Mined raw materials travel along extensive transport routes. Ores, raw salt feeds, waste rock, and overburden pass through various steps from mine to mill (mining, material transfers, comminution, mineral processing, hydrometallurgy, filtration and tailings disposal). Our systems ensure smooth, economical, and environmentally friendly processing at each stage of materials handling. From mining to product shipping we have the solutions you need.

Pipe Conveyors overcome challenging terrain. The flexible tubular shape means pipe conveyors can overcome steep inclines and thus make transfer towers and power stations redundant. This is a key factor, especially in comparison to other conveyor belt systems. When a pipe conveyor must traverse a downward incline, this motion can be used to efficiently recover energy. The structurally flexible, low-maintenance system with a small footprint can conquer even the most challenging terrain and keep existing facilities in use and in place. 

Whether for vertical transport hot or cold materials – BEUMER belt bucket elevators ensure an economic vertical transport of fine or coarse bulk material up to large heights. They are highly reliable with long service time, even under strong ambient conditions. They have proven their reliability in thousands of installations in continuous operation, e.g. for silo feeding or in the cement industry for feeding the preheater tower. Download the brochure to learn more.

Does the market demand higher throughput? No problem: The BEUMER paletpac® high-performance palletiser could be your answer. Our palletisers and palletising systems can stack exceptionally high quantities of robust, bagged products onto pallets and then move them carefully, safely and economically. Take the opportunity to increase your production with an automated palletising process. 

Learn how BEUMER helped modernize and increase the performance of the plant between the longitudinal stockyard and the ship loading system for ASEAN Bintulu Fertilizer.

The BEUMER autopac® is an efficient and cost-effective system for simultaneous loading and palletising of bagged materials such as cement, lime or gypsum. In either a mobile or static configuration, it offers a wide range of applications guaranteeing optimum utilisation of dispatch capacities. Download the brochure to learn more.

FAM Minerals & Mining GmbH, as part of the BEUMER Group, is a globally active company headquartered in Germany with a long history as a manufacturer of conveying systems dating back to the 19th century. As one of the leading suppliers, FAM Minerals & Mining GmbH offers machines along the complete transport chain for bulk materials. From extraction, conveying, loading and storage to the processing of various raw materials, FAM Minerals & Mining GmbH offers efficient solutions for different industries. FAM as part of the BEUMER Group combines many years of know-how in series and individual production and offers high-quality engineering as well as extensive service. Download Whitepaper to learn more.

Retrofit is playing an increasingly important role in material flow, especially in most critical conveying equipment. With systems that are always up to date, you as an operator achieve, among other things, higher performance, and availability of the plant. In addition, energy consumption is minimized and working conditions become more ergonomic. But you also get new functions and improved plant utilization. André Tissen, our Director of Sales Customer Support shows in this video why rebuilding and modernization are worthwhile and what advantages the user has. You should not miss this video. 

A lot will change in the cement industry in the coming years: increasing digitalization, more use of alternative fuels, and the growing need for automation. Added to this is the changeover from 50- to 25-kilogram bags in some countries. This will pose a major challenge in the market.

BEUMER was founded in Beckum, Germany, in 1935 as a manufacturing company for conveyor equipment, and its first order came from the cement and lime industry in Westphalia. Since then, products and solutions have been manufactured worldwide for the cement industry. Today, BEUMER Group is an experienced, internationally active operator in the cement industry and has the right solution ready for any challenge in conveyor, loading, silo, filling, palletising or packaging technology. Download the brochure to learn more.

The right loading technology is crucial for efficient and safe delivery of your products to your customers. Whether trucks, railway cars or ships, BEUMER Group can offer the ideal solution for any loading or unloading task. The actual loading machine forms the centre. The entire loading system is planned, manufactured and installed around it, depending on the customer’s requirements and on the products to be conveyed. BEUMER Group loading systems offer economic efficiency, easy operation, and high performance. Download to learn more.

Belt conveyor systems can solve complex transport problems involving bulk materials of all kinds. When choosing the components of a system, you have to consider factors like wear resistance and maximum permissible slopes. How is the BEUMER Group able to develop the perfect solution for your application and deliver it to you? You’ll get answers from Christoph Dorra, Regional Sales Manager for South America, Conveying and Loading Systems, and Martin Rewer, Team Leader for Overland Conveyors.

A bag of cement has a long journey behind it before it arrives at the building site. Between being quarried, processed, and supplied as the finished product, the material passes through many different stages. At each of these stages, special systems are in place to ensure the process is smooth, economical, and environmentally friendly: systems from BEUMER Group. Systems you can rely on – whether the job involves conveying, loading, or packaging cement.

A bag of cement has a long journey behind it before it arrives at the building site. Between being quarried, processed, and supplied as the finished product, the material passes through many different stages. At each of these stages, special systems are in place to ensure the process is smooth, economical, and environmentally friendly: systems from BEUMER Group. Systems you can rely on – whether the job involves conveying, loading, or packaging cement.

For Viewpoint customers seeking new scale ticketing software, Fast-Weigh delivers direct integration with Viewpoint’s Vista™ and Spectrum® ERP platforms. Fast-Weigh is the leading cloud-based material ticketing platform, providing centralized operations management to companies of all sizes.

The Fast-Weigh eTicketing suite is an all-in-one cloud ticketing platform that allows for a completely paperless operation while ensuring compliance with the latest DOT regulations. With our eTicketing solution, your team will gain unprecedented access to live ticketing data and proof of delivery tracking from any mobile device.

Fast-Weigh is the industry’s first cloud truck scale ticketing and accounting software for aggregate sales and logistics — dispatching, load-out, ticketing, billing, delivery, payment processing, and more.

Gossett Concrete Pipe Co. operates from a 30-acre site that houses two manfacturing plants—one designed for production of small and mid-range-diameter concrete pipe and one for box culverts and large-diameter pipe.The company utilizes materials handling equipment to move pipe within the manufacturing facility, transport it to storage areas across the yard, and onto flatbed trucks for delivery.

Gossett Concrete Pipe Co. operates from a 30-acre site that houses two manufacturing plants—one designed for production of small and mid-range-diameter concrete pipe and one for box culverts and large-diameter pipe.The company utilizes materials handling equipment to move pipe within the manufacturing facility, transport it to storage areas across the yard, and onto flatbed trucks for delivery.

Ensure that your plant has a good inventory of spare parts on hand by learning how to collect the data necessary to build your own spare parts inventory model.

How can the overall performance of your plant be determined? Most plants calculate availability, or the percent of the time the plant or a particular circuit is operating, as well as overall production and recovery. But, is this information enough? Does it provide sufficient fine-grained information on where improvements can be made? This paper suggests five quantitative factors applied to a plant or to individual parts of a plant that identify the productivity of the plant—in other words, its productivity profile.

In this interactive PDF, we talk about common training myths and our responses.

How can the overall performance of your plant be determined? Most plants calculate availability, or the percent of the time the plant or a particular circuit is operating, as well as overall production and recovery. But, is this information enough? Does it provide sufficient fine-grained information on where improvements can be made? This paper suggests five quantitative factors applied to a plant or to individual parts of a plant that identify the productivity of the plant—in other words, its productivity profile.

Founded in 1983, Performance Associates International (PAI) is the worldwide leader in mine and plant industrial training. Our custom training modules and on-site training have improved start-up success and operations for clients on nearly every continent. We invite you to experience one of our e-learning training modules. Here you will see a video demonstration of a sample principle of operation from an e-learning module. A principle of operation describes in detail how a piece of equipment or a process works. In this sample, you will learn about Jameson Cell flotation technology and how its design allows for more efficient mineral separation in a much smaller tank than traditional column and mechanical flotation cells. We describe in detail the key components of the Jameson Cell and the operating principles. At the end of the module, a test will help assess what you learned. In a full training program, test results can be recorded and tracked in an LMS. A principle of operation like this would be only one of many included with a full plant operations training program. Note: This is a sample and does not contain the Jameson Cell training module in its entirety. If you would like to try out this e-learning module, please contact Kenneth Slack at [email protected] or +1-520-544-2220.

