Blast simulation software

blast simulation software

The only blasting effect simulator that takes into account more than 40 key parameter to simulate the effect of a full blast design such as:. Fragmentation control. Vibration control. Slope stability. Fly rock control. DNA -Blast Software is an blasting effect simulator that helps you to optimise in real time your blasting design.

This could bring you substantial benefits to achieve your objectives. DNA -Blast software uses as input data:. Blasting Simulation for a Million Dollar Benefit. The predicting blast design effect tool for mining engineers!

Is perfect for mining engineers looking for a more efficient alternative to standard statistics predicting models when designing a blast. With an powerful simulation engine running advanced blasting mechanisms, I-Blast Simulation delivers incredible readable and realistic output for vibration, fragmentation distribution and fly-rock to avoid you surprises at blasting time. New features include vibration map, fragmentation distribution of the whole blast, fly-rock prediction.

By designing a successful blast 10 times faster with a totally integrated environment, your teams will save time in avoiding field trials and errors : you will achieve your production objectives quickly saving time and money!

DNA-Blast : a unique technology to assess blasting design. I-Blast STD. I-Blast PRO. I-Blast ADV. Case Studies.

Blast, Explosion and Impact

How to. How to Signature Hole. How to Fragmentation. How to Cast. How to Air Blast. Electronic Detonators. Web Timing. TBT is an explosive engineering company specialized in blasting simulation and optimization. The only blasting effect simulator that takes into account more than 40 key parameter to simulate the effect of a full blast design such as: Fragmentation control Vibration control Slope stability Fly rock control and more TBT Legal Company.

Case Studies Vibrations Fragmentation. References Experience Papers Electronic Detonators. Technology Services Web Timing Training.Lithium-ion Li-ion batteries used in electric vehicles EVs and stationary energy storage applications must be optimized to justify their high upfront costs.

Given that batteries degrade with use and storage, strategies for optimization must factor in many years of use with a number of variables, including:.

These factors can all affect rates of battery degradation, making it important to model both the battery and its application in detail to accurately predict longevity. NREL's Battery Lifetime Analysis and Simulation Tool suite answers this need by using a combination of advanced models of batteries, the systems they operate in, and their interaction with users and the environment. This enables highly realistic technical comparisons of different battery-use strategies to predict long-term performance in EVs and stationary energy storage applications.

Blast Furnace Simulation

The BLAST suite of tools pairs NREL's high-fidelity battery degradation model with electrical and thermal performance models specific to batteries and larger application systems. It is free to download and use. The tool combines year-long travel histories of more than drivers with travel routing logic, enabling evaluation of vehicle and battery responses to the deployment charging infrastructure. This includes fast chargers, electrified roadway networks, and battery swapping stations.

Users can enter their own battery duty cycles for direct simulation to evaluate the impacts of different battery sizes, thermal configurations, climates, etc. This approach has been used to study Li-ion battery degradation and longevity in community energy storage CES applications. Alternatively, users can apply NREL's optimal peak-shaving control algorithm to a load profile—e.

This pathway has been employed to evaluate the effectiveness of batteries in providing commercial facility demand charge mitigation. Transportation Research Menu.

Follow NREL.We use cookies to give you the best experience on our website. If you continue without changing your settings we will assume you are happy to receive all cookies Norican Terms and Conditions.

blast simulation software

Advanced technology to aid better machine design and quicker machine delivery to you. The team uses a virtual model of the workpiece and runs it through a virtual blast wheel or nozzle arrangement, controlling all relevant parameters. The resulting heat map shows exactly where a part has been over- or underblasted, where an area is evenly exposed to the abrasive fan or where there are blast shadows.

In the images shown here, cooler areas in greenish blue, green or greenish yellow are considered well covered, purple indicates an unblasted area, red shows overblasting. The colour spectrum generated in the simulation can be translated directly into Sa cleaning degrees. Search our global list of Norican locations for offices and business representatives. We would be happy to discuss your enquiry over the phone.

