Mining Methods-Part I-Surface mining

1. Topic 5: Mining Methods Part I-Surface mining Hassan Z. Harraz hharraz2006@yahoo.com 2010- 2011 This material is intended for use in lectures, presentations and as handouts to students, and is provided in Power point format so as to allow customization for the individual needs of course instructors. Permission of the author and publisher is required for any other usage. Please see hharraz2006@yahoo.com for contact details. The concepts indicated in these slides are considered common knowledge to those familiar with the field. Many of these ideas have been published in a variety of different texts and papers over time – no one of which was specificallyused as an outlinefor this work. Prof. Dr. H.Z. Harraz Presentation

2. About This Topic In this Topic, you will learn the various surface mining methods used to extract ore from near surface deposits. After completing this unit, you should be able to: Understand the geological factors for surface mining  Understand the engineering factors for surface mining  Explain what a placer deposit is   Understand the surface mining methods:  Open-pit mining.  Terrace mining.  Strip mining.  Contour strip mining.  Auger Mining  Glory Holing  Quarrying  Panning  Sluicing  Dredging  Hydraulic Mining  Heap Leaching  In-situ leaching (ISL) We will explore all of the above in Topic 5. Prof. Dr. H.Z. Harraz Presentation

3. Anatomy of a mine: Grasberg, West Papua Figure from Spitz and Trudinger, 2009

4. Choice of mining and processing methods: “The simple aim in selecting and implementing a particular mine plan is always to mine a mineral deposit so that profit is maximized given the unique characteristics of the deposit and its location, current market prices for the mined mineral, and the limits imposed by safety, economy, environment” (Text book definition: Spitz and Trudinger, 2009, my italics) (Social “limits” are not mentioned specifically!) Prof. Dr. H.Z. Harraz Presentation 2 February 2016 4

5. What is Surface Mining? Surface mine - A mine in which the ore lies near the surface and can be extracted by removing the covering layers of rock and soil. Almost all surface mining operations are exposed to the elements and require no roof support. Prof. Dr. H.Z. Harraz Presentation 2 February 2016 5

6. Evaluation of Surface Deposits The following outline lists the basic factors which must be taken into account for evaluation of a prospective surface mine :  Geography  Legal status of land and mining rights  Historical, political, and socialogical factors  Geology  Mining conditions  Ore treatment requirements  Economic analysis Geography: Topography, a function of location, affects cost of development and operation of a surface mine. Geographic location establishes climate. Location establishes the condition of remoteness from or proximity to civilization and its developed facilities such as transportation systems, power supply, labour pool, manufacturing and supply services, and specialty repair shops. Legal status of land and mining rights Land and other necessary rights should be checked, such as water use rights and the ability to acquire auxiliary land for plant site, roads, tailings disposal ground etc. Historical, political, and socialogical factors It is important to determine the extent and nature of national and local laws and regulations in regard to conservation, water use, water and air pollution, tailings disposal, reclaimation, handling of explosives, taxes, royalities, import duties, mining safety and health codes, wage and labour conditions, pension requirements, and unions.

7. Evaluation of Surface Deposits (cont.) Geology Geological evaluation may include wide-spaced drilling, drill-sample logging, testing and processing, plotting of the data on maps and cross-sections, preparation of specialized interpretive maps, calculation of reserves by grades, calculation of stripping requirements, groundwater studies, and economic analysis. Mining conditions The geometry of an ore body and the topography of the land surface beneath which the ore body exists will affect the kind and cost of a surface mine. The depth and character of overlying rock and the physical characteristics of the wall rock also affect the configuration and cost of a surface mine. Ore treatment requirements Almost every potential surface mine must consider some phase of product upgrading (benefication). This may vary from a simple crushing and sizing operation to a complex operation including multiple stages of size reduction, concentration and agglomeration. In many cases, pilot-scale testing is deemed advisable. Economic analysis In the broadest sense, economic analysis for a surface mine involves the determination of market value of the product and all the elements of cost of production. By subtraction, a margin of profit (or loss) can be calculated. Many new surface mines require very high capital investments. There are 3 commonly used yardsticks to value investment worth : i) Degree of necessity, ii) Payback period, and iii) Rate of return (IRR) .

