A new generation system for high-performance wall complexes (Q84081): Difference between revisions
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(Removed claim: summary (P836): The aim of the project is to develop and implement a new generation system for a high-performance multipurpose mine.40 years ago, the commonly used Eick-off ground scheme is not adapted to the strength of modern walls of the wall.As a result of the development of the combine harvester, the wall features, inter alia, of the increase of their forces, which, in conjunction with the rigid construction of the Eickaside system, increases the consump...) |
(Created claim: summary (P836): The aim of the project is to develop and implement a new generation of mining feed system for high-performance wall harvester. Developed forty years ago, the commonly used Eicotrack feed system is not adapted to the power of modern wall harvesters. The result of the development of wall harvesters is, among other things, an increase in their tractor strength, which, in conjunction with the rigid construction of the Eicotrack system, increases the...) |
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The aim of the project is to develop and implement a new generation of mining feed system for high-performance wall harvester. Developed forty years ago, the commonly used Eicotrack feed system is not adapted to the power of modern wall harvesters. The result of the development of wall harvesters is, among other things, an increase in their tractor strength, which, in conjunction with the rigid construction of the Eicotrack system, increases the wear of its components, causing numerous failures, downtimes and losses in extraction. Using virtual prototyping and computer simulations, as part of the proposed project, an innovative, susceptible modular feed system will be developed with the possibility of adapting to carbon wall inequality. In the research phase, the design of the individual components of the system will be shaped and verified. Research on kinematics of the new feed system carried out using virtual prototyping and static and dynamic analysis with the use of MES and LSDyn packages, will allow to assess the correctness of the cooperation of individual components, their strength and durability. Feed system elements will be made using modern precision casting technology. The experimental part of the system will be subjected to stationary testing. The final verification of the newly developed solution will take place during the in situ tests, in the carbon wall using a high-powered wall harvester. The research carried out will confirm the established assumptions regarding the functionality of the system, its usefulness and compare it with the system currently in use. The new generation feed system will enable the Polish mining machinery industry to be more competitive on European and global markets, and its implementation in the Polish mining sector (English) | |||||||||||||||
| Property / summary: The aim of the project is to develop and implement a new generation of mining feed system for high-performance wall harvester. Developed forty years ago, the commonly used Eicotrack feed system is not adapted to the power of modern wall harvesters. The result of the development of wall harvesters is, among other things, an increase in their tractor strength, which, in conjunction with the rigid construction of the Eicotrack system, increases the wear of its components, causing numerous failures, downtimes and losses in extraction. Using virtual prototyping and computer simulations, as part of the proposed project, an innovative, susceptible modular feed system will be developed with the possibility of adapting to carbon wall inequality. In the research phase, the design of the individual components of the system will be shaped and verified. Research on kinematics of the new feed system carried out using virtual prototyping and static and dynamic analysis with the use of MES and LSDyn packages, will allow to assess the correctness of the cooperation of individual components, their strength and durability. Feed system elements will be made using modern precision casting technology. The experimental part of the system will be subjected to stationary testing. The final verification of the newly developed solution will take place during the in situ tests, in the carbon wall using a high-powered wall harvester. The research carried out will confirm the established assumptions regarding the functionality of the system, its usefulness and compare it with the system currently in use. The new generation feed system will enable the Polish mining machinery industry to be more competitive on European and global markets, and its implementation in the Polish mining sector (English) / rank | |||||||||||||||
