Thermo-Insulation Properties Of Hemp-Based Products

1. IAL Consultants. The European Market for Thermal Insulation Products 2013; http://www.ialconsultants.com/uploads/CUBE_press_release/2013-03-14/EUThermal%20Inspressrelease2013.pdf.Search in Google Scholar

2. Directorate General for Agriculture and Rural Development of the European Commission, Agriculture in the European Union – statistical and economic information. Report 2013.Search in Google Scholar

3. Carus, M. (2013) Market Data on Industrial Hemp – Fibres, Shivs and Seeds.; Available from: http://www.fibrafp7.net/Portals/0/Michael_Carus_Day_1.pdf.Search in Google Scholar

4. Matshwi, T. and K. Kajimo-Shakantu. (2014) Potential of Hemp as an alternative sustainable component in building materials in World Sustainable Building 2014. Barcelona.Search in Google Scholar

5. Benfratello, S., et al., (2013) Thermal and structural properties of a hemp–lime biocomposite. Construction and Building Materials, 48: p. 745-754.10.1016/j.conbuildmat.2013.07.096Search in Google Scholar

6. Theis, M. and B. Grohe, (2002) Biodegradable lightweight construction boards based on tannin/hexamine bonded hemp shaves. Holz als Roh- und Werkstoff, 60(4): p. 291-296.10.1007/s00107-002-0306-0Search in Google Scholar

7. Heller, K., et al., (2014) Fibres that can be produced in EU27.Search in Google Scholar

8. Rice, B., (2008) Hemp as a Feedstock for Biomass-to-Energy Conversion. Journal of Industrial Hemp, 13(2): p. 145-156.10.1080/15377880802391274Search in Google Scholar

9. Papadopoulos, A.M., (2005) State of the art in thermal insulation materials and aims for future developments. Energy and Buildings, 37(1): p. 77-86.10.1016/j.enbuild.2004.05.006Search in Google Scholar

10. Sadineni, S.B., S. Madala, and R.F. Boehm, (2011) Passive building energy savings: A review of building envelope components. Renewable and Sustainable Energy Reviews, 15(8): p. 3617-3631.10.1016/j.rser.2011.07.014Search in Google Scholar

11. Menconi, M.E. and D. Grohmann, (2014) Model integrated of life-cycle costing and dynamic thermal simulation (MILD) to evaluate roof insulation materials for existing livestock buildings. Energy and Buildings, 81: p. 48-58.10.1016/j.enbuild.2014.06.005Search in Google Scholar

12. Zagorskas, J., et al., (2014) Thermal insulation alternatives of historic brick buildings in Baltic Sea Region. Energy and Buildings, 78: p. 35-42.10.1016/j.enbuild.2014.04.010Search in Google Scholar

13. NatuHemp Technical sheet. Nov. 1, 2014; http://www.blackmountaininsulation.com/NatuHemp_Technical_Sheet.pdf.Search in Google Scholar

14. HempFlax Nature Insulation. Nov. 3, 2014; http://hempflax.com/en/products/hempflaxproducts-for-construction/hempflax-nature-insulation.Search in Google Scholar

15. naturePRO, H.p.i. Nov. 3, 2014. http://www.natureproinsulation.co.uk/pdf/Hemp-Leaflet-High-Res.pdf.Search in Google Scholar

16. Ecological Building Systems. Thermo-Hemp. Nov. 3, 2014; http://www.ecologicalbuildingsystems.com/products/insulation/thermo-hemp/.Search in Google Scholar

17. Thermo-Hemp. Thermo-Hemp natural Insulation. Nov. 3, 2014; http://www.ecologicalbuildingsystems.com/workspace/downloads/Thermo-Hemp.pdf.Search in Google Scholar

18. Thermafleece. Thermafleece NatraHemp natural insulation. Nov. 3, 2014; http://www.thermafleece.com/product/thermafleece-natrahemp.Search in Google Scholar

19. hemptechnology. Breathe Natural Fibre Insulation. Nov. 3, 2014; http://americanlimetechnology.com/wp-content/uploads/2011/11/Breathe-Datasheet.pdf.Search in Google Scholar

20. Saint-Gobain Isover. Vegetal insulation. Nov. 3, 2014; http://www.isover.com/Our-solutions/Insulation-materials/Vegetal-insulation.Search in Google Scholar