8. History The history of surface mining is essentially that of mining coal, copper, and iron ores, and the nonmetallic minerals - clays, gypsum, phosphate rock, sand, gravel, and stone. Changing public policy is exerting strong pressure favouring a reduction or elimination of surface mining; and, since the economic differences between surface and underground mining for the remaining mineral resources is narrowing, this increasing force may become the deciding factor in determining the future trend in surface vs, underground mining. Prof. Dr. H.Z. Harraz Presentation 2 February 2016 6

9. Surface mining:  Mineral deposits are on or near the surface of the Earth and are removed.  This is the traditional cone-shaped excavation (although it can be any shape, depending on the size and shape of the orebody) that is used when the ore body is typically pipe-shaped, vein-type, steeply dipping stratified or irregular.  Although it is most often associated with metallic orebodies, (e.g., Palabora copper, Mamatwan and Sishen iron-ore), it can be used for any deposit that suits the geometry – most typically diamond pipes – (e.g., Venetia, Koffiefontein and Finsch). Surface mining is the predominant exploitation method worldwide. In the USA, surface mining contributes about 85% of all minerals exploitation (excluding petroleum and natural gas). Almost all metallic ore (98%) and non-metallic ore (97%), and 61% of the coal is mined using surface methods in the USA (Hartman and Mutmansky, 2002). Surface mining requires large capital investment (primarily expensive transportation equipment), but generally results in:  High productivity (i.e., high output rate of ore).  Low operating costs.  Safer working conditions and a better safety record than underground mining. Prof. Dr. H.Z. Harraz Presentation 2 February 2016 7

10. Surface Mining methods Controls of Gold Mineralization - LCS Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 10 2 February 2016

11. Steps of Surface Mining Operation: Strip out overburden (becomes spoils) Traditional surface mining methods fall into two broad categories based on locale: i) Mechanical excavation methods {such as: Open-pit (or Open-cut or Open-cast); Terrace; and Strip mining}. ii) Aqueous methods {such as: Placer and In-situ leaching (ISL)/ Solution mining}. Clean up (reclamation) Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016 11

12. Table : Subdivided surface mining methods (Bohnit, 1992) Method Subclass Method  Open-pit (or Open-cut or Open-cast) mining.  Terrace mining.  Strip (flat terrain) mining.  Contour strip (hilly terrain) mining.  Auger Mining  Glory Holing  Quarrying Mechanical excavation  Panning  Sluicing  Dredging  Hydraulic Mining Placer Aqueous Heap Leaching   In-situ leaching (ISL) Solution Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 10 2 February 2016

13. Figure shows major surface mining methods

14. Mineral Extraction • Surface Mining: overburden (soil and rock on top of ore) is removed and becomes spoil. • 1. open pit mining – digging holes • 2. Dredging – scraping up underwater mineral deposits • 3. Area Strip Mining – on a flat area an earthmover strips overburden • 4. Contour Strip Mining – scraping ore from hilly areas

15. 1) Mechanical Extraction Method  a thick deposit is generally mined in benches or steps,  although thin deposits may require only a single bench or face. Of all the variations of mechanical surface excavation mining methods available, the three most common methods only will be described here, namely: 1.1. Open-pit (or Open-cut or Open-cast or quarry) mining. 1.2. Terrace mining. 1.3. Strip (flat terrain) mining. 1.4. Contour strip (hilly terrain) mining. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

16. Figure refers to Classification of Surface mining methods (Bullivant, 1987) Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

17. OPEN PIT MINING

18. Open pit • Used when ore bodies lie near the surface • Large hole exposes the ore body • Waste rock (overburden) is removed • 2ndcheapest method, but has the largest environmental impact. Why? Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

