Mechanical-Level Hardware-In-The-Loop and Simulation in Validation Testing of Prototype Tower Crane Drives

Michna, Michał; Kutt, Filip; Sienkiewicz, Łukasz; Ryndzionek, Roland; Kostro, Grzegorz; Karkosiński, Dariusz; Grochowski, Bartłomiej

doi:10.3390/en13215727

Cited by 6 publications

(2 citation statements)

References 29 publications

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“…The scientific article [15] describes the methodology of laboratory research of samples of drive systems with energy-saving permanent-magnet electric motors, for modern construction cranes operation. The elements of the crane drive system were also experimentally checked and their compliance with the current standards was confirmed.…”

Section: Analysis Of Publicationsmentioning

confidence: 99%

The dynamic analysis of the joint trolley movement and hoisting mechanism in the tower crane

Ловейкін

Romasevych

Shymko

et al. 2022

OMTC

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The task of this paper is to research the simultaneous use of trolley and hoisting mechanism by the tower crane with a beam jib. To conduct research, a dynamic model of joint movement of mechanisms has been developed, which takes into account the main movement of drive mechanisms and oscillating movement of the load on a flexible suspension and links of mechanisms with elastic properties. A mathematical model of the motion of mechanisms is constructed on the basis of a dynamic model with the help of Lagrange equations of the second kind. For a specific jib system of the tower crane, dynamic calculations were performed using the developed mathematical model. According to the results of the calculations, a dynamic analysis of the joint movement of trolley and hoisting mechanism was carried out. The analysis revealed significant dynamic and energy overloads of mechanisms during transients (start, braking) and the presence of high-frequency oscillations in the links with elastic properties and low-frequency oscillations of the load on a flexible suspension. To reduce the overload of crane mechanisms in the areas of transients and eliminate oscillations during steady traffic, it is recommended to optimize traffic modes and develop drive control systems to implement the desired traffic modes.

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Section: Analysis Of Publicationsmentioning

confidence: 99%

The dynamic analysis of the joint trolley movement and hoisting mechanism in the tower crane

Ловейкін

Romasevych

Shymko

et al. 2022

OMTC

View full text Add to dashboard Cite

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“…The availability and low price of microcontrollers and digital signal processors caused the rapid development of controlled electric drives [1][2][3][4]. The most commonly used electric machines are induction machines which owe their popularity to their simplicity, reliability and low price.…”

Section: Introductionmentioning

confidence: 99%

A Universal Gains Selection Method for Speed Observers of Induction Machine

Wachowiak

2021

Energies

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Properties of state observers depend on proper gains selection. Each method of state estimation may require the implementation of specific techniques of finding those gains. The aim of this study is to propose a universal method of automatic gains selection and perform its verification on an induction machine speed observer. The method utilizes a genetic algorithm with fitness function which is directly based on the impulse response of the observer. System identification using least-squares estimation is implemented to determine the dynamic properties of the observer based on the estimation error signal. The influence of sampling time as well as signal length on the system identification has been studied. The results of gains selection using the proposed method have been compared with results obtained using the approach based on the placement of the poles of linearized estimation error equations. The introduced method delivers results comparable with analytical methods and does not require prior preparation specific to the implemented speed observer, such as linearization.

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