21. Isonat Végétal. Une isolation thermique et acoustique performante et une grande souplesse de mise en oeuvre ! Nov. 3, 2014; http://www.isonat.com/uploads/files/produits/IsonatVegetal/Fiche_Vegetal_1113_BDEF.pdf.Search in Google Scholar

22. Fibranatur. Isolant chanvre. Nov. 3, 2014; http://www.fibranatur.com/isolant-naturel-chanvre-fibranatur-p2.php.Search in Google Scholar

23. Biofib. Biofib'Hemp: 100% hemp natural insulation. Nov. 3, 2014; http://www.biofib-isolation.com/biofib-chanvre.php?L=EN.Search in Google Scholar

24. lenofon. lenofon Components. Nov. 3, 2014; http://www.lenofon.com/en/komponentenhanfplatte.htm.Search in Google Scholar

25. Technichanvre. Hemp insulation: rolls and panels. Nov. 3, 2014; http://www.technichanvre.com/1411-2/1499-2/hemp-insulationrolls-and-panels/?lang=en#dws_first_tab33.Search in Google Scholar

26. Steico canaflex: flexible thermal insulation from hemp. Nov. 3, 2014; http://merodax.com/images/dokumentai/steico_canaflex_merodax_en.pdf.Search in Google Scholar

27. Sutton, A., D. Black, and P. Walker, (2011) Natural Fibre Insulation: An introduction to low-impact building materials.Search in Google Scholar

28. AEA, Green Public Procurement Thermal Insulation. Technical Background Report. 2010.Search in Google Scholar

29. Curtis, R., (2010) Climate Change and Traditional Buildings: The Approach Taken by Historic Scotland. Journal of Architectural Conservation, 16(3): p. 7-27.10.1080/13556207.2010.10785073Search in Google Scholar

30. Kymäläinen, H.-R. and A.-M. Sjöberg, (2008) Flax and hemp fibres as raw materials for thermal insulations. Building and Environment, 43(7): p. 1261-1269.10.1016/j.buildenv.2007.03.006Search in Google Scholar

31. Domínguez-Muñoz, F., et al., (2010) Uncertainty in the thermal conductivity of insulation materials. Energy and Buildings, 42(11): p. 2159-2168.10.1016/j.enbuild.2010.07.006Search in Google Scholar

32. Zhao, S.-y., B.-m. Zhang, and X.-d. He, (2009)Temperature and pressure dependent effective thermal conductivity of fibrous insulation. International Journal of Thermal Sciences, 48(2): p. 440-448.10.1016/j.ijthermalsci.2008.05.003Search in Google Scholar

33. Zach, J. and J. Hroudova. (2010) Utilization of Technical Hemp for Thermal Insulating Materials Production. in Second International Conference on Sustainable Construction Materials and Technologies. Ancona.Search in Google Scholar

34. Latif, E., et al., (2014) Hygric properties of hemp bio-insulations with differing compositions. Construction and Building Materials, 66: p. 702-711.10.1016/j.conbuildmat.2014.06.021Search in Google Scholar

35. Andzs, M. and V. Skrupskis, (2011) Possible Use of Hemp and Wood in Production of the Heat Insulation Materials, in 8th International Scientific and Practical Conference “Environment. Technology. Resources”. Rēzekne.Search in Google Scholar

36. Freivalde, L., (2014) Tehnoloģiju ietekme uz kaņepju šķiedru siltumizolācijas materiālu īpašībām, Rīga: RTU.Search in Google Scholar

37. Balčiūnas, G. and S. Vėjelis. (2012.) Kanapių spalių fizikinių savybių tyrimai. in 15th Conference for Junior Researchers „Science – Future of Lithuania“.Search in Google Scholar

eISSN:: 0868-8257
Language:: English

Publication timeframe:: 6 times per year
Journal Subjects:: Physics, Technical and Applied Physics

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Thermo-Insulation Properties Of Hemp-Based Products

Published Online: Mar 25, 2015

Page range: 38 - 51

DOI: https://doi.org/10.1515/lpts-2015-0004

Keywordshemp thermal insulation, thermal conductivity, thermal insulation materials

© V. Lekavicius et al.

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

Keywords
hemp thermal insulation, thermal conductivity, thermal insulation materials