Call us today. Message us with your enquiry and we will get back to you. Skip to content Skip to menu We use cookies to give you the best experience on our website.

If you continue without changing your settings we will assume you are happy to receive all cookies Norican Terms and Conditions Close cookie notice. Blast Simulation Technology Advanced technology to aid better machine design and quicker machine delivery to you. Knowing how a blast machine will blast a given workpiece before the machine is built — or even before the first drawing is made — means that decisions on the right machine concept can be made faster, saving time and money.

Wheelabrator does this using blast simulation technology to show the blast result on a workpiece as a heat map — for any blast wheel or blast nozzle configuration. How does it work? Video Blast Simulation Technology. The visualisations are a great basis for discussion with the customer, helping us to hone the specification pre-contract and find the most efficient solution. This takes a great deal of technical risk out of the design process, as well as saving time and money.

Efforts are also underway to map various parameters of surface quality as part of the simulation — for example, roughness and almen values. For example, the simulation might give us and the customer the confidence to reduce the number of blast wheels, resulting in energy and abrasive savings.

Overall, using simulations at concept stage means we can cut lead times for new machines drastically, but with maximum confidence in the blast process. View larger image. At Wheelabrator we are committed to achieving the optimum blast result for you and utilise innovative blast simulation technology to ensure this. Blast simulation technology guarantees we find the optimal machine type and wheel arrangement for your exact specifications, for your workpiece. It saves energy, enables the machine to be delivered in a shorter lead time, the technical risk is minimised and a basis for the technical specification is achieved.About Profile Client Map.

Training Support and Maintenance Downloads. It is available as stand-alone modules and three packages. With JKSimBlast you can Blast Design. Detonation Simulation. Explosive Energy Distribution. Damage Contours. JKSimBlast v3. JKSimBlast3 is currently under development as a single program for blast design and analysis. The initial features are:. Options for creating and modifying patterns of blast holes include: row by row, polygon fill, follow line, baseline template adjust collars or toes to a surface or plane save as a template: holes, decks, delays Versatile options for charging and timing load decks by length, mass, collar, percentage, cartridge place downhole delays by length, deck, elevation fully customisable decks and pyrotechnic and electronic delays Analyse, benchmark and optimise blasts for: Powder and Volume Factors Detonation Simulation with scatter, Detonation Contours Burden Relief and Relief Rate Energy and Damage Contours in plan or section Max.

JKBMS provides tools to store and access information related to blasts. TimeHEx extended timing analysis.We use cookies to provide user security, personalise content and analyse our traffic. For more information about the cookies we use, deleting cookies and how to control the cookies your browser accepts, please see our Cookie Notice.

Type the code from the image. Load more. Download flyer. Full 3D design environment Including rotation tool to view blastholes from any angle and proximity, including blast face and drill floor. Blast timing and simulation management Managed manually or automatically, with traditional pyrotechnic or advanced electronic blasting systems, highlighting any problems and confirming the timing sequence, before applying to the blast. Calculation tools and diagnostics Single-click diagnostics show possible misfires, or booster assembly proximity to inert deck interfaces.

Integrate third party designs and layouts from other mine design software Full capability to import data related to material type, hole ID, backfill and hole area from a range of mine planning software.

The templates improve management, control and efficiency of each blast. Advanced timing capability for electronic blasting systems Users can create unique timing sequences for each horizon or strata in a blast with multiple horizons.

Develop loading rules Use an extended range of parameters to develop loading rules, including bench height, burden and spacing, row number, hole parameters including length, diameter, angle and type eg. Superior visualisation and reporting tools A comprehensive range of visualisation tools can assist with the development of firing sequences, to ensure optimisation of each blast.