The geology report, feasibility study, and mine plan look great. Why do so many mining project start-ups fail to perform? Most mining companies put a great deal of emphasis on the nature of the reserve, the mine plan, the extraction process to be used, and the process plant design—obviously all very important. Even when large, highly regarded engineering, procurement, and construction firms develop the project, operating results are very often disappointing. In this paper, we explore the role of Operations Readiness on the financial impact of mining project start-ups. A relatively small investment in operations readiness produces a huge financial return. Many investment firms, as well as mining company senior executives, fail to consider this important factor in operating success.

Blue Ridge Beverage Company, Inc., is one of the largest, full-service wholesale beverage distributors in Virginia. When Blue Ridge Beverage Company built a 40,000 square-foot warehouse expansion at its Salem headquarters, the goal was to extend the joint spacing beyond the traditional 15’ to match the column lines.

Blue Ridge Beverage Company, Inc., is one of the largest, full-service wholesale beverage distributors in Virginia. When Blue Ridge Beverage Company built a 40,000 square-foot warehouse expansion at its Salem headquarters, the goal was to extend the joint spacing beyond the traditional 15’ to match the column lines. 

With reference to greenfield plant projects, using process simulators similar to the designed plant Human-Machine Interface (HMI) or Distributed Control System (DCS) has become common practice. These simulators represent a “virtual plant” based on process modeling of the circuit chemistry and thermodynamics, and on the physical nature of the plant, including equipment, valves, piping, etc. The virtual plant allows trainees to troubleshoot problems, optimize process variables, react to alarms, etc., all based on the process simulation model.  Performance Associates’ experience is that this complex simulator training is valuable, but only after more in-depth training on the process and control logic. To truly optimize a process plant, prior to simulator training, the control room operators must have detailed knowledge of the following:Process objective of each process system, comprising a group of unit operations.Process objective of each unit operation.Process chemistry and the variables affecting it.Important characteristics of each unit operation, the variables affecting it, and the impact on downstream unit operations.Plant control loops, interlocks, and alarms.Safety issues related to the process and control schemes.Operating procedures for start-up and shutdown under various scenarios, as well as important operator tasks.Additionally, trainees must be intimately familiar with the applicable fundamental scientific concepts, such as pressure, temperature, heat exchangers, electricity, PID control logic, combustion, etc. With this fundamental and plant-specific foundation, the process simulator can be fully exploited for training. 

With reference to greenfield plant projects, using process simulators similar to the designed plant Human-Machine Interface (HMI) or Distributed Control System (DCS) has become common practice. These simulators represent a “virtual plant” based on process modeling of the circuit chemistry and thermodynamics, and on the physical nature of the plant, including equipment, valves, piping, etc. The virtual plant allows trainees to troubleshoot problems, optimize process variables, react to alarms, etc., all based on the process simulation model. Performance Associates’ experience is that this complex simulator training is valuable, but only after more in-depth training on the process and control logic. To truly optimize a process plant, prior to simulator training, the control room operators must have detailed knowledge of the following:  Process objective of each process system, comprising a group of unit operations.  Process objective of each unit operation.  Process chemistry and the variables affecting it.  Important characteristics of each unit operation, the variables affecting it, and the impact on downstream unit operations.  Plant control loops, interlocks, and alarms.  Safety issues related to the process and control schemes.  Operating procedures for start-up and shutdown under various scenarios, as well as important operator tasks. Additionally, trainees must be intimately familiar with the applicable fundamental scientific concepts, such as pressure, temperature, heat exchangers, electricity, PID control logic, combustion, etc. With this fundamental and plant-specific foundation, the process simulator can be fully exploited for training.

Developing a profitable mining venture is no small matter. It requires enormous initial investments in research, construction, and equipment. But a mineral processing plant does not run itself. Even with the best equipment and good ore quality, optimal results are dependent upon keeping the process running smoothly, avoiding process upsets, maintaining process variables in the desired range, and minimizing breakdowns and downtime. A highly trained workforce is an essential element in a successful, and profitable, start-up. The knowledge and abilities of plant operators and maintenance personnel can make or break an operation. Trained operators know what to look for during preoperational and routine inspections, allowing maintenance tasks to be planned and unexpected costly breakdowns avoided. Trained operators know what variables exist at different stages in the process and how to make appropriate adjustments in real time. Trained maintenance personnel are well acquainted with the plant equipment, and maintenance planners can schedule work and maintain a spare parts inventory to minimize downtime. Additionally, new operations that train their workforce just prior to plant commissioning can utilize their operators in the commissioning process. Having been trained and gained field experience through plant commissioning, operators are ready to hit the ground running once feed is introduced. A faster ramp-up means more earnings, more quickly. The cost of developing a proper training program is a small percentage of the overall engineering, procurement, and construction budget but it constitutes a large percentage of the gains realized from a successful start-up and ramp-up to full production. Performance Associates International (PAI) has designed and presented custom training programs for operators and maintenance personnel in metallurgical plants around the world for over 35 years. We are proud to have been part of the successful start-ups at Lundin Mining’s Eagle Mine, Vale’s Voisey’s Bay project, and Torex Gold’s El Limon-Guajes project. Click Download to view the actual vs. projected start-up results from these three metallurgical plants that made use of PAI’s custom-built training programs and on-site training.

During the final stages of metallurgical plant construction there is tremendous pressure to commence production. More often than not, there will have been budget overruns and schedule delays. Corporate management and investors are naturally anxious to generate cash flow. This pressure may evolve into a fast-track culture regarding the commissioning and start-up. www.perfnet.com 

During the final stages of metallurgical plant construction there is tremendous pressure to commence production. More often than not, there will have been budget overruns and schedule delays. Corporate management and investors are naturally anxious to generate cash flow. This pressure may evolve into a fast-track culture regarding the commissioning and start-up.  www.perfnet.com 

Three dimensional animations integrated into a process plant computer-based training (CBT) program can greatly enhance trainee understanding of process equipment. This introductory maintenance manual and animation provides a narrative description of a jaw crusher’s location in the process, its function, components, and maintenance requirements. The animation introduces maintenance personnel to the jaw crusher in a dynamic visual context. The narrated animation replaced the standard text and graphics in the description section of the equipment maintenance (CBT) module. The descriptive text was adapted to a narrative form. Multimedia specialists used engineering drawings and photographs to create models of the equipment and animate the modeled images to illustrate the key concepts and components in concert with the narration.

Excellence in Mining, Process Plant, Maintenance, and Safety Training  Performance Associates International, Inc. (PAI) is the world leader in online and on-site training for the mining industry. We provide organizations with a single source for assessments, skills training, continuing education, safety training and compliance mandates, and more. Our first-class content guides your staff to gain the critical knowledge they need to work safely and efficiently today.  Our proven, leading-edge industrial training programs improve performance in existing operations and ensure success during the start-up of new operations. Our training programs have saved companies millions in personnel accident prevention, production loss, and equipment damage. We partner with our customers and consult collaboratively to provide the analysis and content development to meet your needs.  Services PAI Offers  Plant Operator Training Our three-tier concept for effective plant operator training starts with fundamental knowledge and progresses to plant-specific concepts that are reinforced through detailed animations and interactive simulations.  Maintenance Training We custom build state-of-the-art maintenance training programs using exploded graphics, explanatory text, detailed procedures, and management systems.  Mobile Equipment Operator Training Our first-class training program focuses on operator controls and indicators, safety, and performance optimization. It also includes operating, emergency, and troubleshooting procedures. Commissioning and Start-Up We can identify, track, and control the thousands of activities that must occur for the successful commissioning and start-up of a process plant. There is no shortcut to a successful start-up. Testing and Tracking Systems We can help manage and track the performance of employees to improve the overall performance of the mine and plant industrial training programs. Our testing and tracking systems provide invaluable assistance in safety and operational compliance.  Introductory and Safety Training Off-the-shelf introductory and safety training packages are an excellent source for mine and plant industrial training courses. They provide fundamental knowledge and basic training concepts. Now offering online courses! E-Learning, Animations, and Simulations Our interactive e-learning keeps trainees focused and engaged. Our experienced in-house multimedia team develops state-of-the-art graphics, virtual and mixed reality training, stunning 3D animations, and technically engineered simulations of real-world scenarios. Other Services We also provide many services relevant to planning, analyzing, and evaluating process plants, including: ·         Operations readiness plan. ·         Planning studies. ·         Quality management. ·         Systems implementation. ·         Statistical process control. ·         Reliability-based asset management. ·         Productive capacity studies. ·         Surveys and needs analyses. ·         Economic life analysis. ·         Process control strategies and methods. ·         Debottlenecking and process optimization. ·         Spare parts inventory and analysis. ·         Feasibility studies. ·         Consulting assistance. Consulting * Gap Analysis * Content Development * LMS * On-Site * Train-the-Trainer * E-Learning * Process Plant Optimization * Training * Safety * Mine Training * Plant Operator Training * Maintenance * Mobile Equipment * Competencies * Commissioning  

