Test procedure development in order to optimize calculation of the power demand for Bucket-Wheel Drives

Research output: ThesisMaster's Thesis (University Course)

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@phdthesis{4500452a1e704cc18eedd084f2939778,
title = "Test procedure development in order to optimize calculation of the power demand for Bucket-Wheel Drives",
abstract = "The topic of the project work is titled “test procedure development in order to optimize calculation of the power demand for bucket-wheel drives” which contains on the one hand the theoretical topic of calculating and dimensioning the bucket-wheel and it{\textquoteright}s drive and on the other hand the investigation of field tests in order to evaluate relationships between on-site and material parameters and calculation terms. Today within SANDVIK the dimensioning of the bucket-wheel drives is based on calculations with the usage of known material parameters and assumed factors from years of experience. This aspect is not entirely satisfactory because of a wide range of uncertainties and inaccuracies of the predictions; because of this in some cases the designated installed power must be chosen very conservatively. High safety reserve on the installed power of the bucket-wheel drives will guarantee on the one hand reliable operation but on the other hand to unnecessary high investment costs. Especially in new applications machine manufacturers will enter a field of unknown requirements and conditions, therefore it is mandatory to correctly evaluate the correlation between material properties and the power demand of bucket-wheel drives. A simplified test procedure, if this could be found, could have the potential of being a strong and powerful tool in engineering when offering these types of machines.",
author = "Hans-J{\"o}rg Sand",
note = "embargoed until null",
year = "2013",
language = "English",
type = "Master's Thesis (University Course)",

}

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TY - THES

T1 - Test procedure development in order to optimize calculation of the power demand for Bucket-Wheel Drives

AU - Sand, Hans-Jörg

N1 - embargoed until null

PY - 2013

Y1 - 2013

N2 - The topic of the project work is titled “test procedure development in order to optimize calculation of the power demand for bucket-wheel drives” which contains on the one hand the theoretical topic of calculating and dimensioning the bucket-wheel and it’s drive and on the other hand the investigation of field tests in order to evaluate relationships between on-site and material parameters and calculation terms. Today within SANDVIK the dimensioning of the bucket-wheel drives is based on calculations with the usage of known material parameters and assumed factors from years of experience. This aspect is not entirely satisfactory because of a wide range of uncertainties and inaccuracies of the predictions; because of this in some cases the designated installed power must be chosen very conservatively. High safety reserve on the installed power of the bucket-wheel drives will guarantee on the one hand reliable operation but on the other hand to unnecessary high investment costs. Especially in new applications machine manufacturers will enter a field of unknown requirements and conditions, therefore it is mandatory to correctly evaluate the correlation between material properties and the power demand of bucket-wheel drives. A simplified test procedure, if this could be found, could have the potential of being a strong and powerful tool in engineering when offering these types of machines.

AB - The topic of the project work is titled “test procedure development in order to optimize calculation of the power demand for bucket-wheel drives” which contains on the one hand the theoretical topic of calculating and dimensioning the bucket-wheel and it’s drive and on the other hand the investigation of field tests in order to evaluate relationships between on-site and material parameters and calculation terms. Today within SANDVIK the dimensioning of the bucket-wheel drives is based on calculations with the usage of known material parameters and assumed factors from years of experience. This aspect is not entirely satisfactory because of a wide range of uncertainties and inaccuracies of the predictions; because of this in some cases the designated installed power must be chosen very conservatively. High safety reserve on the installed power of the bucket-wheel drives will guarantee on the one hand reliable operation but on the other hand to unnecessary high investment costs. Especially in new applications machine manufacturers will enter a field of unknown requirements and conditions, therefore it is mandatory to correctly evaluate the correlation between material properties and the power demand of bucket-wheel drives. A simplified test procedure, if this could be found, could have the potential of being a strong and powerful tool in engineering when offering these types of machines.

M3 - Master's Thesis (University Course)

ER -