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| Property / summary: The aim of the project is to develop and implement a new generation of mining feed system for high-performance wall harvester. Developed forty years ago, the commonly used Eicotrack feed system is not adapted to the power of modern wall harvesters. The result of the development of wall harvesters is, among other things, an increase in their tractor strength, which, in conjunction with the rigid construction of the Eicotrack system, increases the wear of its components, causing numerous failures, downtimes and losses in extraction. Using virtual prototyping and computer simulations, as part of the proposed project, an innovative, susceptible modular feed system will be developed with the possibility of adapting to carbon wall inequality. In the research phase, the design of the individual components of the system will be shaped and verified. Research on kinematics of the new feed system carried out using virtual prototyping and static and dynamic analysis with the use of MES and LSDyn packages, will allow to assess the correctness of the cooperation of individual components, their strength and durability. Feed system elements will be made using modern precision casting technology. The experimental part of the system will be subjected to stationary testing. The final verification of the newly developed solution will take place during the in situ tests, in the carbon wall using a high-powered wall harvester. The research carried out will confirm the established assumptions regarding the functionality of the system, its usefulness and compare it with the system currently in use. The new generation feed system will enable the Polish mining machinery industry to be more competitive on European and global markets, and its implementation in the Polish mining sector (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 16:51, 14 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | A new generation system for high-performance wall complexes |
Project in Poland financed by DG Regio |
Statements
6,768,530.74 zloty
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9,957,644.85 zloty
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67.97 percent
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1 July 2018
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30 June 2021
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INSTYTUT TECHNIKI GÓRNICZEJ KOMAG
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Celem projektu jest opracowanie i wdrożenie nowej generacji systemu posuwu górniczego wysokowydajnego kombajnu ścianowego. Opracowany czterdzieści lat temu, powszechnie stosowany system posuwu typu Eicotrack nie jest dostosowany do mocy współczesnych kombajnów ścianowych. Skutkiem rozwoju kombajnów ścianowych jest m.in. wzrost ich siły uciągu, co w powiązaniu ze sztywną konstrukcją systemu Eicotrack zwiększa zużycie jego elementów powodując liczne awarie, przestoje i straty w wydobyciu. Stosując technikę wirtualnego prototypowania oraz symulacje komputerowe, w ramach wnioskowanego projektu, zostanie opracowany innowacyjny, podatny system posuwu o modułowej budowie z możliwością nadążnego dostosowywania się do nierówności ściany węglowej. W fazie badawczej zostanie ukształtowana i zweryfikowana postać konstrukcyjna poszczególnych elementów systemu. Badania kinematyki pracy nowego systemu posuwu zrealizowane metodą wirtualnego prototypowania oraz analiza statyczna i dynamiczna z wykorzystaniem pakietów MES i LSDyna, pozwolą na ocenę poprawności współpracy poszczególnych elementów, ich wytrzymałości oraz trwałości. Elementy systemu posuwu zostaną wykonane przy użyciu nowoczesnej technologii odlewania precyzyjnego. Partia doświadczalna elementów systemu zostanie poddana badaniom stanowiskowym. Ostateczna weryfikacja nowoopracowanego rozwiązania nastąpi podczas badań w warunkach in situ, w ścianie węglowej z zastosowaniem kombajnu ścianowego dużej mocy. Przeprowadzone badania pozwolą potwierdzić przyjęte założenia w zakresie funkcjonalności systemu, jego przydatności oraz porównać go z systemem obecnie stosowanym. Nowej generacji system posuwu umożliwi zwiększenie konkurencyjności polskiego przemysłu maszyn górniczych na rynkach europejskich i światowych, a jego wdrożenie w polskim sektorze wydobyw (Polish)
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The aim of the project is to develop and implement a new generation of mining feed system for high-performance wall harvester. Developed forty years ago, the commonly used Eicotrack feed system is not adapted to the power of modern wall harvesters. The result of the development of wall harvesters is, among other things, an increase in their tractor strength, which, in conjunction with the rigid construction of the Eicotrack system, increases the wear of its components, causing numerous failures, downtimes and losses in extraction. Using virtual prototyping and computer simulations, as part of the proposed project, an innovative, susceptible modular feed system will be developed with the possibility of adapting to carbon wall inequality. In the research phase, the design of the individual components of the system will be shaped and verified. Research on kinematics of the new feed system carried out using virtual prototyping and static and dynamic analysis with the use of MES and LSDyn packages, will allow to assess the correctness of the cooperation of individual components, their strength and durability. Feed system elements will be made using modern precision casting technology. The experimental part of the system will be subjected to stationary testing. The final verification of the newly developed solution will take place during the in situ tests, in the carbon wall using a high-powered wall harvester. The research carried out will confirm the established assumptions regarding the functionality of the system, its usefulness and compare it with the system currently in use. The new generation feed system will enable the Polish mining machinery industry to be more competitive on European and global markets, and its implementation in the Polish mining sector (English)
14 October 2020
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Identifiers
POIR.04.01.04-00-0068/17
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