A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support

A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support

A powered longwall mining system comprises three basic machines: a shearer, a scraper (longwall) conveyor, and a powered roof support. The powered roof support as a component of a longwall complex has two functions. It protects the working from roof rocks that fall to the area where the machines and...

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Main Authors: Dawid Szurgacz, Sergey Zhironkin, Michal Cehlár, Stefan Vöth, Sam Spearing, Ma Liqiang
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Energies
Subjects:
safety function
electro-hydraulic control system
powered roof support
Online Access:https://www.mdpi.com/1996-1073/14/3/697
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spelling doaj-8b9bbdd45f624b939f18f7730e92f5ab2021-01-30T00:06:42ZengMDPI AGEnergies1996-10732021-01-011469769710.3390/en14030697A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof SupportDawid Szurgacz0Sergey Zhironkin1Michal Cehlár2Stefan Vöth3Sam Spearing4Ma Liqiang5Center of Hydraulics DOH Ltd., 41-906 Bytom, PolandDepartment of Trade and Marketing, Siberian Federal University, 79 Svobodny av., 660041 Krasnoyarsk, RussiaFaculty of Mining, Ecology, Process Technologies and Geotechnology, Technical University of Košice, Letná 9, 042 00 Košice, SlovakiaTechnische Hochschule Georg Agricola (THGA), Westhoffstraβe 15, 44791 Bochum, GermanyWA School of Mines: Minerals, Energy and Chemical Engineering, Curtin University, Kent Street, Bentley, WA 6102, AustraliaSchool of Mines, China University of Mining and Technology, 1 Daxue Road, Tongshan District, Xuzhou 221116, ChinaA powered longwall mining system comprises three basic machines: a shearer, a scraper (longwall) conveyor, and a powered roof support. The powered roof support as a component of a longwall complex has two functions. It protects the working from roof rocks that fall to the area where the machines and people work and transports the machines and devices in the longwall as the mining operation proceeds further into the seam by means of hydraulic actuators that are adequately connected to the powered support. The actuators are controlled by a hydraulic or electro-hydraulic system. The tests and analyses presented in the developed procedure are oriented towards the possibility of introducing automatic control, without the participation of an operator. This is important for the exploitation of seams that are deposited at great depths. The primary objective was to develop a comprehensive methodology for testing and evaluating the possibility of using the system under operating conditions. The conclusions based on the analysis presented are a valuable source of information for the designers in terms of increasing the efficiency of the operation of the system and improving occupational safety. The authors have proposed a procedure for testing and evaluation to introduce an automatic control system into the operating conditions. The procedure combines four areas. Tests and analyses were carried out in order to determine the extent to which the system could be potentially used in the future. The presented solution includes certification and executive documentation.https://www.mdpi.com/1996-1073/14/3/697safety functionelectro-hydraulic control systempowered roof support
collection DOAJ
language English
format Article
sources DOAJ
author Dawid Szurgacz
Sergey Zhironkin
Michal Cehlár
Stefan Vöth
Sam Spearing
Ma Liqiang
spellingShingle Dawid Szurgacz
Sergey Zhironkin
Michal Cehlár
Stefan Vöth
Sam Spearing
Ma Liqiang
A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support
Energies
safety function
electro-hydraulic control system
powered roof support
author_facet Dawid Szurgacz
Sergey Zhironkin
Michal Cehlár
Stefan Vöth
Sam Spearing
Ma Liqiang
author_sort Dawid Szurgacz
title A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support
title_short A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support
title_full A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support
title_fullStr A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support
title_full_unstemmed A Step-by-Step Procedure for Tests and Assessment of the Automatic Operation of a Powered Roof Support
title_sort step-by-step procedure for tests and assessment of the automatic operation of a powered roof support
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-01-01
description A powered longwall mining system comprises three basic machines: a shearer, a scraper (longwall) conveyor, and a powered roof support. The powered roof support as a component of a longwall complex has two functions. It protects the working from roof rocks that fall to the area where the machines and people work and transports the machines and devices in the longwall as the mining operation proceeds further into the seam by means of hydraulic actuators that are adequately connected to the powered support. The actuators are controlled by a hydraulic or electro-hydraulic system. The tests and analyses presented in the developed procedure are oriented towards the possibility of introducing automatic control, without the participation of an operator. This is important for the exploitation of seams that are deposited at great depths. The primary objective was to develop a comprehensive methodology for testing and evaluating the possibility of using the system under operating conditions. The conclusions based on the analysis presented are a valuable source of information for the designers in terms of increasing the efficiency of the operation of the system and improving occupational safety. The authors have proposed a procedure for testing and evaluation to introduce an automatic control system into the operating conditions. The procedure combines four areas. Tests and analyses were carried out in order to determine the extent to which the system could be potentially used in the future. The presented solution includes certification and executive documentation.
topic safety function
electro-hydraulic control system
powered roof support
url https://www.mdpi.com/1996-1073/14/3/697
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