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Requirements for the internal layout of wooden house from the point of view of ergonomics changes

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A basic need of every responsible man is to provide for own housing with the continual increase of world population energy consumption is growing continually as well and in parallel there is an increase in CO2 emissions. Buildings during their lifetime use approximately 40% of energy, while its operation concerning heating and cooling counts for 60-70% of this consumed energy. The most suitable solution means building houses with low energy demands which do not harm the environment Therefore the preferred solution has become to build houses with low-energy houses not burdening the environment. The aim of this chapter is to present the basic aspects and advantages of wood buildings as well as their requirements for the internal layout from the point of ergonomics changes. We can state that based on findings and research, that the current generation of people has significantly higher height and weight proportions. Based on linear regression equations we define the magnitude of secular changes for men and women. The change represents a 1.55 mm body height increase for men and 0.5 mm for women per year.
Rocznik
Tom
Strony
43--70
Opis fizyczny
Bibliogr. 52 poz., rys., tab.
Twórcy
autor
  • Faculty of Wood Sciences and Technology, Technical University in Zvolen, T.G. Masaryka 24, 960 53 Zvolen, Slovakia
autor
  • Faculty of Wood Sciences and Technology, Technical University in Zvolen, T.G. Masaryka 24, 960 53 Zvolen, Slovakia
autor
  • Faculty of Wood Sciences and Technology, Technical University in Zvolen, T.G. Masaryka 24, 960 53 Zvolen, Slovakia
autor
  • Faculty of Wood Sciences and Technology, Technical University in Zvolen, T.G. Masaryka 24, 960 53 Zvolen, Slovakia
Bibliografia
  • [1] Šuštiaková, M. 2016: Moderné drevostavby – konštrukcie budúcnosti? [online] [cit. 2018-04-02]. Available at: http://mprojekty.sk/blog/modern%C3%A9-drevostavby-kon%C5%A1trukcie-bud%C3%BAcnosti.
  • [2] EN 15459-1:2017: Energy performance of buildings. Economic evaluation procedure for energy systems in buildings. Calculation procedures.
  • [3] STN EN ISO 6946: 2008 (73 0559), Building components and building elements - Thermal resistance and thermal transmittance - Calculation method (ISO 6946: 2008).
  • [4] Tywoniak, J. 2010. Deklarativní výpočty pro pasivní a nulové domy, 2010. [online] [cit. 2018-04-02]. Available at: http://stavba.tzb-info.cz/normy-a-pravni-predpisy-nizkoenergeticke-stavby/7456-deklarativni-vypocty-pro-pasivni-a-nulove-domy.
  • [5] Štefko, J., Potkány, M., Debnár, M. 2017. Impact of selected parameters on the energy performance of buildings. In More wood, better management, increasing effectiveness: starting points and perspective: proceedings of scientific papers. 2017. s. 93-100. ISBN 978-80-213-2761-0. [online] [cit. 2018-04-02]. Available at: URL: http://www.woodema.org/proceedings/WoodEMA_2017_Proceedings.pdf.
  • [6] Ružiak, I., Igaz, R., Krišťák, L., Gajtanská, M. 2017. Heat technique properties of wood based materials in the wooden houses. Monography. Zvolen: TU Zvolen. 105 p. ISBN 978-80-228-2941-0.
  • [7] Igaz, R. 2014. The efficiency of heat transfer by natural convection according to the heat exchanger surface profile. Monography. Zvolen: TU Zvolen. 198 p. ISBN 978-80-228-2670-9.
  • [8] Igaz, R. 2010. Heat transfer coefficient - surface temperature relation for verticaly oriented plain plate - air interface by natural convection. In Technické vzdelávanie ako súčasť všeobecného vzdelávania, conference proceedings. Banská Bystrica : Univerzita Mateja Bela v Banskej Bystrici, pp. 210-215. ISBN 978-80-557-0071-7.
  • [9] International Organization for Standardization. ISO 14040: Environmental Management - Life Cycle Assessment - Principles and Framework; International Organization for Standardization: Geneva, Switzerland, 2006. [Google Scholar].
  • [10] International Organization for Standardization. ISO 14044: Environmental Management - Life Cycle Assessmen - Requirements and Guidelines; International Organization for Standardization: Geneva, Switzerland, 2006. [Google Scholar].