Spivey Disposal, the leading hauler and construction and demolition (C&D) recycler in southeastern Virginia, needed to replace their concrete tipping slab due to the abrasive environment of the waste separation facility. The life expectancy of a typical concrete tipping slab is a very short 3 to 4 years. Spivey needed a longer, more durable concrete life. PREVent-C technology, in combination with 1.5" steel fiber, allowed for a jointless slab solution with high impact resistance and a compression strength of 7000 psi.

No, I’m not talking about piles of leftover debris or even the kind of “trashy” look that’s common on construction sites. While neatness is nice, especially on a highly visible site, the waste I’m referring to is all those insidious, sometimes hidden, wastes that may not look messy but can make a real mess of budget forecasts and construction schedules.Jobsite waste – and the losses it creates – is a serious problem throughout the HBM industry. In fact, according to a 2016 McKinsey study, “Large projects across asset classes typically take 20 percent longer to finish than scheduled and are up to 80 percent over budget.”Most budget overruns are not the result of leftovers or throwaways. Most are a result of squandering 1) time, 2) motion, and/or 3) accuracy. Eliminating waste is an ongoing challenge, but these best practices can help you recognize – and correct – this resource-draining scourge:1) TIME. Wasting time is probably the most common and costly jobsite activity, especially since it’s virtually always unintentional and unobtrusive. What’s the best way to spot it? Recognize that all wait time is wasted time. Any person, place or thing that sits idle or is not ready when needed is generating waste.When workers wait on instructions or tools or equipment or approval or inspection, their time is being wasted. When tools, parts or equipment are unavailable or inoperable, time is being wasted. When one process or procedure is stalled waiting for another to be completed, valuable time is being wasted.Wasted time typically results from inadequate planning, communication or resource allocation, so invest in these time-saving, preventive measures instead:·         Begin with informed planning that includes all pertinent people. Early integration and transparent information sharing improve efficiency at every operational stage.·         Forecast construction schedules, budgets and requirements so that you can realistically anticipate tools, materials and labor.·         Create and communicate contingency plans so that the entire crew stays up to date and in sync.·         Use technology to communicate.  Radios, mobile phones, tablets and other digital tools speed communication and improve clarity.2) MOTION. Going back to the truck to grab another tool, hunting down a colleague for collaboration, moving critical materials or machinery from its current location to where it’s needed, dispatching and transporting workers, even unloading deliveries and distributing parts are all costly operations that reduce productivity. Any unnecessary or unplanned movement of people, equipment, tools or materials wastes valuable time and energy.To minimize wasted motion, use efficient workplace procedures and productivity-enhancing devices:·         Plan ahead to place and prepare critical equipment for use at the point of operation.·         Corral required tools, parts, kits and equipment in well-stocked, well-organized, well-maintained work carts. ·         Equip workers with tool belts, trays, bins and pouches for easy accessibility.·         Use rail-lock aerial accessories (tool bins, pipe racks, cradles, panel carriers, etc.) when working on scissor lifts, boom lifts or other platforms for safe, secure, fast access.·         Use communications technology to locate misplaced or misappropriated resources. ·         Designate a worker to make deliveries and tools runs as needed.3) ACCURACY. Precision in quality control, inventory management, and maintenance and replacement programs is vital for preventing wasted materials and labor. Symptoms of sloppy jobsite practices include tasks that can’t be done due to damaged, defective or missing materials; rework due to poor quality or specification mismatches; “shrink” due to lost or stolen tools or inventory; breakage due to careless handling or improper use; and mistakes in ordering, stocking, storing, handling and accounting for materials.Verifying resources and quality takes attention and vigilance. These common-sense practices can bring valuable order and discipline to your jobsite: ·         Make sure all workers have a clear project understanding, including the latest drawings, specifications and contingency plans.·         Lock up tools and equipment at days’ end and when not in use.·         Remove and replace damaged tools or materials immediately.·         Designate a specific person to order, inspect, label and monitor materials, especially near job’s end, to avoid leftover inventory.Are time and resources going to waste on your jobsite? Command Alkon helps make fast work of unnecessary jobsite losses. To reduce the costs, risks, and waste that result from out-of-stock and over-stock situations, inefficient hauling practices, and lack of transparency, the HBM industry relies on Command Alkon’s supplyCONNECT to manage daily replenishment plans. By promoting collaboration among supply chain trading partners, supplyCONNECT saves money and time – ensuring that the right amount of inventory is delivered to the right place at the right time. 

                  No, I’m not talking about piles of leftover debris or even the kind of “trashy” look that’s common on construction sites. While neatness is nice, especially on a highly visible site, the waste I’m referring to is all those insidious, sometimes hidden, wastes that may not look messy but can make a real mess of budget forecasts and construction schedules.Jobsite waste – and the losses it creates – is a serious problem throughout the HBM industry. In fact, according to a 2016 McKinsey study, “Large projects across asset classes typically take 20 percent longer to finish than scheduled and are up to 80 percent over budget.”Most budget overruns are not the result of leftovers or throwaways. Most are a result of squandering 1) time, 2) motion, and/or 3) accuracy. Eliminating waste is an ongoing challenge, but these best practices can help you recognize – and correct – this resource-draining scourge:1) TIME. Wasting time is probably the most common and costly jobsite activity, especially since it’s virtually always unintentional and unobtrusive. What’s the best way to spot it? Recognize that all wait time is wasted time. Any person, place or thing that sits idle or is not ready when needed is generating waste.When workers wait on instructions or tools or equipment or approval or inspection, their time is being wasted. When tools, parts or equipment are unavailable or inoperable, time is being wasted. When one process or procedure is stalled waiting for another to be completed, valuable time is being wasted.Wasted time typically results from inadequate planning, communication or resource allocation, so invest in these timesaving preventive measures instead:1) TIME. Wasting time is probably the most common and costly jobsite activity, especially since it’s virtually always unintentional and unobtrusive. What’s the best way to spot it? Recognize that all wait time is wasted time. Any person, place or thing that sits idle or is not ready when needed is generating waste.When workers wait on instructions or tools or equipment or approval or inspection, their time is being wasted. When tools, parts or equipment are unavailable or inoperable, time is being wasted. When one process or procedure is stalled waiting for another to be completed, valuable time is being wasted.Wasted time typically results from inadequate planning, communication or resource allocation, so invest in these timesaving preventive measures instead:Begin with informed planning that includes all pertinent people. Early integration and transparent information sharing improve efficiency at every operational stage.Forecast construction schedules, budgets and requirements so that you can realistically anticipate tools, materials and labor.Create and communicate contingency plans so that the entire crew stays up to date and in sync.Use technology to communicate.  Radios, mobile phones, tablets and other digital tools speed communication and improve clarity. 2) MOTION. Going back to the truck to grab another tool, hunting down a colleague for collaboration, moving critical materials or machinery from its current location to where it’s needed, dispatching and transporting workers, even unloading deliveries and distributing parts are all costly operations that reduce productivity. Any unnecessary or unplanned movement of people, equipment, tools or materials wastes valuable time and energy.To minimize wasted motion, use efficient workplace procedures and productivity-enhancing devices:Plan ahead to place and prepare critical equipment for use at the point of operation.Corral required tools, parts, kits and equipment in well-stocked, well-organized, well-maintained work carts.Equip workers with tool belts, trays, bins and pouches for easy accessibility.Use rail-lock aerial accessories (tool bins, pipe racks, cradles, panel carriers, etc.) when working on scissor lifts, boom lifts or other platforms for safe, secure, fast access.Use communications technology to locate misplaced or misappropriated resources.Designate a worker to make deliveries and tools runs as needed.3) ACCURACY. Precision in quality control, inventory management, and maintenance and replacement programs is vital for preventing wasted materials and labor. Symptoms of sloppy jobsite practices include tasks that can’t be done due to damaged, defective or missing materials; rework due to poor quality or specification mismatches; “shrink” due to lost or stolen tools or inventory; breakage due to careless handling or improper use; and mistakes in ordering, stocking, storing, handling and accounting for materials.Verifying resources and quality takes attention and vigilance. These common-sense practices can bring valuable order and discipline to your jobsite:Make sure all workers have a clear project understanding, including the latest drawings, specifications and contingency plans.Lock up tools and equipment at days’ end and when not in use.Remove and replace damaged tools or materials immediately.Designate a specific person to order, inspect, label and monitor materials, especially near job’s end, to avoid leftover inventory.Are time and resources going to waste on your bsite? Command Alkon helps make fast work of unnecessary jobsite losses.To reduce the costs, risks, and waste that result from out-of-stock and over-stock situations, inefficient hauling practices, and lack of transparency, the HBM industry relies on Command Alkon’s supplyCONNECT to manage daily replenishment plans. By promoting collaboration among supply chain trading partners, supplyCONNECT saves money and time – ensuring that the right amount of inventory is delivered to the right place at the right time.

