell Size distribution, Maximum and Minimum Hardness and texture Ease of handling Number and type of trucks selected should be based on overall system economics Select the fleet based on both operating and capital cost Mining Op Hauling & transportation

Criteria's to consider for the selection of haulers Physical and climatic conditions Effect of altitude on engine efficiency Effect of ambient temperature on engine cooling, tire performance, and use of lubricants Effect of rainfall, frost, snow, fog, etc. on road conditions and transportation Haul road characteristics Length, grade, and surface condition of segments Mining Op Hauling & transportation

Criteria's to consider for the selection of haulers Loading Space and ground conditions at loading point Type and size of loading equipment Total availability of loading equipment Dumping Dumping arrangements: rear dump into hopper, drive over hopper, edge of spoil, windrow, etc. Space and ground condition at dump point Total availability of down stream equipment Mining Op Hauling & transportation

Haulers Type of Haulers Selection Criteria's Characteristics and Specifications Mining Op Hauling & transportation

Hauler - Characteristics and Specifications
Hauler Dimensions vs. infrastructures and other equipment Mining Op Hauling & transportation

Hauler - Characteristics and Specifications
Matching the Hauler Productivity with the Productivity of the Loading Unit Mining Op Hauling & transportation

Haulers Type of Haulers Selection Criteria's Characteristics and Specifications Hauler Performance Mining Op Hauling & transportation

Hauler Performance The Factors Affecting the Hauler Performance
Rolling Resistance Grade Resistance Weight and Traction Altitude Deration Road Design Tires Fuel (Quality) Maintenance Operators and Mechanical skills Mining Op Hauling & transportation

Hauler Performance– Rolling Resistance
Measure of the force required to overcome internal bearing friction and the retarding effect between the tires and the ground (i.e., tire penetration and tire flexing) Expressed in terms of lb/ton vehicle weight or % vehicle weight Mining Op Hauling & transportation

Hauler Performance– Grade Resistance
Force required to overcome gravity when moving vehicle uphill. Expressed in % vehicle weight (adds power to vehicle downhill) Percent Grade = Vertical rise or drop (ft) x 100 Horizontal Distance (ft) e.g., 60 ft rise in 1,000 ft, Grade = 60/ 1,000 x 100 = 6% Horizontal Distance = (Horizontal distance2 + vertical distance2)1/2 e.g., (1, )1/2 = 1,001.8 ft Mining Op Hauling & transportation

Hauler Performance– Weights and Traction
Weights: determines the force required to propel vehicle Function of vehicle weight, rated capacity (CY), and density of material hauled, number of passes of excavator Traction: the force deliverable can be limited by traction conditions Usable rimpull is a function of road surface and weight on the drive wheels Usable Rimpull = Coefficient of Traction x Weight on Drive Wheels Mining Op Hauling & transportation

Hauling Performance – Road Design
Speed Limits: limits on curves, in pit, and on main haul roads Curves based on radius and super-elevation In pit, ramp, and main haul roads, the speed limit depends on haul road width and conditions Mining Op Hauling & transportation

Hauler Performance– Tires
Tire Impact Can reduce the hauler productivity by limiting load and speed Ton-mile-per-hour ratings should not be exceeded and depend on Weight (Flex/revolution) Speed (Flexes/period) Ambient Temperature Road Surface Temperature Mining Op Hauling & transportation

Hauler Performance– Tires
Tire KPI’s TMPH = Average Tire Load x Average Speed for Shift Average Tire Load = Empty Truck Tire Load + Loaded Truck Tire Load (tons) 2 Average Speed = Round Trip (mi) x Trips/Shift Total Hours (hr) Tire type may include a maximum speed and a resulting lower productivity Mining Op Hauling & transportation

Outline Objectives Rock Transportation Methods
Conveyor belts Gravity Haulers Type of Haulers Selection Criteria's Characteristics and Specifications Hauler Performance Hauler Production Estimation Mining Op Hauling & transportation

Hauler Productivity Estimation
Effect of acceleration, deceleration and operator skills Speeds obtained from performance curves in handbooks indicate maximum velocity under optimum conditions on a given profile These speeds must be corrected for acceleration, deceleration, and operator performance to yield reasonable haul and return times. F=Ma Simulation utilized to account for acceleration and deceleration Hauling cycle times simulations typically underestimate the real hauling cysle times Mining Op Hauling & transportation

Hauler Productivity Estimation
Estimating Hauler Cycle Time Hauler Loading Time: loading machine bucket size, fill factor, excavator cycle time, loose material density, and truck capacity (typically 2 min) Other Fixed Times: depend on loading method and dump configuration Spot and manoeuvre in loading area (typically min) Dumping (typically 1.2 – 1.5 min) Hauler Traveling Time (Loaded and Empty): Truck payload Effective work per hour Operating efficiency Grade and rolling resistance Speed limit Mining Op Hauling & transportation

Quarry Manager Development Program

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