  • [11] International Organization for Standardization. ISO 14025: Environmental Labels and Declarations - Type III Environmental Declarations - Principles and Procedures; International Organization for Standardization: Geneva, Switzerland, 2006. [Google Scholar].
  • [12] Cole, T. J., 2000. Secular Trends in Growth. Nutrition Society 59(2): 317–324.
  • [13] Shah S, Zalawadia A, Ruparelia S, Patel S, Rathod SP, Patel SV. 2011. Morphometric Study of Greater Sciatic Notch of Dry Human Hip Bone in Gujarat Region. 2011.
  • [14] Adler, D. 2002. Metric Handbook Planning and design data. Reed Educational and Professional Publishing. 784 p. ISBN 0-7506-0899- 4.
  • [15] Giurazza F, Del Verscovo R, Schena E, et al. 2013. Stature estimation from scapular measurements by CT scan evaluation in an Italian population. Leg Med. Vol.15(4), pp. 202–208.
  • [16] Torimitsu S, Makino Y, Saitoh H, et al. 2016. Stature estimation from skull measurements using multidetector computed tomographic images: a Japanese forensic sample. Leg Med. Vol. 18. Pp. 75–80.
  • [17] Kobusingye O. C., Hyder A. A., Bishai D., Hicks R., Mock C., Joshipura M. 2005. Emergency medical systems in low-and middle-income countries: recommendations for action. Bull World Health Organ. Vol. 83 (8), pp. 626–631.
  • [18] Gharehdaghia, J., Baazmb,M., Ghadipashaa, M., Solhic, S., Toutounchiand, F. 2018. Anthropometric measurements in Iranian men. Journal of Forensic and Legal Medicine. Volume 53, pp 31-34. [online] [cit. 2018-04-02]. Available at: https://doi.org/10.1016/j.jflm.2017.10.013.
  • [19] Balakumar, R.S. 2010. Perspectives on Anthropometry in Garment Pattern Making. [online] [cit. 2018-04-02]. Available at: http://textilelearner.blogspot.com/2016/03/ perspectives-on-anthropometry-in.html.
  • [20] Planet Alife. [online] [cit. 2018-04-02]. Available at: http://alife.tuke.sk/kapitola/ 1292/index.html.
  • [21] Canon of Proportions, Homo Vitruvius [online] http://topobraz.sk/produkt/obraz-na-platne-vitruviansky-muz/ http://topobraz.sk/produkt/obraz-na-platne-vitruviansky-muz/ [online] [cit. 2018-04-02
  • [22] Cohen, J.L. (2014). Le Corbusier’s Modulor and the Debate on Proportion in France . Architectural Histories , 2 (1) , Art. 23 . DOI: http://doi.org/10.5334/ah.by.
  • [23] Bullová, I., Burák, D., Kostelný, V. Typológia budov I+II. Košice: TU Košice. 185 p. [online] [cit. 2018-04-02]. Available at: http://docplayer.gr/43069319-Typologia-budov-i-ii.html.
  • [24] Sedmák, R., Hitka, M., 2004. Analýza zmien antropometrických údajov dospelej populácie na území Slovenska. Manažment ľudského potenciálu v podniku. Zvolen, Slovakia, p. 1-7.
  • [25] Sedmák, R., Hitka, M., 2007. Dynamika zmien vybraných antropometrických znakov populácie Slovenska. HRM&E. Vol. 3, 24-34.
  • [26] Barroso, M. P., Arezes, P. M., Costa, L. G., Miguel, A. S. 2005. Anthropometric Study of Portuguese Workers. International Journal of Industrial Ergonomics 35(5): 401–410.
  • [27] Batogowska, A., Slowikowski, J., 1989. Anthropometric atlas of the Polish population for designer use. Works and Materials, vol. 137. Institute od Industrial Design, Warsaw, Poland.
  • [28] Bolstad, G., Benum, B., Rokne, A. 2001. Anthropometry of Norwegian Light Industry and Office Workers. Applied Ergonomics 32(3): 239–246.
  • [29] Iseri, A., Arslan, N. 2009. Estimated anthropometric measurements of Turkish adults and effects of age and geographical regions. International Journal of Industrial Ergonomic 39, 860-865.
  • [30] Kolena, B., Vondráková, M. 2013. Nitra–Dražovce. Osteologická analýza jedincov zo stredovekého pohrebiska z okolia kostola sv. Michala Archanjela v Nitre–Dražovciach. ISBN 978-80-558-0446-0.