New plant, automation system double operation’s production capacity By Loretta Sorensen| November 10, 2017 Four generations of the Duff family have overseen quarry operations for the past 67 years at Duff Quarry Inc. in Huntsville, Ohio. Among the reasons for their long-term success is a focus on high-quality, economic throughput. “That’s one of our focal points,” says Ross Duff, vice president. “For the past 10 years, automation has allowed us to maximize safety, improve ease of maintenance and have direct oversight of material quality.” Photo courtesy of Duff Quarry Duff Quarry was bare farm ground when the late C.E. Duff purchased it in 1950. Its abundant limestone deposit runs about 400 ft. deep and covers around 400 acres. Today, with three locations, Duff Quarry includes Ohio Ready Mix and Mr. Concrete Builders Supply, employing more than 60 people in Huntsville, Russells Point and Bellefontaine. Customers come from within a 25-mile radius of Huntsville. New era The Huntsville quarry contains bluish-gray dolomitic limestone, which is ideal for construction materials like concrete and asphalt production, the company says. Upper layers of the quarry’s limestone deposit have a high magnesium content, giving the stone a reddish hue. Lower limestone layers, in laminated sheets, are dark gray. The quarry’s limestone is crushed and used in a number of construction projects, including private and business drives in the area. Duff Quarry customers also purchase a variety of crushed limestone products, riprap, concrete sand, mason sand and gravel. In 2005, when Duff Quarry was responding to increased product demand, it purchased a new limestone crushing plant from Stedman Machine Co. At the time, Duff was updating the plant it had used since 1956, seeking equipment that would offer flexibility with product size. The Duff family first learned about Stedman around 1956, when it purchased a Stedman 48-in. four-row cage mill to process agricultural lime at its old quarry. In 1994, Duff purchased a Stedman Mega-Slam crusher for a different location because the company believed it was a superior crusher with its portable plant. Over two and a half years, a Stedman affiliate, Innovative Processing Solutions, designed and fabricated the new automated system, which utilized Stedman’s 5460 Mega-Slam and 6460 Grand-Slam size reduction impact crushers. Innovative Processing Solutions specializes in custom solutions for bulk material handling systems, using equipment from Stedman and other manufacturers to create a variety of systems. The extended system design timeframe gave the Duff family the opportunity to develop a system that can serve them for many years. “We bought the plant in 2005, installed it ourselves and completed construction in 2007,” Ross says. “It was more than 95 truckloads of steel. Apex Engineering set up our automation. The plant uses twin Stedman impact crushers, a Deister grizzly feeder, scalping screen and twin finish screens.” Twelve employees kept the old plant running while the new plant was designed and installed. Prior to installing the new system, the quarry’s annual processing average was about 600,000 tons of limestone. With the new system, production averages 1.5 million tpy when running at full capacity. Customized crushing From left: Plant Operator Jason Beecraft, Mine Foreman Bill Page, President J David Duff and Vice President Ross Duff. Photos courtesy of Duff Quarry The quarry’s automated system includes a fiber linked A. B. Rockwell PLC system run by redundant Windows-based computer control rooms. Quarry operators manage the automation by utilizing an application that runs through two iPads. The system is set up so only one iPad can make system changes at any one time. The plant operator can access the automation system from anywhere on the mine site. “When we designed our plant, we wanted to avoid having our plant operator watch quarry activities from a remote control room,” Ross says. “Using the iPad allows the plant operator to have direct oversight of material quality and make immediate changes as necessary. “It also eliminated the need to contact the person in the main control center,” Ross continues. “A delayed response is not always the safest way to operate. If the plant operator is right there they can stop or start the plant and inspect any equipment to identify maintenance needs.” The iPad used to control the system uses a WiFi signal generated by a router installed in the quarry. Signal strength can vary but is always strong enough to make iPad use viable, Ross says. “You could even control our plant from an iPhone,” he adds. “Because of the phone’s screen size, that isn’t realistic. But in an emergency I could shut the plant down with my phone.” Initial concerns about dust affecting iPad operation were allayed because the iPad has no vent holes or keyboards that could collect dust from the quarry. “No proprietary software is loaded on the iPad,” Ross says. “It’s basically a touchscreen remote for the main control computer that runs Windows.” Although Duff Quarry’s automated system can be connected to the Internet for updates and other resources, it’s only connected for short periods of time to address a specific need. “Our primary network is an intranet,” Ross says. “We avoid Internet connections as much as possible to reduce hacking potential. Programmers can access our system remotely to adjust it, but we’re very cautious with that.” Precise products Stedman’s Mega-Slam is a primary impact horizontal shaft impactor that effectively handles large feed sizes. The machine is built to handle thousands of materials, ores and chemicals in wet and dry applications. Mega-Slam’s design offers safe and easy access for breaker bar replacement and access to all other areas of the crushing chamber, according to the company. The machine’s front opening feature eliminates the need for a crane. The Grand-Slam secondary impact crusher, meanwhile, is built to handle the same type of materials as the Mega-Slam. Through design simplicity, employees have safe and easy access to breaker bars and all other crushing chamber areas. The twin impact crushers give Duff Quarry the cube-shaped rock that provides greater psi strength when used in concrete mixes, which represents a significant portion of their business. Integrated with an automated variable frequency system, the grizzly feeder provides the variable speeds that allow for maximum throughput without overloading the crushing plant. “Our plant has amperage and motion sensors on every conveyor,” Ross says. “Belt scales directly control throughput on the feeder so production runs at maximum speed without overloading belts. We also use tramp metal detection and pneumatically controlled discharge gates to dump material. In the event that metal makes its way into the plant, our automation system empties all belts to protect the crushers.” Quarry-wide benefits Photo courtesy of Duff Quarry The dolomitic limestone at Duff Quarry is desirable for construction materials like asphalt and concrete. With its automated system, Duff Quarry can also manage electricity meter spikes because the system will automatically cut feed rate if production exceeds 840 tons for more than five seconds. Each crushing plant conveyor is equipped with terminal strips wired to communicate production information to one main processor, allowing one staff member to monitor conveyor performance. All feeders and conveyor operations data are also recorded for use in evaluating the system’s overall performance. The new plant system allows Duff Quarry to crush rock in a variety of weather conditions, including heavy rain. Pumps and drain lines under the plant ensure that flooding cannot occur. The Duff family expected to reduce maintenance issues by at least 50 percent with the new plant because automated data management provides evidence of equipment issues well ahead of a breakdown. Since the plant can now be operated with just two staff members, the company no longer shuts production down for lunch hours. Adjusting product size takes just minutes, and the same conveyor can be used to handle different product sizes. Doubling output Overall, Duff Quarry more than doubled production capacity with its automated system and new plant. “We also have brilliant staff operating the plant,” Ross says. “Bill Page, a foreman here for more than 40 years, is a great example of that.” Over the years, Page tried different methods to prevent screen media clogging. He never found an effective product or method, so Page developed his own: the Blinding Buster. “We wanted to ensure our material quality on the finish end was automated, too,” Ross says. “Bill patented an invention to eliminate screen blinding. Every screen media, by nature, will blind, given the right conditions. The Blinding Buster continuously sweeps blinding off finish screens while we’re in production.” The Blinding Buster consists of two major components: the control assembly and motor assembly. The control assembly wires are designed to connect to the normally open auxiliary contact of a screen’s magnetic starter. The screen can be set up to start manually if the motor start isn’t available. The motor assembly includes a standard 20-ft., 3/8-in. chain that can be cut to any length or extended to accommodate all screen sizes. Installing the Blinding Buster takes a 2-in. black steel pipe mounted level approximately 6 in. above the screen opening. The pipe has to be affixed so it doesn’t vibrate with the screen. “The Blinding Buster allows us to screen in subpar conditions when we normally wouldn’t be able to,” Ross says. “We are also able to dry screen finish products without washing. We’re so happy with this product that we’ve made it available to other quarry producers.” Loretta Sorensen is a freelance writer in Yankton, South Dakota. She produces material on a variety of topics, serves as a ghostwriter and has authored her own books.

