Your search keyword '"Pawel Znaczko"' showing total 5 results

1. Experimental Analysis of Control Methods in Solar Water Heating Systems

Author

Pawel Znaczko, Kazimierz Kaminski, Norbert Chamier-Gliszczynski, Emilian Szczepanski, and Paweł Gołda

Subjects

proportional control, ON-OFF control, solar water heating systems, solar collector, control methods, solar radiation, Technology

Abstract

This paper focuses on an analysis of selected control methods in solar heating systems. Proportional, ON-OFF, and new proposed IPC control methods were tested. Experimental tests were conducted under natural conditions using the author’s method of clustering measurement days. In the form of thermal energy gains in the storage tanks, the results for all tested control methods are presented. The ON-OFF control method is suitable for low variability of solar radiation conditions but is ineffective under dynamic solar radiation conditions. The proportional controllers collect thermal energy under high variability solar radiation effectively, but they tend to cause thermal drifts from the system under high heat load. The proposed IPC control method prevents the waste of heat energy and makes more efficient use of the high and dynamic solar radiation. In conclusion, energy gains depend more on the level of solar radiation and less on its variability. However, the variability of solar radiation makes control in solar systems more challenging, and it is one of the factors that should determine the control strategy. The novelty of this work is based on an extension of the control algorithm by adding the temperature at the entry and exit of the solar coil. This makes it possible to eliminate thermal drift and observe the intensity of heat transfer to the water in the tank.

Published

2021

2. Experimental Diagnosis of the Heat Pipe Solar Collector Malfunction. A Case Study

Author

Pawel Znaczko, Emilian Szczepanski, Kazimierz Kaminski, Norbert Chamier-Gliszczynski, and Jacek Kukulski

Subjects

heat pipe solar collector, diagnostic investigation, infrared measurement, heat pipe defects, phase change materials, thermal efficiency, Technology

Abstract

Work was carried out to diagnose irregularities in the operation of a vacuum-tube solar collector. Experimental investigations of the collector were carried out at the solar collector field test stand in the Laboratory of Solar Collectors at the Koszalin University of Technology. The scope of the work included the following: research on thermal efficiency characteristics, research on the temperature distribution on the solar collector manifold, and research on the geometric structure of the heat pipe and filling with the working medium. Based on the diagnostic tests carried out, the occurrence of incorrect sedimentation in the condenser on the neck of the heat pipe (44%) and an incorrect amount of working medium (66%) were found. The results show that the functioning of the heat pipe significantly depends on its geometric structure and the amount of working medium. Any irregularity at the production stage contributes to a reduction in the thermal efficiency of the solar collector. The results of the experimental research presented in this paper can be used in the diagnostic analyses of solar systems as well as in the organisation of the manufacturing processes of these systems.

Published

2021

3. On the Correlation between the Geometrical Features and Thermal Efficiency of Flat-Plate Solar Collectors

Author

Waldemar Kuczynski, Kazimierz Kaminski, Pawel Znaczko, Norbert Chamier-Gliszczynski, and Piotr Piatkowski

Subjects

solar energy, flat-plate solar collector, geometrical features, numerical modeling, thermal efficiency, Technology

Abstract

This article presents the results of numerical and experimental studies on the impacts of the selected geometrical features of liquid solar collectors on their thermal efficiency. The experiments were carried out while meeting the requirements of the ISO 9806:2017 standard. Selected changes in the geometrical features were analysed by using fully functional prototypes of modified solar collectors. The correlations between the design and performance properties of the solar collectors were determined in accordance with the changes in the shape of the thermal efficiency η(T*m) curve.

Published

2021

4. Experimental Diagnosis of the Heat Pipe Solar Collector Malfunction. A Case Study

Author

Emilian Szczepanski, Pawel Znaczko, Norbert Chamier-Gliszczynski, Jacek Kukulski, and Kazimierz Kaminski

Subjects

Technology, Work (thermodynamics), Thermal efficiency, Control and Optimization, 020209 energy, Energy Engineering and Power Technology, Mechanical engineering, 02 engineering and technology, law.invention, law, heat pipe defects, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, thermal efficiency, heat pipe solar collector, Engineering (miscellaneous), Condenser (heat transfer), Renewable Energy, Sustainability and the Environment, Diagnostic test, 021001 nanoscience & nanotechnology, Experimental research, diagnostic investigation, infrared measurement, Heat pipe, phase change materials, Environmental science, 0210 nano-technology, Manifold (fluid mechanics), Energy (miscellaneous)

Abstract

Work was carried out to diagnose irregularities in the operation of a vacuum-tube solar collector. Experimental investigations of the collector were carried out at the solar collector field test stand in the Laboratory of Solar Collectors at the Koszalin University of Technology. The scope of the work included the following: research on thermal efficiency characteristics, research on the temperature distribution on the solar collector manifold, and research on the geometric structure of the heat pipe and filling with the working medium. Based on the diagnostic tests carried out, the occurrence of incorrect sedimentation in the condenser on the neck of the heat pipe (44%) and an incorrect amount of working medium (66%) were found. The results show that the functioning of the heat pipe significantly depends on its geometric structure and the amount of working medium. Any irregularity at the production stage contributes to a reduction in the thermal efficiency of the solar collector. The results of the experimental research presented in this paper can be used in the diagnostic analyses of solar systems as well as in the organisation of the manufacturing processes of these systems.

Published

2021

5. On the Correlation between the Geometrical Features and Thermal Efficiency of Flat-Plate Solar Collectors

Author

Norbert Chamier-Gliszczynski, Pawel Znaczko, Kazimierz Kaminski, Waldemar Kuczyński, and Piotr Piatkowski

Subjects

Thermal efficiency, Control and Optimization, Materials science, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:T, 020209 energy, 020208 electrical & electronic engineering, solar energy, Energy Engineering and Power Technology, Numerical modeling, Mechanical engineering, 02 engineering and technology, geometrical features, Solar energy, lcsh:Technology, numerical modeling, 0202 electrical engineering, electronic engineering, information engineering, flat-plate solar collector, Electrical and Electronic Engineering, thermal efficiency, business, Engineering (miscellaneous), Energy (miscellaneous)

Abstract

This article presents the results of numerical and experimental studies on the impacts of the selected geometrical features of liquid solar collectors on their thermal efficiency. The experiments were carried out while meeting the requirements of the ISO 9806:2017 standard. Selected changes in the geometrical features were analysed by using fully functional prototypes of modified solar collectors. The correlations between the design and performance properties of the solar collectors were determined in accordance with the changes in the shape of the thermal efficiency &eta, (T*m) curve.

Published

2021