  • [31] Kothyial, K., Tettey, S. 2000. Anthropometry data of elderly people in Australia. Applied Ergonomics, 20, 329-332.
  • [32] Mokdad, M., 2002. Anthropometric study of Algerian farmers. International Journal of Industrial Ergonomics 29, 331-341
  • [33] Scheer, L. 2007. Biometria. Zvolen: Technická univerzita vo Zvolene, 2007. 333 p. ISBN 978-80-228-1723-3.
  • [34] Debnár, M. Potkány, M. 2016. Potential of wooden houses on the Slovak market. In Microeconomics and management. Current problems. Zagreb: 2016, p. 60-72. ISBN 978-83-65343-02-4.
  • [35] Debnár, M., Potkány, M. Hitka, M. 2017. Current challenges of the wooden house sector to increase its market potential. In Annals of Warsaw University of Life Sciences. 2017. s. 98--106. ISSN 1898-5912 .
  • [36] Debnár, M. Potkány, M. Krajčírová, L. 2017. Current situation in the Slovak market in the wooden house sector. In Management and economics in manufacturing: global scientific conference, 5th - 6th October 2017 Zvolen, Slovakia. 2017. s. 82-89. ISBN 978-80-228-2993-9.
  • [37] https://www.atrium-sk.sk/katalog-domov/jubileum-profi-116 [online] [cit. 2018-04-02]
  • [38] STN 73 0540-2/Z1: 2016. Tepelná ochrana budov. Tepelnotechnické vlastnosti stavebných konštrukcií a budov Časť 2 Funkčné požiadavky.
  • [39] Pelzeter, A.2007. Building optimisation with life cycle costs – the influence of calculation methods", Journal of Facilities Management, Vol. 5 Issue: 2, pp.115-128.
  • [40] Ozel M. 2012. Cost analysis for optimum thicknesses and environmental impacts of different insulation materials. Energy and Buildings 49 (2012) p. 552-559.
  • [41] https://www.atrium-sk.sk/vsetko-o-drevostavbach-dom-all-inclusive/ [online] [cit. 2018-04-02].
  • [42] Debnár, M., Potkány, M. Lorincová, S. 2017. Potentional of affordability assessment of wooden house in Slovakia - case study. In Contemporary problems of economy - between theory and business practice in context of diversity. Alba Iulia: 2017, s. 23-40. ISBN 978-606-613-149-0.
  • [43] Hitka, M., Blašková, S., Sedmák, R., Lorincová, S. 2017. Changes of selected anthropometric dimensions of the adult Slovak population in the context of production management. In Management and economics in manufacturing: global scientific conference, 5th - 6th October 2017 Zvolen, Slovakia. 2017. pp. 174--181. ISBN 978-80-228-2993-9.
  • [44] Jelačić, D., Greger, K., Grladinović, T. 2002. Research on anthropometric characteristics of high school students and ergonomic characteristics of high school furniture. Drvna industrija, 53(2): 99–106.
  • [45] Vignerová, J., Brabec, M., Bláha, P. 2006. Two centuries of growth among Czech children and youth. Economics and human biology, 4: 237-252.
  • [46] Chuan, T. K., Hartono, M., Kumar, N. 2010. Anthropometry of the Singaporean and Indonesian populations. International journal of industrial ergonomics, 2010, 40(6): 757–766.
  • [47] Bitó, J. 2013. Housing design. Budapest University of Technology and Economics, [online] [cit. 2018-04-02]. Available at: http://www.tankonyvtar.hu/en/tartalom/ tamop412A/2011-0055_housing_design/ch01s02.html.
  • [48] The correct height of the worktop. Available at: http://www.veselebyvanie.sk/ spravna-vyska-kuchynskej-pracovnej-dosky/ [online] [cit. 2018-04-02].
  • [49] The correct height of the worktop and coocer. Available at: https://www.stave bnik.sk/clanky/aka-je-optimalna-vyska-kuchynskej-linky-.html [online] [cit. 2018-04-02].
  • [50] https://www.modrastrecha.sk/blog/ruthy/album/pomocky-pre-navrhnutie-dokonalej-kuchyne
  • [51] STN EN ISO 6946: 2008
  • [52] http://www.modernerodinnedomy.sk/archives/684
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-768f95be-4cc5-4c61-b310-c2237a54e607
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