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The focal point is to present the areas where the technology in buildings can be supported by proper motivation and take substantial advantage measurable in technical units. The need to understand the integration between ecology, society, economy and technology is crucial when global improvements are the targets. These targets should consider urban environments as natural human settlement, in the understanding that accepts human psychological needs for wide and deep education, acquiring highly professional satisfaction without resigning from family style of life and leisure as natural. It is necessary to accept human production also in its advanced levels as a natural human activity and to combine it with the other afore-mentioned components of integration. Attention has been directed to clean energy certification in newly constructed objects and refurbished buildings, formation of owner’s responsibility for the possessed goods and their best use in sustainable development. Particular attention has been drawn to the increasingly popular manner of using resources only if it is justified by proportionally very high advantages to the society. This has been presented with the examples of energy savings in low energy and passive buildings. Moreover, the examples show the ways of sustainable development which include the use of renewable energy, using coal only in collective industrial systems very restricted in terms of protection against pollution and uncontrolled use of energy, and similarly, of other conventional fuels, water and land.
Czasopismo
Rocznik
Tom
Strony
137--143
Opis fizyczny
Bibliogr. 9 poz., tab., rys.
Twórcy
autor
- Fundamentals of Technology Faculty, Lublin University of Technology, Nadbystrzycka 38 Str., 20-618 Lublin, Poland
autor
- Fundamentals of Technology Faculty, Lublin University of Technology, Nadbystrzycka 38 Str., 20-618 Lublin, Poland
Bibliografia
- 1. Adamski M, Dworecki Z, Fiszer A, Łoboda M, Niedbała G, 2015. Comparative analysis of energy contents in fuels (in Polish), Uniwersytet Przyrodniczy w Poznaniu, Instytut Bioinżynierii Systemów, Poznań, http://www.pimr.poznan.pl. Access Dec. 2015.
- 2. Berge B. 2009. The ecology of building materials. Second edition, Architectural Press, p. 30, 254–256, 289.
- 3. Heim D., Panek A. 2008. The basis for the month balance metod to determine energy demand for heat and cooling In the relation to the directive of EPBD, (in Polish) in Energia i Budynek, 1(11), 22–28.
- 4. http://ec.europa.eu/eurostat/statistics-explained/index.php/Waste_statistics. Access Dec. 2016.
- 5. http://meteo.ftj.agh.edu.pl/meteo Access Dec. 2016.
- 6. Urzędowski A., Wójcicka-Migasiuk D. 2015. Visual analysis of heat transport in unique object. Advances in Science and Technology Res. J. 28(9), 153–159.
- 7. Walendziewski J., Kułażyński M., Surma A. 2007. Waste potential and their types for fuel production (in Polish) Sieć Naukowo- Gospodarcza “Energia” Wrocław, http://www.energia.dczt.wroc.pl/files/ Określenie%20potencjału%20odpadów.pdf, Access Apr. 2017.
- 8. Wójcicka-Migasiuk D. 2016. The influence of pro-ecological behavior on life style in Polish conditions (in Polish) In: Humanistyka a nauki ścisłe, ed. Halina Rarot, Politechnika Lubelska, Monografie 2016, p. 43–69.
- 9. Zielina-Radziszewska E. 2017. The evaluation of thermal renovations of buildings – pros and cons – the most frequent errors, (in Polish). Przegląd Budowlany, 9(42), 45–48.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-12f20941-c9bc-45cb-88d1-93c9b72496f9