Ensuring your inventory is up-to-date and accurate with audit-ready reports. This two-minute overview of Stockpile Reports gives a quick description of how easy it is to access in-depth inventory information on your stockpiles.

Stockpile measurements are an integral part of running a successful aggregates business. Operating efficiency and profits depend on stockpile measurements, yet many aggregates operations are guilty of making numerous common mistakes. Stockpile measurements aren’t 100 percent perfect, but you should focus on making accuracy one of your top priorities. With a more refined picture of your stockpiles, you can base decisions on sound data instead of deceptive estimates, improving efficiency and boosting profit margins. To solve some of the most common measurement problems, there are a few strategies to keep in mind. Download our resource to learn more! 

A lot can happen in a month or quarter on your site, making it difficult to prepare for your month end inventories. Firmatek’s Drone Solution allows you to fly your sites and then upload the data to our team for processing. This gives you the flexibility you need to capture data when you need it. With this in mind, we've developed three tips to remember when preparing for your month end inventories. Download our article to learn more!

Manual mapping methods are expensive, time consuming, and dangerous. Firmatek is breaking that paradigm using drones to simplify the mapping process. We use drones to collect mapping data from our client's sites and integrate technology into our service offering. Download our article to learn how.

Firmatek's strategic Drone Program addresses the complex needs of clients and delivers the same precise measurements and data analytics that our customers have come to know and trust. Our drone solutions are simple, fast, and accurate. Simply fly the drone on your site, and upload the data to our client portal for processing. Firmatek doesn't stop there, we make sure you understand what the data is saying so you can be confident in the decisions you make for your operation. We invite you to watch our Drone Program video for more information. Get started with Firmatek Drone Solutions today!

Firmatek has been measuring stockpiles and helping the Aggregate Mining Industry manage its inventory for almost 30 years. The industry has used a variety of different technology over the years. From wheel and tape, to drone solutions, Aggregate Mining companies have continued to develop innovative solutions for measuring inventory. With each evolution in the technology, there have been improvements in everything from accuracy, to safety, to management systems. Let’s take a look back at how we got to where we are today.

How Much Does It Cost To Operate a Crusher? By Chris Nawalaniec Crushing equipment is the heart of an industrial material-processing system. The size reduction choice you make will have a profound impact on the profitability of your business. When the right choice is made, you should expect many years of profitable operation. How do you make the right crusher choice? Crushers are not glamourous. They are brute force workhorses and what they do is simple, really. Size-reduction equipment in all forms is adding energy to a material to make big pieces smaller. Simple, right? Cost versus Value What does it cost or what is it worth? Producers need to keep that simple equation in mind. We all have to keep our eye on the ball and stay focused on profitability. What are Crushing Costs? Capital acquisition cost Base machine Structures and chutes Motors, drives, guards Energy consumption per unit produced Electricity Compressed air Wear parts cost Normal maintenance Planned downtime Lubrication costs Oil Grease Major repairs Infrequent maintenance Unplanned downtime Labor Normal maintenance Special or unique tools required When the above costs are all accounted for, they are used to quantify the production costs related to size reduction and are expressed in cost per unit of measure production. For example, $0.50 per tph. What Does Value Mean? There are always opportunities to buy a machine at a lower upfront cost. This usually translates into paying higher operating costs over the life of the equipment. Higher service labor cost. Higher wear parts costs. Higher energy costs. Often there is a justifiable case to spend additional capital dollars for the better machine. When evaluating crushing equipment suppliers, crusher manufacturers should quantify both costs: purchase price and operating costs. Before you purchase, ask for reference customers to visit. Selecting Equipment Why are there so many types of equipment? Our team brainstormed this question, and we came up with more than 50 tools or machines that are used for size reduction. What we are addressing here is industrial size reduction of dry, solid materials, which are grown, mined or chemically synthesized, and need to have a physical dimension alteration to be put to use. Customers are asked five questions to begin the equipment selection process. What is the material? What is the moisture content? What is the maximum size going into the machine? What is the size range desired after crushing? What is the desired production rate of finished product? When it’s time to dive a bit deeper to define the problem, we ask some additional questions. How long do you expect to operate the plant? Are you looking at mobile, skid-mounted or fixed installation? Are there electrical limitations or special power requirements at the plant site? Is the system open or closed circuit? Do we need to consider future expansion plans now? The variables above all affect your costs. Let’s take the first question as an example. How long do you plan to operate? There are times when mines reserves, stockpiles, permits, project contract terms affect expected life. If a project is limited by any factor, then “good enough” could be the best choice. As long as the equipment is safe and there are machine wear parts and service available, then going “cheap” may be the best choice. Another factor to consider with low-cost is limited post-sale assistance if there is some process change or major equipment problem. You don’t want to be hung out to dry. Aggregate producers typically expect to be running and profitable for many years. Always buy a crusher from an established company, develop a relationship, and expect ongoing service and personal contact. Ask before you buy about how they approach post-sale parts sales and service. Ask the company quoting how they intend to offer service for their crusher. How many field service people do they have? Are they local, regional or too far away? Not having responsive suppliers will have a significant impact on your plant profitability. Summary Investing in the best size reduction equipment for your specific needs is a big decision. The above should give you a lot to think about so equipment solutions can be objectively analyzed. Chris Nawalaniec is vice president of sales and marketing at Stedman Machine Co.