Teamwork Helps Integrate Design, Manufacture and Installation of Size- Reduction Systems By Eric Marcotte, Inside Sales Manager, Stedman Machine Company Designing and deploying size-reduction systems takes experience. Many people can collect and install some of the pieces they feel are needed to create a working system, but experience with the interrelationships between components is harder to find. And to ensure safety and performance, crushing, screening, storage and handling systems need to be professionally engineered. A system is always more than just a collection of parts; they must work together whether it’s a properly designed chute or an elaborate processing plant. Retrofitting new crushers, conveyors, screens or other pieces of equipment is also not always an easy process. Even if drawings and specifications no longer exist, plant designers need to make sense of what is there and know what it takes to make new pieces fit in an existing puzzle. If continuing production during the upgrade is required, system bottlenecks will need to be prevented. For example, raw material or finished product stockpiles may be required to keep downtime to a minimum. Also, access and space requirements need to be confirmed and double-checked. First - Assemble a Team Engineering and expertise in a variety of areas are required to develop size reduction systems, including: crushing, screening, structures, conveyors, chutes, hoppers, dust collection and storage, whether for a small equipment retrofit or a large turnkey facility. CAD and process design software applications are must have. Limit multiple layers of personnel. Work directly with the engineers and personnel to select the equipment and design the system. Project management, installation, scheduling and tracking experience will be needed. Be sure supervisors and installers are MSHA trained and have experience in fieldwork. Second - Process Design While most projects present new challenges, a widely experienced team will bring in ideas from other industries. Typical projects involve the following processes and types of equipment. industrial crusher Load out and material receiving This can be a feed hopper with an apron feeder, belt feeder, vibratory or screw feeder, truck dump or railcar unloading system. Bulk material transportation Designing, building or procuring belt conveyors, stackers, apron conveyors, screw conveyors, and pneumatic handling conveyors. Crushing Crushing is the basic building block of a size-reduction system. Experience with a large range of crushing equipment offers many solutions. Properly feeding material into the crusher greatly increases its efficiency, contributes to even wear and maximizes wear metal costs. Bulk material storage Specifying, providing and installing a range of silos, hoppers or other bulk storage solutions. aggregate crusher Screening Experience with many screening manufacturers to include the right screening solution into the system. Dust Collection Including the proper dust collector and dust collection system is a key component to allow a crushing system to work properly. Experience with many dust collection vendors will facilitate properly sizing, connecting and installing the best dust-collection system solution. Controls and Electrical Components To make sure that all components of a system work together, work with control system engineers, panel builders and electrical contractors to create a working, integrated system. Buildings, Foundations and Structure Design, procurement and specifications for buildings, foundations and structures for the equipment supplied on any system. Third - How to Do It Every project has a different set of circumstances that are unique to it. Try to follow a simple checklist to ensure the best possible solutions to the problems. Initial project team meeting. Crusher and screening testing as required. Define required scope for the system. Create preliminary concepts and drawings. Review with operators and supervisors. After receiving feedback, fine-tune the drawings, concepts and put forth a detailed proposal. Set up kick off meetings as required. Proceed with the purchase of major components. Proceed with a detailed system arrangement. Detail major assemblies. Assemblies put out for detail drawing creation. Drawings are self-checked and then crosschecked for accuracy. Assemblies are re-entered into system layout from detail assemblies to verify fit. Approval drawings sent out as required. Vendor drawings checked and approved. Items checked as they are received. Work with vendors and shipping to verify shipment accuracy. Pictures are taken of all shipments for record purposes. Installation supervisor works with install crew to identify, locate and erect items as needed. As installation finish date nears, begin check of motor rotations, sensors etc. Final customer acceptance – formal reviews to finalize “punch list,” follow up items and document the system is performing as specified. Example - Typical Quarry Expansion A limestone quarry running since the 1950s and producing 500,000 tons per year wanted to increase yearly production capacity up to 1.5 million tons with a new automated plant. The new design needed to have the capability to stockpile hundreds of thousands of tons of finished product. The focus was on creating a state-of-the-art plant with designed-in flexibility to do different product sizing. The automated plant needed to have the ability to run production all day as well as to be able to change the product sizes within 10 minutes. The design and fabrication of a new plant may take up to two years to complete as each idea is considered and "wish lists" are sorted out. You don’t want to come back and say we should have done this or done that. Get the very best of everything you can get into the plant for longevity. The project will include numerous conveyors, sensors, controls, vibrating screens, feeders and other equipment. size reduction machine Installed electronics and control systems feed a programmable logic controller. Each conveyor at the plant is equipped with terminal strips that are all wired to communicate information to one main processor, bringing all of the information together in one place to make it easy to operate. All of the feeders and conveyors are monitored to collect all of the information required to operate the plant. With the ability to monitor the speed of the conveyors and feeders, the quarry can keep an eye on production and troubleshoot maintenance issues. The reason for having an automated control system is that if something goes wrong on one of the conveyors, you’ll see it fast enough to prevent a catastrophe that might require digging out a conveyor. If something does go wrong, the computer can take over and begin dropping conveyors, discharging material and shut the feeder down. Since the quarry can now monitor the conveyors moving, the speeds and the tons per hour, limitations can be set to help catch problems before they become too serious. If something is going wrong, say conveyor 2A is slowing down, you can put limits on how much you want to allow it to slow down before the feeder is paused and then limit how long that feeder stays paused. In the end, the quarry was able to more than double their production capacity with the help of the automated plant. The plant was built, delivered and installed as planned with no problems. This is an ideal situation if a quarry is sitting on huge reserves of limestone and plans to operate the crushing plant well into the future. Projects such as this are successful when the customer’s needs are defined and understood, and the project team – including the customer and all supplier partners work to accomplish the project goals.

