Observation
Analysis
Efficiency
Fleet Management

Optimum Fleet Recommendation

A decision for selecting and purchasing new mining or quarry equipment must usually be made without the luxury of a pre-test. Komatsu Application Engineers can provide accurate simulations to assist customers in this process.
Optimum Fleet Recommendation
Job Site Observation

When a customer plans to open a new quarry, renew equipment or increase  production, Komatsu can offer a solution with its Optimum Fleet Recommendation (OFR)  program.

Based on the site’s operating conditions and the customer's preferences and production expectations, OFR helps to determine the most efficient fleet for the job.

 
Optimum Fleet Recommendation
Job Site Measurement
Komatsu-trained application engineers visit the customer’s job sites to gather the necessary information and perform on-site measurements. This includes production & haul road characteristics, as well as material data and working regime. In existing jobsites, current operations are also observed to establish the base for further analysis.
Optimum Fleet Recommendation
Analysis
The application engineer feeds the collected data into Komatsu's very own  simulation program, which also features accurate competitor machine data. Its flexibility allows to easily change any parameter, helping to run various simulations. The “What ifs” are easily processed and the results are always founded on sound engineering principles and accurate physical data.
Optimum Fleet Recommendation
Recommendation
After running the different simulations, the application engineer bundles the findings into a recommendation based on facts and figures. This is then reported to the customer.
Quarry and Mining
Mining, Quarry, Aggregates and Cement
Komatsu's Mining, Quarry, Aggregates and Cement models are world renowned for their reliability and performances. Our many years of experience in the field have given us the expertise to offer the best machines to meet the heavy demands of the extracting and mining industry with an optimal TCO.
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