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Grzegorz Wodnicki

Bio: Grzegorz Wodnicki is an academic researcher from Poznań University of Technology. The author has contributed to research in topics: Thermal energy & Building-integrated photovoltaics. The author has an hindex of 1, co-authored 2 publications receiving 14 citations.

Papers
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Journal ArticleDOI
18 May 2020-Energies
TL;DR: In this paper, the potential of using photovoltaic (PV) panels as wall cladding was analyzed, in order to reduce energy (electric and thermal) consumption and financial expenditure.
Abstract: Based on a method to reduce energy consumption suggested in a real energy audit carried out in an industrial plant located in Poznan (city in Poland), the potential of using photovoltaic (PV) panels as wall cladding was analyzed, in order to reduce energy (electric and thermal) consumption and financial expenditure. The authors’ concept of using building integrated photovoltaic installation (BIPV) was presented and tested. This study checked whether the presence of PV modules would also affect heat transfer through the external wall of the building on which the installation is located. The analysis consisted of determining, for two variants, the heat transfer coefficients across the partition, in order to estimate the potential thermal energy savings. The first variant concerned the existing state, i.e., heat transfer through the external wall of the building, while the second included an additional partition layer in the form of photovoltaic panels. As a result, the use of panels as wall cladding allowed the improvement of the thermal parameters of the building wall (by increasing the thermal resistance of the wall), and the reduction of gas consumption for heating. The panels also generate electricity for the factory’s own needs. Payback time, compared to calculations which do not include changes in thermal parameters, was shortened from 14 to 11 years. The main reason for this is that gas consumption is reduced due to the improved heat transfer coefficient of the wall and the reduction of the heat loss of the facility. This aspect is usually overlooked when considering photovoltaic installations and, as argued by this paper, can be important.

18 citations


Cited by
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Journal ArticleDOI
TL;DR: In the present work, temperature regulation of PV cells is comprehensively reviewed considering potential methods i.e. air-assisted cooling and the use of phase change material (PCM) for space heating.

26 citations

Journal ArticleDOI
29 Dec 2020-Energies
TL;DR: In this paper, the authors assess the macroeconomic investment efficiency of photovoltaic installations in order to meet the demand for electric energy in single-family homes in Polish conditions.
Abstract: An increase in energy demand that is caused by fast economic development, a limited and constantly decreasing supply of traditional energy sources, as well as excessive environmental pollution that is caused by an increasing concentration of dust and gases in the atmosphere constitute the main factors that contribute to the ever-increasing interest in renewable sources of energy. The most important and promising renewable source of energy is thought to be solar energy. The aim of the paper is to assess the macroeconomic investment efficiency of photovoltaic installations in order to meet the demand for electric energy in single-family homes in Polish conditions. The conducted analysis comprises market characteristics and legal regulations concerning the sale of electric energy in Poland. Calculations were made for 320 variants that differed with regard to investment location, building orientation, and roof inclination. The results indicate that the most beneficial region for photovoltaic micro-installations, from a social perspective, is the south-east of and central Poland. The highest values of economic efficiency were achieved in the case of a southern roof inclination as well as a south-eastern and south-western building orientation. No big differences were observed in the economic investment efficiency for the panel inclinations. The calculated Discounted Payback Period, depending on the calculation method, equals 5.4 to 10 years. The results of the study confirm that the implemented support instruments for investments in photovoltaic installations producing energy for single-family house demand is economically viable.

19 citations

Journal ArticleDOI
01 Oct 2021
TL;DR: A broad overview of the different active and passive technologies involved in the use of heat exchangers for HVAC in order to achieve a near net zero energy building is provided in this article.
Abstract: Shallow geothermal systems use the thermal inertia of the earth to provide a temperature gradient between the ambient conditions and the underground soil. This thermal inertia can be used by the heat exchangers to provide space heating and cooling during the winters and summers. This paper provides a brief but broad overview of the different active and passive technologies involved in the use of heat exchangers for HVAC in order to achieve a near net zero energy building. Firstly the different types of ground heat exchangers and heat pumps are introduced along with the relevant studies of significance in this field. It has been demonstrated that the different types of heat exchangers can be integrated with thermally active building envelopes and renewable energy resources to significantly minimize the building energy use. Finally a pathway has been devised for use of ground heat exchangers to realize a net zero energy building.

18 citations

Journal ArticleDOI
02 Apr 2021-Energies
TL;DR: In this paper, a complex thermal modernization of a school building, performed by following Polish regulations, was presented, and an optimal variant of an investment and an ex-post analysis were described.
Abstract: Thermal refurbishment of buildings results in certain energy, financial, and environmental effects. Such investments are financially supported in Poland after meeting the legally defined conditions of thermal protection and energy consumption. This paper presents a complex thermal modernization of a school building, performed by following Polish regulations. A detailed description of the studied object was given, and the calculation procedure was described. Then an optimal variant of an investment and an ex-post analysis were described. Simple payback time (SPBT) of modernization measures was from 15.8 years (insulation of the ceiling under the unheated attic) to 87 years for insulation of the wooden external wall, with 35.6 years for the whole project, which is shorter than the predicted lifespan of the whole building (50–70 years). Annual calculated heating demand decreased from 464.78 to 168.73 GJ, resulting in the primary energy consumption indicator (EP) of 484.44 and 129.46 kWh/m2, respectively. Thermal refurbishment with the replacement of an old boiler into a new wood-pellet one resulted in a significant reduction of SO2 and dust emissions from 451 to 27.5 kg and from 399 to 13 kg, respectively.

15 citations

Journal ArticleDOI
TL;DR: The conducted analyses demonstrated that the degradation process in the case of LIBs was characterised by high variability depending on the cyclic operation parameters, which was taken into account in the new model, which is an improvement on the currently existing methods.
Abstract: In this article, the authors propose an original method for the modeling of the state of health of cyclically operating lithium-Ion batteries (LIBs), based on Gaussian process regression. This method allows for the estimation of the degradation of the LIBs during an equivalent duty cycle at various load patterns. The results of many years of research on the degradation of LIBs have been analyzed in two aspects. The first one concerned degradation under constant loads, and the second was related to degradation taking into account randomly variable loads. The conducted analyses demonstrated that the degradation process in the case of LIBs was characterised by high variability depending on the cyclic operation parameters (the charging and discharging half-cycle). Furthermore the degradation of LIBs depends, to a significant extent on the current state of health. For this reason, this parameter was taken into account in the new model, which is an improvement on the currently existing methods. The developed model has been verified by simulating the variable load of the cells during its entire lifespan — the obtained percentage prediction error margin during the whole simulation did not exceed 5%, which confirmed its practical usefulness.

15 citations