Stedman Size Reduction Test Lab, Testing Materials From A-Z, Featuring Full-Size Crushing Equipment for Dependable Results. Stedman's unique test lab assures you're buying the right equipment for the job. Our highly-trained and experienced technicians will test your materials on full-size equipment. The Stedman testing program gives you the information you need to select the right crushing and size reduction equipment. Grand Slam™ Impactor, The Stedman 30" x 30" Grand Slam tests secondary and tertiary applications. Gap settings and rotor speeds for specific particle size gradation can be determined. H-Series™ Multi-Row Cage Mill Pulverizer, A wide variety of 2, 4 and 6 row cage designs with a complete range of sleeve/pin spacings. V-Slam™ Impactor, Designed for size reduction of minerals, ores and chemicals. Micro-Max™ Fine Grind Air Swept Mill , Screenless mill capable of producing a wide range of particle sizes. Liquid injection ports standard for grinding heat sensitive materials, or by adding heat capable of grinding and drying in one pass. Aurora™ Single or Dual Rotor Crusher , Designed for higher throughput and smaller particles. Ideal when delumping for pneumatic conveying or unloading. Complete Analysis From Experienced Professionals , The quality data produced from the test of your material helps you estimate operating costs from power consump­tion to wear parts. The written technical report provided to you includes: • Moisture content analysis • Gilson screening of raw feed particle size distribution • Product particle size distribution • Bulk density analysis • Abrasion test results • Estimated metal replacement costs • Horsepower consumption

The primary benefit from the TITAN emulsion technology is being able to note on the post blast reports that no postblast NOx fumes were present. Additional benefits include increased water resistance, increased actual energy yield verses theoretical value, increased product sensitivity resulting in high order detonation, ability to control density, redistribution of energy, increased detonation pressure, same cost per loaded foot, greater fragmentation versus cast movement, and allowing emulsion to be loaded to a lower density in highwall row resulting in the same pounds stretched to a greater height. Success measurements in the overburden truck/shovel blasts included consistent productivity (bucket fill times and bucket volumes) even in harder material located below the sandy strata, reduced post blast NOx fumes based on fume classification chart, few shovel operator complaints, and equal or reduced drill and blast budget. Seventeen blasts were completed without NOx fumes. The pounds per loaded foot was reduced from 51.5 with 40/60 HANFO to 43.1-47.1 range loading TITAN XL 1000. The average difference lbs/ft = 12.36% when 7.6% was needed for cost neutral. Stemming height was reduced from 22 ft to 20 feet to improve surface material displacement. Success measurements in the coal blasts included no roll crusher plugs from slabs, improved shovel production through uniform fragmentation, and equal or reduced drill and blast budget. Ten blasts were completed over afive-week period with no post blast fumes. There was good material movement, uniform fragmentation and generally no complaints or negative comments from shovel operators. Average difference lbs/ft = 11.98% when 4.5% was needed for cost neutral. Pounds per loaded foot averaged 45.33 compared to 51.5 with HANFO.

Too often training is done “for the sake of it” or only to fulfill a compliance requirement. In reality the biggest return on investment from training equipment operators is achieved by targeting actual performance variance identified through data including fleet management system data. Performance variance in production, machine abuse and safety costs an average mine millions of dollars per year.

Determine production utilization required to determine minimum equipment availability. Comments welcome.

Significant work control problems are needlessly created when there are no criteria for determining which maintenance work requires planning.

Here are some of the maintenance planning/scheduling questions that require resolution if this activity is to be carried out efficiently.

The Elusive Qwest for World Class Maintenance - ‘Seat of the Pants’ Maintenance Isn’t Good Enough - A major deficiency of too many mining operations and the explanation of most maintenance problems is no program. As a result, maintenance personnel who are to carry it out or support it (like purchasing, warehousing and operations) are confused and uncertain about how to help. Mine managers are frustrated and impatient, expecting that maintenance should, by now, know what they are supposed to do and how. Too many assumptions have been made starting with the mine manager who should have said, "I want a logical, well-defined program about maintenance that fits our operating plan and I want all mine personnel to understand it, support it and make it work." To those mining operations and their maintenance departments who insist they know what to do, have them prove it with a well-documented program. Many can’t.

When non-maintenance work, like construction, is attempted by a maintenance workforce not staffed and prepared to do so, major problems of cost, workforce utilization and performance often occur. Here is how to avoid them.

Download PowerPoint instructions - How to Implement a Maintenance program.

The purpose of this paper is to review a case study of a successful energy project at the ArcelorMittal Burns Harbor facility involving the addition of five new adjustable frequency drives (AFDs) used to regulate flow of the high-volume water spray system for the runout table (ROT). The paper will outline 1) processes used in justifying new technology updates, 2) mill alignment with the serving electric utility to leverage energy credits, 3) equipment selection and installation and 4) metrics used to demonstrate the project delivered the desired payback.

This paper outlines the experience of one global cement producer that embarked on site surveys and studies to achieve arc flash safety compliance at 13 cement plants in the U.S. and Canada.

I have attached a PowerPoint (PPT) presentation on how to implementing a Mine Maintenance Management Program. But before you study it please understand that superior maintenance performance is built on three conditions: 1 - Maintenance proficiency – Maintenance personnel from manager to worker are proficient in all aspects of management, control and work execution. 2 - Knowledgeable support – All mining departments understand the help needed to make maintenance successful and provide it. 3 - Strategic direction – Mine managers assign mutually–supporting departmental objectives, provide policies to guide interdepartmental actions and verify performance. The one proven answer that meets these conditions is a quality maintenance program. That program must spell out who does what, how, when and why. These guidelines must be applied to the nine essential maintenance management phases: How to (1) Request or (2) Identify work, (3) Classify it to determine the best reaction, then how to (4) Plan, (5) Schedule, (6) Assign, (7) Control and (8) Measure the resulting work and finally, (9) Assess accomplishments against goals such as performance standards and budgets. All personnel in maintenance as well as those who interact with maintenance must be included in the program since every maintenance action requires a supporting or cooperative interdepartmental reaction. Just as the maintenance planner follows specific planning procedures, so must the purchasing agent who orders major component replacements for the job the planner is organizing. After 44 years as a mining maintenance management consulting in all types of mining operations, I can confidently state that the absence of a quality program will preclude meeting these three conditions and frustrate all efforts to achieve superior maintenance performance.

A maintenance organization was found to be planning only 21% of all work. Study revealed that most equipment deficiencies were being discovered just before failure. Major jobs that required detailed planning were being attempted as unplanned work. As such, they cost too much, took much longer to complete, were hurried and often failed again prematurely. How was this situation corrected?

Numerous problems can develop when there are no criteria for determining which new maintenance work should be planned. Typical: confusion, wasted time, equipment problems get worse while supervisor and planner haggle, planners and supervisors at cross purposes, arguments. Sending all work to the planner only delays reaction while planner arranges a work order for simple jobs that do not require planning. Supervisors knows actual equipment condition - - planner often does not. Planner wastes time acting as a work order clerk. Valuable planning time wasted while planner prepares simple WO document handled better by supervisor. Supervisor waits for work order from planner while watching equipment problem turn into a potential emergency. Problem often made worse because work order system has no simple format to handle simple jobs. Supervisor may feel work order system too complex to use and resorts to simple (yellow pad) procedure that fails to record what happened or collect work related information.

Browse the directory for Haulage & Loading 2017. This includes complete exhibitor list and contact information along with the technical program for the conference.

The utilization of professional training materials in the conduct of on-site maintenance management training has many advantages. Training can accommodate the availability of key personnel to avoid conflicts with operating schedules. As many personnel as necessary can be trained, singly or in logical organizational groups. Personnel from several departments can be trained together to clarify interdepartmental roles and actions. Presentations can be repeated for new personnel or those assigned new responsibilities. Individuals can train themselves. Training needs at remote mining locations are met avoiding expensive attendance fees and travel expenses to distant venues. Training solutions and recommendations are based on actual, realistic and proven situations unique and directly applicable to the mining industry.

Learn what World Class mining organizations do to make maintenance planning more efficient, deliver reliable production equipment, reduce cost and help ensure mine profitability. Implementation of these 10 actions can have a direct, positive impact on maximizing maintenance performance. A must read for all mining and maintenance managers whose objectives include improving maintenance.

Maintenance in Transition – The Journey to World Class Maintenance is the classic text book on every phase of maintenance management.

