Bhaskar Karanth scite author profile

Bhaskar Karanth

2Publications

7Citation Statements Received

6Citation Statements Given

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Hatch (Canada)

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A high-level dynamic analysis approach for studying global process plant availability and production time in the early stages of mining projects

2017

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In the early stage of front-end studies of a Mining Project, the global availability (i.e. number of hours a plant is available for production) and production (number of hours a plant is actually operated with material) time of the process plant are normally assumed based on the experience of the study team. Understanding and defining the availability hours at the early stages of the project are important for the future stages of the project, as drastic changes in work hours will impact the economics of the project at that stage. An innovative high-level dynamic modeling approach has been developed to assist in the rapid evaluation of assumptions made by the study team. This model incorporates systems or equipment that are commonly used in mining projects from mine to product stockyard discharge after the processing plant. It includes subsystems that will simulate all the component handling, and major process plant systems required for a mining project. The output data provided by this high-level dynamic simulation approach will enhance the confidence level of engineering carried out during the early stage of the project. This study discusses the capabilities of the approach, and a test case compared with standard techniques used in mining project front-end studies.

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A High Level Dynamic Analysis Tool to Study the Impact of Surge Capacity/Stockpile Sizing Early Stage of the Iron Ore Projects

Cremonese¹,

Karanth²

2014

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In the early stage of front end studies of an Iron Ore Project, the sizing of surge capacities and stockpiles are normally assumed based on the experience of the study team. Understanding and sizing of these capacities at the early stages of the project are important for future stages of the project as drastic changes in sizes will impact the economics of the project at that stage. An innovative user configurable high level dynamic modeling tool has been developed to assist in speedy evaluation of assumptions made by the study team. This model incorporates systems or facilities that are commonly used iron ore project from mine to port. This model includes subsystems that will simulate all the logistical components, major process plant systems required for an Iron ore project. The output data provided by this high level dynamic simulation tool will enhance the confidence level of engineering carried out during the early stage of the project. This paper discusses the innovative tool capabilities and a test case comparing various techniques used in iron ore project front end studies.

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Bhaskar Karanth

A high-level dynamic analysis approach for studying global process plant availability and production time in the early stages of mining projects

A High Level Dynamic Analysis Tool to Study the Impact of Surge Capacity/Stockpile Sizing Early Stage of the Iron Ore Projects

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