Learn more. Fragmentation Control The Fragmentation Control solution provides automated capture and reporting of fragmentation data from conveyors and muck piles, enabling improvements in fragmentation outcomes and increasing downstream process performance. Blast Design Achieve better quality blast outcomes with our advanced 3D blast design tool. It allows me to create a blast, upload the information on there that the engineers and the surveyors will need before they come to site.

Customer Stories "The services that Orica provides allow us to have greater control within what we do on site given the volume we produce. Customer Stories "Each plant requires a different material, different sizing, different fragmentation. Hole sizing, hole depth and getting the holes in the right place is very critical in a blast. Customer Stories "With BlastIQ I can see things like fragmentation size, how the shots coming up so we can tweak the patterns to try and keep a bit of value for ourselves out of that.

Customer Stories "With consistent fragmentation and blast outcomes, we can provide flow-on benefits right down the line for our quarry customers.

Blast Design Software - O-Pitblast

Customer Stories Stevenson Group Drury Quarry is located close to neighbours, so adhering to local air overpressure and vibration limits is crucial for the quarry to maintain their licence to operate. View customer story. Comments max chars. I consent to subscribing to the Orica marketing mailing list. Download now. Connect with us.Create and manage your blast design.

The quick and affordable way to create blast design, I-Blast Standard is the ideal solution for blaster or mining engineers. Create your own blast design using versatile tools. Easily import surveyed drilling pattern from from standard survey programs or just use the included pre-built content to get started fast!

The all-in-one blast design tool for professionals! Is perfect for professionals looking for a more efficient alternative to standard Excel spread sheet when analysing a blast design.

With an powerful visual interface loaded with pre-rigged analysis functionalities, I-Blast Professional delivers advanced analysis tools to speed up your workflow and design more efficient blasts. New functionalities.

Whether you are a mining engineer designing blasts everyday, a manager looking for a better control of blasting operation or a blaster starting out learning how to improve blast design, DNA-Blast Software has the right tools for you.

The predicting blast design effect tool for mining engineers! Is perfect for mining engineers looking for a more efficient alternative to standard statistics predicting models when designing a blast.

With an powerful simulation engine running advanced blasting mechanisms, I-Blast Simulation delivers incredible readable and realistic output for vibration, fragmentation distribution and fly-rock to avoid you surprises at blasting time. The optimizing blast design tool for a million dollar benefit! A unique reverse engineering tool for mining engineers looking for optimizing blast on a daily basis.

Imagine the benefits of having a better fragmentation, less vibration, controlled fly-rock or more stable slope Blasting Simulation for a Million Dollar Benefit. Cast Simulation Greatly reduce fly-rock potential.

Advanced DNA-Cast module, takes into account:. Attenuation Law K. Limit Air blast level for less complaints.

BLAST: Battery Lifetime Analysis and Simulation Tool Suite

Read how to do a. CAST simulation in less than 2 minutes. I-Blast STD. I-Blast PRO. I-Blast SIM. I-Blast ADV.

blast simulation software

Case Studies. How to. How to Signature Hole.Designing a building by modeling the consequences of these threats can improve the structural integrity of the building, and it can also create a safer and more comfortable environment for their occupants.

Basic Local Alignment Search Tool

In many disaster scenarios, destruction is so severe that reconstructing the event is difficult. But the knowledge gained from piecing together what happened can benefit designers and engineers.

ANSYS software allows engineers to virtually model various structures and test the impact of environmental and destructive forces as many times as needed to completely understand the effects of a disaster on a structure.

Through virtual modeling, designers can learn not only what happens to a structure when disaster strikes, but why. Consider this example: A portion of a building collapses when hit by a vehicle.

Multiphysics insight into the development of the disaster can provide guidance on how structures can be improved to keep survivors safe — such as modifying ventilation and fire suppressions systems — and strengthened to survive future events. The unequalled depth and unparalleled breadth of simulation software from ANSYS offers engineers many opportunities to optimize building designs to protect them from known yet difficult-to-predict dangers.


Comments

Leave a Reply

Your email address will not be published. Required fields are marked *