The mining operation that understands who does what about performing or supporting maintenance, how, when and why can meet the objective of providing consistently reliable production equpment. A well informed workforce confident in all aspects of achieving effective maintenance guarantees this reality. The reality is the development, documentation, implementation and operation of a proven mine maintenance management program.

Maintenance Planning Essentials Please review the PowerPoint presentation to learn the essential, proven planning techniques that ensure the significant benefits of well-planned work are achieved. Note especially the illustrative diagrams, informative captions and the detailed instructor’s notes that ensure effective training.

See how two models of Volvo excavators fared against industry-leading competitors in terms of productivity and fuel efficiency during truck loading.

A maintenance program that prescribes who does what, how when and why is the primary necessity for effective maintenance. Without it you are wasting your time. Here's the proof.

No Maintenance Program – Major Omission Attention Mine Managers – If maintenance does not have a program parallel to the one described in this article, don’t expect them to be able to deliver consistently reliable production equipment. Here is how to correct that situation. See an important notice at the end of the article.

Establishing a strategic tire management plan is crucial for companies with large fleets of equipment. Each machine requires a unique tire replacement schedule, and managers who develop a tire buying and maintenance strategy are ultimately more productive than managers who wait until a problem occurs. Throughout the life span of a piece of equipment, tires need to be replaced more frequently than any other component, and as such, their efficient life cycle management offers arguably the greatest opportunity to control costs. With a well-informed and well-defined tire maintenance and replacement strategy in place, a fleet manager can proactively manage these valuable equipment assets, while reducing the costs associated with unplanned downtime. Here are five steps to help you create and implement a successful tire management plan.

Mining is unique among all industries as are the challenges of maintaining its equipment. Successful maintenance will require fully-coordinated help from all departments and knowledgeable, dedicated management oversight. Effective training can help to meet these requirements. Un fortunately, public seminars on maintenance management are seldom mining-specific and are usually generic. Little that is useful can be learned from these generalizations or from non-mining attendees. Attendance fees and travel expenses can be prohibitive. Attendance from remote mining locations is seldom possible. These remote workforces can include local recruits unfamiliar with mining and are often staffed with ex-pats with widely diverse backgrounds and experiences. Training can enable them to perform consistently as a reliable team. All of these training needs can be met by the Mining Maintenance Management Course specifically designed for on-site training conducted by your own personnel.

Establishing a strategic tire management plan is crucial for companies with large fleets of equipment. Each machine requires a unique tire replacement schedule, and managers who develop a tire buying and maintenance strategy are ultimately more productive than managers who wait until a problem occurs. Throughout the life span of a piece of equipment, tires need to be replaced more frequently than any other component, and as such, their efficient life cycle management offers arguably the greatest opportunity to control costs. With a well-informed and well-defined tire maintenance and replacement strategy in place, a fleet manager can proactively manage these valuable equipment assets, while reducing the costs associated with unplanned downtime. Here are five steps to help you create and implement a successful tire management plan.

Solving the Mystery of Improving Maintenance Maintenance often represents over 35% of total mine operating costs. Yet, little is known by the general mining population of the details of what maintenance does, how they do it and the help, support and cooperation they require. Many see maintenance as a ‘closed book.’ Herein are both the problem and the solution. Maintenance has done little to explain what they do, how they do it and specify the help that they need.

Consider the impact these five educational steps could have to help improve maintenance performance. Initially, clarify internal maintenance actions. Then specify help needed from other departments. Finally, secure the dedicated overall direction from mine management in a mine-wide coordinated maintenance effort

The maintenance supervisor holds the most difficult job in mining. Don’t think so? Then consider his daily situation.

Education – A Counterbalance to the Mining Maintenance Challenge. The already difficult circumstances of mining maintenance are compounded by remote locations, indigenous workforces, recruitment of management personnel and a whole range of difficulties, some unexpected. Many of these adverse circumstances can be offset by educating the mining workforce on how they can help to make maintenance more effective. Please see the Mining Maintenance Management Course.

Site simulation, Volvo articulated haulers and excavators, and flexible financing from Volvo Financial Services play a pivotal role in a family-owned garnet mining business.

The new 75-ton EC750E excavator from Volvo boasts significant improvements to power, productivity and efficiency compared to its predecessor. It is equipped with the Volvo D16J 516-horsepower (392 kW), Tier 4 Final engine, providing an 11 percent increase in horsepower and 7 percent increase in digging force. Its 5 percent gain in fuel efficiency enables higher production at a lower cost per ton. A 4 percent boost in hydraulic flow is made possible by its new electro-hydraulic control system that reduces loss of flow and pressure for increased production.

The Volvo A45G articulated hauler is designed to be both powerful and productive, while remaining incredibly nimble and efficient. The A45G — powered by the latest Volvo D16, Tier 4 Final engine — boasts 469 horsepower (350 kW) and is capable of 45-ton payloads. New improvements include the Volvo Dynamic Drive system, which provides an enhanced gear-shifting strategy that increases customer fuel efficiency by 3 to 10 percent. New standard safety features include Hill Assist and a dump support system.

As construction equipment has grown in the last couple decades — in size, power, weight and speed — so too has the need for off-the-road tires that can keep up with the increased demand. As such, a tire market that was comprised of 100 percent bias designs only a couple decades ago has now moved primarily to radial for larger earthmoving equipment. While radial technology outperforms bias in many instances (justifying the increased cost), bias tires, when used in the proper application, can provide significant cost savings and performance benefits over radial — proving the latest isn’t always the greatest.

This paper will explain some of the physiological aspects which give us our hearing capabilities. It will also describe how damage to the ear should be considered as part of an electrical safety program, as well as potential methods for reducing the hazard.

The authors describe the application of remote isolation systems in mining industry conveyance systems and offers case study details where these systems have been installed.

Successful implementation of Reliability centered maintenance (RCM) creates circumstances that sharply increase the equipment problem detection capabilities of preventive maintenance. In turn, gains in the ability to plan more work help maintenance to deliver consistently reliable production equipment for its mining operation.

Syntron Material Handling Working with Hoppers

Link-Belt is the industry standard for screw conveyors, feeders and components. We make a complete line of screw feeders, conveyor screws, troughs, trough ends, hangers, bearings, shafts, seals and drives.

Van der Graaf is a leading designer and manufacturer of specially engineered drum motors. Built to endure the demands of the bulk handling industry – from ship loading, to power generation, to surface and underground mining. Van der Graaf products are manufactured and marketed worldwide through a respected international network of distributors. As the leading global supplier of conveyor belt drives, Van der Graaf has proven to be highly intuitive in projecting and reacting to changing market demands. The Extreme Duty Series offers a conveyor drive in which all components are housed internally. This advanced design eliminates the need for external features including the motor, gearbox, sprockets, chain, chain guard, and pillow block bearings, making it ideal for the harshest of environments. The Van der Graaf Extreme Duty Mining Series incorporates the benefits of a tried and tested drum motor with an increase in power and capacity. This durable design is entirely sealed from the most challenging work environments, providing a completely reliable, less complex, and virtually maintenance-free belt drive solution.

Drum Motors for Mining and Aggregate Applications Requiring High Power Conveyor Drives The rugged design of the Van der Graaf drum motor is ideal for the harsh and abrasive environmental conditions of the mining and aggregate handling industry. The drum motor encloses all moving parts within an oil bath that prevents dust and grit from wearing out key components. The benefit of this design eliminates the maintenance required on conventional exposed conveyor drives. • Engineered for Harsh Abrasive Environments • Lower Energy Costs • No Maintenance • Up to 300 HP

Pinetree Power, a subsidiary of GDF Suez Energy North America, in Fitchburg, MA, upgraded their conveyor drives to Van der Graaf Drum Motors. This upgrade allowed them to free up between 300 and 500 homes worth of electricity, increasing their revenue, while lowering operating and maintenance costs.

The purpose of this experiment is to compare efficiency, losses and overall energy cost between a conveyor powered by the conventional motor/gearbox conveyor drive and a conveyor powered by the internally driven drum motor.