19. Basic Concept Although the basic concept of an open pit is quite simple, the planning required to develop a large deposit for surface mining is a very complex and costly undertaking. At one mine, it may be desirable to plan for blending variations in the ore so as to maintain, as nearly as possible, a uniform feed to the mill. At another operation it may be desirable to completely separate two kinds of ore, as for example, a low- grade deposit where one kind of "oxide" ore must be treated by acid leach, but a second kind of "sulfide" ore must be treated by different methods. The grade and tonnage of material available will determine how much waste rock can be stripped, and there is often an ultimate limit to the pit that is determined more by the economics of removing overburden than a sudden change in the ore deposit from mineral to non-mineral bearing material. The ultimate pit limit and the slope of the pit walls are therefore determined as much by economics and engineering as by geological structure. Material that is relatively high grade may be left unmined in some awkward spot extending back too deeply beneath waste The typical large open pit mining operation that has been in production for 10 years and more is operating under conditions that could not possibly have been foreseen by the original planners of the mine. Metal prices, machinery, and milling methods are constantly changing so that the larger operations must be periodically reevaluated, and several have been completely redeveloped from time to time as entirely different kinds of mining and milling operations. Sometimes the preliminary stripping of the waste overburden is contracted to firms specializing in earthmoving. Mining is usually done by track-mounted electric shovels in the large operations, and by rubber-tired diesel front-end loaders in the smaller operations. Scrapers are sometimes used in special situations. Large bucket-wheel excavators of the kind used in European coal mines have not been applied to metal mining, because this equipment is best adapted to softer bedded, relatively flat-lying strata.

20. 1.1) Open pit Mining method • Mine working open to the surface. • Funnel shaped hole in ground, with ramp spiraling down along sides, allows moderately deep ore to be reached. • Operation designed to extract minerals that lie close to the surface • It is used when the orebody is near the surface and little overburden (waste rock) needs to be removed. • It is usually employed to exploit a near-surface deposit or one that has a low stripping ratio. • Waste is first removed, then the ore is broken and loaded. • Generally low grade, shallow ore bodies. • Non-selective  all high and low grade zones mined • Mining rate > 20,000 tons mined per day (tpd). • It often necessitates a large capital investment but generally results in high productivity, low operating cost, and good safety conditions. • Design issues: Stripping overburden Location of haul roads Equipment  size of trucks and fleet Pit slope angle and stability Surface Mining methods (Open pit Mining method) Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

21. Catch Berm Typical Bench Wall Typical Haul Road Typical Non-haul Road bench Outside Dump Top of Main Ramp Out of Open Pit Drill rig Drilling Out a New Pattern Loaded Haul Truck Going to Run of Mine Stockpile Shovels loading haul trucks Drilled out pattern about to be charged with explosives Empty haul truck returning to shovel Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining Typical Open Pit Mine 2 February 2016 21

22. open pit mining: funnel shaped hole in ground, with ramp spiraling down along sides, allows moderately deep ore to be reached. Initial mining for zinc at Franklin and Ogdensburg, New Jersey-USA. Photo I took at Bingham. 4 km in diameter 1 km in depth, at its zenith 400000 tons of rock per day

23. Open-pit mine: Chuquicamata copper mine, Región de Antofagasta, Chile http://upload.wikimedia.org/wikipedia/commons/2/2a/Chuquicamata_panorama.jpg Benches Access ramps Dust Locality: Región de Antofagasta, Chile. Pit dimensions: 4.3 km long x 3 km wide x 850 m deep. Mining dates: 1915 -present Total production: 29 million tons of copper to the end of 2007 (excluding Radomiro Tomić production). For many years it was the mine with the largest annual production in the world, but was recently overtaken by Minera Escondida (Chile). It remains the mine with the largest total cumulative production. Production 2007: 896,308 fine metric tons of copper (Codelco, 2007). Mining cost in 2007: 48.5 US¢ per kg (2006), 73.0 US¢ per kg (2007) (Codelco, 2007). Employees: 8,420 as of 31st 2007 (Codelco, 2007). Pre-tax profits: US$ 9.215 billion (2006), US$ 8,451 billion (2007) (Codelco, 2007). Slope failure Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016 23

24. Overburden Removal Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

25. Removing Overburden

27. Some photos and machinery used in open-pit mining A Dragline Shovel Loading ore in pit

28. Haulage is usually by truck, although railroads, inclined rails, and conveyor belts have been used. The conveyance unloads directly into a primary crusher and crushed material is stored in coarse ore bins prior to shipment to the mill. Blastholes are usually drilled vertically by self- propelled, track-mounted pneumatic or rotary drills. Bulk explosives are loaded in the holes and large volumes of ore are broken in a single blast. Sometimes the drill holes are routinely sampled and assayed to help plan the position of the shovels in advance of mining. Blasthole assay control is especially desirable when exploration data are incomplete or lacking as in the case in the older pits which have long been mined past the limits of "ore" used in original planning.

