- Autor
- Gołębiowski Michał (kademia Finansów i Biznesu Vistula w Warszawie)
- Tytuł
- Hemp-Lime Composites in Architectural Design
Kompozyty konopno-wapienne w projektach architektonicznych - Źródło
- Kwartalnik Naukowy Uczelni Vistula, 2017, nr 4(54), s. 162-174, il., bibliogr. 18 poz.
Vistula Scientific Quarterly - Słowa kluczowe
- Materiały budowlane, Architektura
Building materials, Architecture - Uwagi
- streszcz., summ.
- Abstrakt
- Tematyka artykułu dotyczy kompozytów konopno-wapiennych (betonu konopnego) - nowego, naturalnego i ekologicznego materiału budowlanego, i jego praktycznych zastosowań w projektach architektonicznych. Celem publikacji jest charakterystyka technologii oparta na wielu międzynarodowych artykułach i istniejących analizach przykładów, zwiększających i systematyzujących wiedzę o tym zagadnieniu, która pomoże w zdobyciu spójnych i wyczerpujących informacji na temat tego konkretnego rozwiązania technicznego - zwłaszcza architektom. W artykule w poszczególnych rozdziałach omówiono właściwości fizyczne, wpływ na środowisko, techniki budowlane, zastosowanie w architekturze, potencjał projektowy i ograniczenia betonu konopnego. (abstrakt oryginalny)
This article concerns the hemp-lime composite ( hempcrete) - a new, naturally-sourced and ecological material solution and its practical applications in architectural design. The purpose of this publication is to characterise the technology based on a review of global publications, and existing example analysis, thereby bringing awareness to the issue and systemising knowledge which will help provide consistent, comprehensive information about this specific technical solution - particularly for architects. Physical properties, environmental impacts, construction techniques, architectural use and design capabilities and limitations of hempcrete are discussed throughout the chapters of this article. (original abstract) - Dostępne w
- Biblioteka SGH im. Profesora Andrzeja Grodka
- Pełny tekst
- Pokaż
- Bibliografia
- Allin S. (2012), Building with Hemp, Seed Press, Ireland.
- Benfratello S., Capitano C., Peri G., Rizzo G., Scaccianoce G., Sorrentino G. (2013), Thermal and structural properties of a hemp-lime biocomposite, "Construction and Building Materials", No. 48.
- Bevan R., Woolley T. (2008), Hemp Lime Construction: A Guide to Building with Hemp Lime, IHS BRE press, Great Britain.
- Bosca I., Karus M. (1998), The Cultivation of Hemp: Botany, Varieties, Cultivation and Harvesting, CA: Hemp tech, Sebastopol.
- BRE Staff, Yates T. (2002), Final report on the construction of the hemp houses at Haverhill, Suffolk, Building Research Establishment (BRE), Great Britain.
- Bell M. (2012), The Potential of Hemp: A new approach to the material and its use within the construction industry, A dissertation submitted in partial fulfillment of the degree of March.
- EEA (European Environment Agency) (2007), Estimating the environmentally compatible bioenergy potential from agriculture, "Technical Report", No. 12.
- Elfordy S., Lucas F., Tancret F., Scudeller Y., Goudet L. (2008), Mechanical and thermal properties of lime and hemp concrete ("hempcrete") manufactured by a projection process, "Construction and Building Materials", No. 22.
- Evrard A. (2006), Sorption behaviour of Lime-Hemp Concrete and its relation to indoor comfort and energy demand, PLEA 2006 - The 23rd Conference on Passive and Low Energy Architecture, Geneva, Switzerland.
- Evrard A., de Herde A., Minet J. (2006), Dynamical interactions between heat and mass flows in lime-hemp concrete, (in:) Research in building physics and building engineering, Third International Building Physics Conference, Concordia University, Montreal, Canada.
- Hirst E. (2013), Characterisation of Hemp-Lime as a Composite Building Material, Department of Architecture and Civil Engineering, Faculty of Engineering and Design, University of Bath, Great Britain.
- Instytut Włókien Naturalnych i Roślin Zielarskich (praca zbiorowa) (2013), Technologia uprawy i przetwórstwa konopi włóknistej, IWNiRZ, Poznań.
- Miskin N. (2010), The Carbon Sequestration Potential of Hemp - binder. A study of embodied carbon in hemp-binder compared with dry lining solutions for insulating solid walls, Thesis Msc. Architecture: Advanced Environmental and Energy Studies, Graduate Shool of the Evironment, Centre for Aternative Tchnology, University of East London, London.
- Montford S., Small E. (1999), Measuring harm and benefit: The friendliness of Cannabis sativa, "Global Biodiversty", No. 8(4).
- Shea A., Lawrence M., Walker P. (2012), Hygrothermal performance of an experimental hemp-lime building, "Construction and Building Materials", No. 36.
- Walker R., Pavia S. (2012), Impact of water retainers in the strength, drying and setting of lime hemp concrete, Proceedings of the BCRI bridge infrastructure concrete research in Ireland, Trinity College and DIT, Dublin, Ireland.
- Walker R., Pavia S. (2014), Moisture transfer and thermal properties of hemp-lime concretes, "Construction and Building Materials", No. 64.
- Walker R., Pavia S., Mitchell R. (2014), Mechanical properties and durability of hemp -lime concretes, "Construction and Building Materials", No. 6.
- Cytowane przez
- ISSN
- 2084-4689
- Język
- eng