The Van der Graaf Brush Belt Cleaner offers a belt cleaning solution to remove residual materials from conveyor belts without the wear and tear of a conventional belt scraper. The compact, low profile design provides space savings, efficiency and reliability with virtually no maintenance. As a one component brush assembly, it can be easily installed behind the head pulley or inside the belt conveyor frame. This durable drum motor design is entirely sealed from the most challenging cleaning environments, providing a completely reliable, less complex solution.

Using Differential Energy, Dyno Nobel was able to reduce the number of boulders at a quarry without adding more blast holes.

There are no world class maintenance organizations. Rather, there are ‘world class’ mining organizations that include a world class maintenance organization. Maintenance, by itself, is a service-provider. When that service is exceptional, it is made that way because maintenance is operating in a mining environment that requires it to be exceptional. Mining managers will have created a working environment in which maintenance can be exceptional. They have caused operations to accept responsibility for the effect utilization of maintenance services and staff departments like warehousing or purchasing to provide exceptional service because it is expected of them. World class status is only achieved when there is a total operation effort.

Any maintenance improvement effort should be initiated with an evaluation to identify and prioritize essential improvement needs. Comparing current performance against proven standards is an effective means of evaluating to establishing a realistic improvement plan and guide the improvement effort.

Simulation based operator training has been successfully applied to a range of diverse industries where high risk and high costs are everyday issues requiring smart solutions. Whether piloting a plane or launching a space shuttle, simulation training has been proven to dramatically reduce risk, cost, unscheduled maintenance, increase trainer effectiveness and efficiency while maximizing productivity. Within the often hazardous mining industry, simulation training has quickly gained recognition as a significant method of increasing site safety and profitability through improved operator skill and knowledge. Simulators provide operators a safe environment to learn and practice their skills while allowing the operator to practice for a range of possible emergency situations. Many of these situations are too dangerous, too difficult or too expensive to test in an actual mine. Operators can also be shown and assessed for the proper operating technique much more quickly and accurately than the traditional in machine approach. Focus on improving operator technique with Immersive Technologies’ simulators has delivered proven results including longer tire life, reduced spot time, reduced brake abuse, improvements in fuel use, reduction in engine overspeeds and more. Simulator training allows operators to be shown and assessed without the need to borrow machines from production. This allows new operators to practice many skills before being placed into a production circuit. Because operators are consistently shown and assessed on the proper operator techniques they have a better understanding and knowledge of the real machine. Following Immersive Technologies release of the world’s first mining dump truck simulator in 1998, their customer results, support network, machine range, global mining footprint, level of realism and OEM endorsements are without equal in the industry. Highlighting the benefits of simulation training, four leading Original Equipment Manufacturers, Caterpillar, Hitachi, Komatsu and Liebherr have chosen to exclusively sign technical information licensing agreements with Immersive Technologies, providing access to proprietary technical information necessary to accurately replicate the operation of their mining equipment. After significant supplier evaluation each major OEM has chosen to exclusively recommend Immersive Technologies' Advanced Equipment Simulators. This unprecedented support and commitment from the OEM's has helped to firmly entrench Immersive Technologies' Simulator technology as the industry leader. This provides customers the comfort of knowing they are investing wisely in a proven and accepted technology that is here to stay. As the world’s largest supplier of mining equipment simulators, Immersive Technologies’ has a customer base that includes many of the world’s leading mining operations, mining contractors, training schools and original equipment manufacturers. Widely recognized as the global industry standard, Immersive Technologies’ has extensive experience in delivering complete training solutions to the mining industry with measurable safety and business improvement outcomes. Immersive Technologies has worked closely with thousands of mining training professionals, managers, and executives to deliver comprehensive solutions that have been proven to improve safety and mine profitability.

What are your operators really costing you? Operator skill and behavior directly affects site safety, tire life, bucket fill, machine availability, fuel usage, cycle times and machines repair & maintenance costs. Successfully managing each of these aspects can be the difference between a mine that is profitable and one that is not. Immersive Technologies can show you the financial gain of improving each of these through Operator Optimization on your mine. We’ve done it many times before. We’re yet to find a mine that has no opportunity for significant financial gain.

The availability of skilled mining workers is a common struggle in many countries throughout the world, impacting mining productivity, safety and ultimately profitability. Many countries are forecasting dire shortages in the coming years due to unskilled talent pools, an aging workforce and increased mining production. The development of training programs is a key focus for governments, mines and educational institutions. In support of this industry challenge, Immersive Technologies’ solutions have proven to be vital at numerous training centers around the world. In this case study one customer shows how the introduction of a simulation based training center accelerated operator learning and retention. Over the past five years this type of training center has been on the rise for Immersive Technologies. More case studies are available by emailing [email protected]

Con demasiada frecuencia, las compañías de recursos naturales ponen en marcha plantas nuevas sin contar con un equipo de operaciones y mantenimiento debidamente capacitado. El resultado puede ser desastroso tanto en términos de seguridad como de ingresos. Obviamente el objetivo fundamental es una planta que funciona de forma segura y rentable. En la mayoría de los casos, la capacitación sobre seguridad que se da antes del arranque de la planta es satisfactoria, resultando en pocos accidentes (o ninguno) durante la puesta en marcha y operaciones subsecuentes. Sin embargo, muchas plantas son negligentes cuando se trata de la buena capacitación de su personal de operaciones y mantenimiento. Un programa de capacitación bien ejecutado compensa con creces los costos de ejecución del mismo. Si se va a presupuestar una ingeniería de alta calidad, un proceso de adquisición eficiente y una gestión de construcción experimentada y comprobada (incluyendo el comisionamiento), ¿por qué dejar a la suerte la capacitación? Performance Associates International (PAI) desarrolló un programa de capacitación por computadora comprensivo, el cual abarca operaciones y mantenimiento, para su planta de oro El Limón-Guajes en el estado de Guerrero, México. En el 2015, los especialistas de capacitación industrial de PAI viajaron al lugar del proyecto para entrenar a los empleados de Torex Gold en anticipación de la puesta de marcha de la planta y la producción de oro. El emprendimiento fue un “éxito masivo,” según Nelson Bodnarchuk, Director, Sistemas Operacionales. Este video cuenta la historia de ese éxito, incluyendo comentarios generosos de los oficiales ejecutivos de Torex, quienes reconocen nuestro papel en la colaboración.

These recommended duties and responsibilities of key maintenance personnel provide guidelines for efficient maintenance interactions and interdepartmental cooperation that can enhance the overall maintenance performance,

Determination of equipment availability levels to meet production targets is strongly influenced by the quality of maintenance support. But for maintenance to deliver reliable equipment and operations to meet production targets, mutual understanding of the elements that impact availability is essential. Comments on the illustration are most welcome.

In this training module, Performance Associates International (PAI) covers the characteristics of a gyratory crusher that’s designed to be the first stage in the size reduction of run-of-mine ore. A gyratory crusher receives ore from a mine and crushes the ore between a gyrating main shaft and stationary liners called concaves. This module explains the gyratory crusher’s principle of operation and provides detailed descriptions of the major components and the role that each component plays in its operation. You'll learn how the drive system operates, the details of the dust sealing system, the importance of the various lubrication systems, and the two functions of the main shaft positioning system, or MPS. We’ll also explain the operation of the balance cylinders and how they’re designed to prevent oversize boulders from causing damage. We’ll also cover the apron feeder, which conveys the crushed ore from the crusher to a downstream discharge conveyor belt. The principle of operation and detailed descriptions of the components of the apron feeder—including the drive chains, pans, rollers, and an electric or hydraulic motor—are illustrated. This is one of many plant area modules that is covered in a typical PAI operations training module.

Although many mines and processing plants have sophisticated maintenance cost information systems, cost control relies ultimately on management actions based on the information such systems generate. A systematic management approach to solving problems and implementing solutions is the key to effective maintenance cost control

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Setting Maintenance Work Priorities - By setting maintenance work priorities, the relative importance of a single job in relationship to other jobs, operational needs, safety or equipment condition is established and a time period is assigned within which the work should be completed.