29. Mining Trucks Crushing in pit Drilling in pit *To the left is a photograph of a Liebherr 360 ton (327 metric ton) haul truck. This unit is powered by a 2750 horse power engine and weighs 443,000 pounds (177 tons) empty... Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

30. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

31. Benching Figure shows Open pit Mining method Bench level intervals are to a large measure determined by the type of shovel or loader used, and these are selected on the basis of the character of the ore and the manner in which it breaks upon blasting and supports itself on the working face. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

32. Figure 2.8 Open-pit mining sequence (for pipe-like orebody) Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

33. Various open-pit and orebody configurations Flat lying seam or bed, flat terrain (Example platinum reefs, coal). Massive deposit, flat terrain (Example iron-ore or sulphide deposits). Dipping seam or bed, flat terrain (Example anthracite). Massive deposit, high relief (Example copper sulphide). Thick bedded deposits, little overburden, flat terrain (Example iron ore, coal). 33 Figure from Hartman and Mutmansky, 2002.

34. 1.2) Terrace Mining • Where the overburden is too thick {or the floor of the pit (i.e., The ore inclination) is too steeply dipping} to allow waste dumping directly over the pit (as is the case with a dragline and strip mining), it is necessary to use intermediate cyclic or continuous transport (e.g., trucks or conveyors) to transport the overburden to where it can be tipped back into the previously mined void. It is a multi-benched sideways-moving method, the whole mine moves over the ore reserve from one end to the other, but not necessarily in a single bench. The number of benches used is usually a function of the excavation depth and type of machinery used (typically between 10-15m bench height and 1-32 benches in the terrace). Where steeply dipping orebodies are encountered, the modified method is most often applied, a more typical 3 waste bench terrace operation with steeply dipping orebody. In this case, the pit dimensions are limited by seam exposure (pit length) and available working area (for mining and dumping faces) (pit width). • • Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

35. 1.3) Strip Mining Used for near-surface, laterally continuous, bedded deposits such as coal, stratified ores such as iron ore, and surficial deposits (nickel laterite or bauxite). When orebodies are flat-lying and close to surface, it is sometimes economical to remove the overlying rock to expose the orebody. Strip mining is ideally applied where the surface of the ground and the ore body itself are relatively horizontal and not too deep under the surface, and a wide area is available to be mined in a series of strips. The surface soil is stripped off and stockpiled for later land reclaimation. A stripping dragline with a long-boom or long reach shovels are common. The pits are shallower that open-pit mines, and the overburden is “hind-cast” directly into adjacent mined out panels. It is a very low-cost, high-productivity method of mining. Typical examples of this type of mining are the larger tonnage coal mining operations in Mpumulanga. Favourable conditions are:  Relatively thin overburden (0-50 m maximum otherwise stripping ration and cost of stripping becomes too high).  Regular and constant surface topography and coal layers (not more than 20º variation from horizontal on the coal seam –topography can vary more since pre-stripping can be used to level it – but this is expensive to apply).  Extensive area of reserves (to give adequate life of mine (LOM) and to cover all capital loan repayments – typically more than 20 years life at 4-14mt per annum production). Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

36. Production 1) Electric drills prepare the overlying strata for blasting. 2) Removal of broken ore. 3) Removal of broken rock. 4) Extraction of upper ore seam. 5) Removal of upper ore.

37. Strip Mining: Strip Mining: The cheapest and safest method, but can have a significant impact environmentally on the surface. 1) Electric drills prepare the overlying strata for blasting. 2) Removal of broken ore. 3) Removal of broken rock. 4) Extraction of upper ore seam. 5) Removal of upper ore. Why……………..? The ore is close to the surface of the land (30m) but has one or more layers of rock and dirt on top of it. To mine the ore, these layers have to be taken off. This mining is done in long, narrow strips. When the ore is done in one strip, the miners begin to create another strip next to it. The waste, dirt, and rock that they take off of the top of the next strip is put on top of the last one. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

38. Strip Mining Large-scale continuous bucket excavators are gaining popularity. These large scale machines are designed for high capacity output and are tremendous in size, highly productive, and very expensive. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

39.  Strip-mining: Blast, scoop off rock overburden, and then scoop out ore material. Fairly shallow.  Economics of strip mining depend on stripping ratio  Large land area can be involved, especially for coal and bauxite. Strip mining. Example: Alcoa’s Sierra de Bahoruco Aluminum mining in D.R. Southern Peninsula until 1985

