Abstract
The article presents a comparison of thermal comfort in two educational buildings of the Kielce University of Technology, a traditional building and an intelligent building Energis (using solar energy to generate electricity for heating water and lighting the building). The results obtained from the questionnaires allowed the calculation of the Thermal Sensation Vote (TSV) and comparison with the Fanger model. The analysis consisted in comparing the thermal and air humidity ratings in both buildings. Graphs on thermal assessment, air humidity and thermal preferences were drawn up. On the basis of the obtained results, it can be concluded that the vast majority of the respondents did not feel well in the rooms they studied. The results obtained from the research may be useful for building managers to apply the appropriate thermal conditions.
Highlights
Nowadays (Covid - 19) our way of living and working has changed to remote mode like never before
Thermal comfort is characterized by the fact that we feel comfortable in given climatic conditions
The above results show a significant discrepancy between the Fanger model (PMV) and the statistical responses of the subjects (TSV)
Summary
Nowadays (Covid - 19) our way of living and working has changed to remote mode like never before. The aspect of thermal comfort is becoming more and more common. Thermal comfort is characterized by the fact that we feel comfortable in given climatic conditions. A person feels comfort in different ways. One person may feel warm under the same conditions and the other cold. Failure to provide appropriate conditions has a negative effect on our body. Human organisms have different biological characteristics, which is associated with different feelings when staying in the same conditions. Failure to provide the right climatic conditions can affect our productivity, health, fatigue and well-being. In order to ensure thermal comfort, people staying in the room at the moment should be kept in an appropriate state of air. The feeling of thermal comfort affects our performance. That is why thermal comfort is such an important aspect
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