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.

In order to control inventory in a typical aggregate operation, the producer must understand the whole process, from production through sales. Inadequate control in any one of these areas leads to inventory uncertainty and makes it more difficult to make decisions based on a strong understanding of the operation. In this report, we cover the basics of aggregate inventory management and suggest best practices.

Do-it-yourself (DIY) solutions have become increasingly popular in the world of Youtube and other help sites. From home improvement projects, to technical stockpile inventory measurements, a DIY solution can be finger tips away. At Firmatek, we believe that clients deserve a tailored solution and we work with them to determine which option on the spectrum of full service to partial DIY makes sense for them. We work to help clients uncover what value choices are right for them.

Learn why long-time Firmatek client, Brox Industries, chose to move to Firmatek's Drone Solutions program.

Firmatek conducted a study comparing 3 types of equipment across 29 piles ranging in size on a site where we have significant historical data. In this analysis, we look at how two types of drones compare to Lidar.

Firmatek provides independent, third-party measurement and reporting to help manage your business and inventory needs. Our data analytics solution utilizes both advanced drone data collection technology and LiDAR, and allows us to serve the unique needs of your sites, from one acre to over 1,000. We know stockpile measurements are more than just a number on a balance sheet, so we deliver confidence in your data, equipping you to make important decisions for your business.

At Firmatek, we do a lot of inventory measurements for our clients. Often times, we know plant managers aren't thrilled about getting their inventory measurements because of problems they've experienced with past vendors. However, we serve as a trusted advisor for our clients and make the inventory process as easy as possible from start to finish. With our share of success, we see our share of issues. In this study, we discuss the top issues we see with inventory measurement and how we work to mitigate these issues.

Small Unmanned Aerial Systems (sUAS or drones) along with exciting new image processing algorithms are enabling a fundamental change in how stockpile volumetric computations are performed. It is now possible to create accurate three dimensional models of stockpile areas using inexpensive cameras carried by a low cost sUAS (drone). From these 3D models, volumetric computations are easily derived. These new technologies result in significantly lower cost of collection, improved accuracy and non-disruptive data collection. Best of all, they keep data collectors out of harm’s way with collection performed from a low altitude drone.

Pat Weaver, Vice President of Production at Preferred Materials (Oldcastle), will discuss how their company uses drone data for inventory management. Register here.

In this webinar, we answered questions received at CONEXPO about how our automated drone system works and discussed common use cases and data insights for the Aggregates and Construction industries. Questions were submitted before and during the webinar. Watch the video recording here.

LP360 for sUAS is an advanced desktop application designed to make easy work of extracting information and derived products from data collected by small Unmanned Aerial Systems (sUAS, UAVs, drones). LP360 works with point clouds derived from LIDAR systems as well as Structure from Motion (SfM, dense image matching, point clouds from imagery, multi-ray, photogrammetry) point clouds. For sUAS data collection and processing, LP360 picks up where point cloud generation tools such as PhotoScan and Pix4D leave off. LP360 has a very rapid Return on Investment (ROI), paying for itself within just a few stockpile edit sessions.