40. "Strip mining" is the practice of mining a seam of mineral by first removing a long strip of overlying soil and rock (the overburden). It is most commonly used to mine coal or tar sand. Strip mining is only practical when the ore body to be excavated is relatively near the surface. This type of mining uses some of the largest machines on earth, including bucket-wheel excavators which can move as much as 12,000 cubic meters of earth per hour. There are two forms of strip mining. The more common method is:- i) "Area stripping", which is used on fairly flat terrain, to extract deposits over a large area. As each long strip is excavated, the overburden is placed in the excavation produced by the previous strip. ii) "Contour stripping" involves removing the overburden above the mineral seam near the outcrop in hilly terrain, where the mineral outcrop usually follows the contour of the land. Contour stripping is often followed by auger mining into the hillside, to remove more of the mineral. This method commonly leaves behind terraces in mountain sides. Among others, strip mining is used to extract the oil-impregnated sand in the Athabasca Tar Sands in Alberta. It is also common in coal mining. Bucket-wheel excavators are widely used for this purpose, however, they are prone to damage and require many millions of dollars to repair. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

41. Schematic of strip coal mine http://en.wikipedia.org/wiki/File:Coal_mine_Wyoming.jpg Coal strip mine in Wyoming Figure from Hartman and Mutmansky, 2002. • Significant “permanent” waste dumps are not needed. • Mine rehabilitation can be carried out progressively at the same rate as mining. Area Strip Mine (Coal) Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

42. Strip Mining Coal Mine Shovel-Truck Operation 200 T Haulage Truck Prof. Dr. H.Z. Harraz Presentation Mining Geology, Introduction 2 February 2016 42

43. Strip Mining Example: coal, placer Kansas Geological Survey Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

44. http://en.wikipedia.org/wiki/File:Bagger-garzweiler.jpg The Bagger 288 is a bucket-wheel excavator used in strip mining. Figure shows Strip mining with dragline (on overburden) and rope shovel (below, loading coal) Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

45. Large bucket wheel extractor being moved through Germany. Moves 10 meters per minute. Takes 5 people to operate. Used in strip mining

46. 1.4. Contour strip (hilly terrain) mining or Contour (Bench) Strip Mining “Highwalls” Contour Mining in KY Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

47. OPEN CAST Mining Process Drilling | Blasting | Loading | Hauling | Transporting | Processing/Washing Drill machines (rotary/percussive) | SMS, emulsion, Primer, Nonel, etc | Shovels, Draglines, etc | Front-end loader, etc | Dumpers, Conveyors, etc | Coal washeries… SURFACE MINER DRAG LINE IN-PIT CRUSHING & CONVEYING Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

48. • Stripping Ratio – in case of Opencast. • Life of the mine. • Infrastructure available. • Proposed annual output. • Technology available. Selection of Mining Equipment 1. Shovel + Dumper 2. Dragline 3. Surface Miner 4. Bucket Wheel Excavator 5. In-pit crushing + Spreader Different OC Machinery Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

49. 1.4) Glory Holing This kind of operation is uncommon, as it involves a mine opening at the surface, from which ore is removed by gravity through raises connected to adit haulage ways beneath, and by tramming the ore to the surface on the haulage level. The glory hole method is best suited to mining on a hillside, and irregular deposits can be cleanly mined without dilution by waste wall rock. Narrow veins have been mined by glory hole; in these cases the “hole” becomes narrow and long. The benches are mined away as work descends to the bottom of the deposit or to the haulage way, so that spectacular steep side walls may result if the walls do not slough in. Mining can be quite selective, and little waste rock is thrown on the surface dumps. The principal environmental objection to the method is difficulty in reclamation of the surface of the mine area. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016

50. 1.5) Auger Mining AUGER MINING refers to a method of removing coal, clay, phosphate, oil-shale, etc. from thin seams exposed in deep trenches or high-walls in strip mines. The auger consists of two principal pieces. The first is a cutting head, generally from 1.5 to 8 feet in diameter. It may be single or multiple. The second is a prime mover, usually a skid mounted carriage, providing a mounting for the engine, drive head, and controls. As coal arrives at the surface it is transported via a conveyor belt or a front- end loader to a waiting truck. Operations are usually low- cost and highly productive, but recovery ranges from 40 to 60%. It can be implemented with relatively low capital costs. Prof. Dr. H.Z. Harraz Presentation Mining Methods, Surface mining 2 February 2016