A Method for Correction of Dynamic Errors When Measuring Flat Surfaces

Dichev, Dimitar; Diakov, Dimitar; Zhelezarov, Iliya; Valkov, Stefan; Ormanova, Maria; Dicheva, Ralitza; Kupriyanov, Oleksandr

doi:10.3390/s24165154

Sensors

2024

DOI: 10.3390/s24165154

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A Method for Correction of Dynamic Errors When Measuring Flat Surfaces

Dimitar Dichev,

Dimitar Diakov,

Iliya Zhelezarov

et al.

Abstract: This paper presents a new method for correction of dynamic errors occurring when measuring flat surfaces in the presence of mechanical effects. Mechanical effects cause inertial forces and moments that affect the moving components of measuring instruments, thereby causing dynamic errors. The study proposes a mathematical model, on the basis of which algorithms for correction of dynamic errors can be developed. The basic concept of the model is based on determining the optimal estimate in the current coordinate… Show more

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Cited by 3 publications

References 36 publications

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Hrinchenko,

Antonenko,

Tarasov

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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The study proposes a model of engineering management of energy enterprises for sustainable development, which includes monitoring and evaluation of the technical condition of energy facilities, planning maintenance work based on the assessment results, and forecasting violations of normal operating conditions. Based on these data, the life cycle of energy equipment is managed, and the effectiveness of engineering decision-making is determined within the engineering management framework. The engineering management model is based on an integrated approach covering all equipment life cycle stages. On the example of pipeline systems of nuclear power plants, the article proposes to manage degradation processes and the sustainability of operations by reducing vibration load, which significantly impacts the efficiency, reliability, and safety of all power plant equipment. A damping vibration isolating support with an elastic rubber element is proposed, the advantage of which is the ability to adjust the stiffness of the support. Studies with the adjustment of the rigidity of the fasteners and the study of the amplitude-frequency characteristics of the pipeline section with additional damping supports showed a decrease in the maximum amplitudes of oscillations from 800 microns to 35 microns in section 1 and from 425 microns to 20 microns in section 2 and the effectiveness of their use for frequency restoration and reduction of oscillations.

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Engineering Management of Energy Utilities for Sustainable Development

Hrinchenko,

Antonenko,

Tarasov

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

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Beńko,

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2024

Energies

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This paper presents a proposal in which the maximum energy density criterion is used to evaluate the dynamic accuracy of LVDT (Linear variable differential transformer) sensors for applications in the energy industry. The solutions proposed in the paper are based on a mathematical model of the LVDT sensor, represented by its frequency response. The mathematical foundations required for the synthesis of such a model and the formulae and algorithm necessary to determine the maximum energy density for the integral-square error criterion are presented. Numerical and simulation calculations are performed using MathCad 15 and MATLAB R2014a programs. The solutions presented in this paper can constitute a basis for the selection of LVDT sensors for applications in the energy industry, with a view to achieving accurate diagnostic measurements.

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The Levenberg–Marquardt Procedure for Modeling Accelerometers Used in the Energy Industry

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This paper presents an effective Levenberg–Marquardt procedure for modeling accelerometers used in the energy industry. The proposed procedure applies the results of accelerometer calibration methods commonly used in engineering practice using stationary or portable calibrators. These methods are extended here to more advanced solutions, which will constitute the basis for further research (both practical and theoretical) for improving the accuracy of accelerometers, which play an extremely important diagnostic function in the operation of machines, devices, and the wide range of components used in the energy industry. The research results presented in this article were obtained using MathCad 15 and MATLAB R2024a software.

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A Method for Correction of Dynamic Errors When Measuring Flat Surfaces

Cited by 3 publications

References 36 publications

Engineering Management of Energy Utilities for Sustainable Development

Engineering Management of Energy Utilities for Sustainable Development

Maximum Energy Density for Evaluation of the Dynamic Accuracy of LVDT Sensors Applied in the Energy Industry

The Levenberg–Marquardt Procedure for Modeling Accelerometers Used in the Energy Industry

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