Learn how aerial data is collected by drones at Lehigh Hanson, one of the largest aggregate companies in North America. Free online webinar January 17th at 11am PST. Register here.

Learn how Peckham Industries uses the Kespry Automated Drone System to measure stockpiles. Before discovering Kespry, surveys were done once a year at a handful of locations. Today, they can measure stockpiles whenever they’d like and as often as they’d like.

Read an article by Rock Products about Kespry's new Drone 2.0. Kespry Drone 2.0 flies over 30 minutes per flight, covering up to 150 acres at a 400 foot altitude, and can operate effectively in up to 25 mph sustained winds and 35 mph wind gusts. Aggregates customers like Lehigh Hanson have shared that by using Kespry Drone 2.0, they'll be able to map larger areas faster.

Small Unmanned Aerial Systems (sUAS or drones) along with exciting new image processing algorithms are enabling a fundamental change in how stockpile volumetric computations are performed. It is now possible to create accurate three dimensional models of stockpile areas using inexpensive cameras carried by a low cost sUAS (drone). From these 3D models, volumetric computations are easily derived. These new technologies result in significantly lower cost of collection, improved accuracy and non-disruptive data collection. Best of all, they keep data collectors out of harm’s way with collection preformed from a low altitude drone.

Topolyst is an advanced desktop application designed to make easy work of extracting information and derived products from data collected by small Unmanned Aerial Systems (sUAS, UAVs, drones). Topolyst works with point clouds derived Structure from Motion (SfM, dense image matching, point clouds from imagery, multi-ray, photogrammetry) point clouds. For sUAS data collection and processing, Topolyst picks up where point cloud generation tools such as PhotoScan and Pix4D leave off. Topolyst has a very rapid Return on Investment (ROI), paying for itself within just a few stockpile edit sessions.

The Kespry Drone System provides customers the tools needed during mine development to evaluate production potential and plan scheduling using PDF overlays, 3D Models, Contour Maps, Property Boundary Surveys, Geologic Borehole Locations - easily accessed and shared online with Kespry Cloud.

What can drones do for you? If you are wondering how drones can be integrated into your operations, we invite you to read our Drone Mapping Considerations whitepaper. It discusses our experiences in research and development of drone systems and offers advice on integrating drones into your business.

Read an article by Rock Products about how Whitaker Contracting uses Kespry's Automated Drone System to measure stockpiles at its three quarry operations.

Read an article by Rock Products about how aggregates producers are quickly finding out that automated drone systems can improve how a company measures aggregate stockpiles, and save them a lot of money.

Learn how Kespry Automated Drones are used by aggregates companies for aggregate stockpile measurement, inventory management and mine planning, thereby saving time and money.

Learn how by using the Kespry Drone System, Lehigh Hanson is getting cost efficient and accurate measurements of their stockpiles every month, versus the quarterly measurements they were previously getting.

Construction TV spoke with Kespry's Director of Business Development, Grant Lee, about how Construction companies are using the Kespry Drone to track progress and conduct site surveys on the job site. Daily flights, aerial images, maps, 2D and 3D models provide construction project managers, general contractors and survey managers with the up to date reporting.

Learn how Whitaker Contracting use Kespry Drones to automatically measure the volume of stockpiles at their aggregate quarries, including 3D aerial models for mine planning, mine operations and mine safety.

An overview of how the Kespry Drone System makes can automatically calculate the volume of any type of stockpile. Automatically measure any type of stockpile using a drone, from aggregate materials like sand, stone, gravel and rock, to biomass products like pulp, timber, logs, and lawn and garden like woodchips, mulch and fertilizer, even landfill stockpiles.

This detailed ROI case study compares measuring aggregate stockpiles using traditional surveying to using an automated drone system. Whitaker Contracting is already saving 22% measuring their stockpiles with Kespry drones, while surveying 2X more frequently and spending 4X less time overall, with additional benefits to their business

Feature Story in Aggregates Manager about how Kespry Drones are improving stockpile analysis and safety.

Automated Drone Systems enable mining companies to automatically gather aerial data to measure aggregate stockpiles and assist with mine planning and quarry operations, leading to time and cost savings. This product data sheet provides an overview and specification for the Kespry Drone System.

In this video we will walk through the publisher client application which is a part of the Airgon Hosted solution.