The Application of Raw Materials Obtained from the Cultivation of Industrial Hemp in Various Industries

Przemysław Brzyski; Stanisław Fic

Accès libre

The Application of Raw Materials Obtained from the Cultivation of Industrial Hemp in Various Industries

Przemysław Brzyski

Stanisław Fic

| 27 oct. 2018

Economic and Regional Studies / Studia Ekonomiczne i Regionalne

Édition 10 (2017): Edition 1 (March 2017)

À propos de cet article

Article précédent

Article suivant

Citez

Partagez

Publié en ligne: 27 oct. 2018

Pages: 100 - 113

Reçu: 01 janv. 2016

Accepté: 01 déc. 2016

DOI: https://doi.org/10.2478/ers-2017-0008

Mots clés
industrial hemp, fibre, seed, shives

© 2018 Przemysław Brzyski, published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

1. Allin S. (2012), Building with Hemp. „Seed Press”, Ireland.Search in Google Scholar

2. Barnat-Hunek D., Smarzewski P., Fic S. (2015), Mechanical and thermalproperties of hemp-limecomposites. CompositesTheory and Practice, 15, 1, s. 21-27.Search in Google Scholar

3. Barnat-Hunek D., Smarzewski P., Brzyski P. (2016), Properties of hemp-flaxcomposites for use in the building industry. Journal of Natural Fibers (przyjęte do druku), http://dx.doi.org/10.1080/15440478.2016.1212764.10.1080/15440478.2016.1212764Open DOI Search in Google Scholar

4. Barton J., Niemczyk A., Czaja K., Korach Ł., Sacher-Majewska B. (2014), Kompozyty, biokompozyty i nanokompozyty polimerowe. Otrzymywanie, skład, właściwości i kierunki zastosowań. Chemik, 68, 4, s. 280-287.Search in Google Scholar

5. Bevan R., Woolley T. (2010), HempLime Construction: A Guide to Building with Hemp Lime Composites. BRE Press, Bracknell.Search in Google Scholar

6. Bogacz E., Kicińska-Jakubowska A., Zimniewska M., Barbara Romanowska B. (2012), Charakterystyka włókien łykowych, Len i Konopie. Biuletyn Informacyjny Polskiej Izby Lnu i Konopi, 19, s. 37-44.Search in Google Scholar

7. Campo M.C., Magalhães F.D., Mendes A. (2010), Carbon molecularsievemembranes from cellophanepaper. Journal of Membrane Science, vol. 350/1-2; s. 180-188.10.1016/j.memsci.2009.12.026Search in Google Scholar

8. Capelle A. (1996), Hemp: specialty crop for the paperindustry, W: Janick J, editor. Progress in newcrops, Arlington: ASHS Press; s. 384-388.Search in Google Scholar

9. Demirbas A. (1997), Calculation of higher heating values of biomassfuels. Fuel, vol. 76; s. 431-434.10.1016/S0016-2361(97)85520-2Open DOI Search in Google Scholar

10. Dz.U. 2005 nr 179 poz. 1485: Ustawa z dnia 29 lipca 2005 r. o przeciwdziałaniu narkomanii.Search in Google Scholar

11. Fic S., Brzyski P., Szewczak A., Jarosz-Hadam M. (2015), Wybrane właściwości lekkich kompozytów na bazie wypełniaczy celulozowych do zastosowania w budownictwie ekologicznym. Journal of Civil Engineering, Environment and Architecture, z. 62, nr 2, s. 61-70.10.7862/rb.2015.36Search in Google Scholar

12. Garcia-Jaldon C., Dupeyre D., Vignon MR. (1998), Fibres from semi-retted hemp bundles by steam explosion treatment. Biomass and Bioenergy, vol. 14, s. 251-60.10.1016/S0961-9534(97)10039-3Open DOI Search in Google Scholar

13. Grabowska L., Kołodziej J., Burczyk H. (2007), Zastosowanie energetyczne konopi włóknistych. Problemy inżynierii rolniczej, 2, s. 19-26.Search in Google Scholar

14. Gumuskaya E., Usta M., Balaban M. (2007), Carbohydratecomponents and crystallinestructure of organosolvhemp (Cannabissativa L.) bastfibers pulp. Bioresource Technology, vol. 98, s. 491-497.10.1016/j.biortech.2006.02.031Search in Google Scholar

15. Li S.Y., Stuart J.D., Li Y., Parnas R.S. (2010), The feasibility of convertingCannabissativa L. oilinto biodiesel. Bioresource Technology, vol 101/21, s. 8457-8460. doi:10.1016/j.biortech.2010.05.064Search in Google Scholar

16. Linger P., Müssig J., Fischer H., Kobert J. (2003), Industrial hemp (Cannabiss ativa L.) growing on heavy metal contaminated soil: fibrequality and phytoremediation potential. Industrial Crops and Products, vol. 16; s. 33-42. doi:10.1016/S0926-6690(02)00005-5Search in Google Scholar

17. Poisa L., Adamovics A. (2010), Hemp (Cannabissativa L.) as an environmentally friendly energy plant. Scientific Journal of Riga Technical University, vol 5, s. 80-85.10.2478/v10145-010-0038-zSearch in Google Scholar

18. Rausch P. (1995), Verwendung von hanfsamenol in der kosmetik. In Bioresourcehemp. Nova-Institute, Cologne, Germany.Search in Google Scholar

19. Rehman S.A., M., Rashid N., Saif A., Mahmood T., Han J.I. (2013), Potential of bioenergy production from industrial hemp (Cannabissativa): Pakistan erspective. Renewable and Sustainable Energy Reviews, Renewable and Sustainable Energy Reviews, vol. 18, s. 154-164. doi:10.1016/j.rser.2012.10.019Search in Google Scholar

20. Sacilik K., Öztürk R., Keskin R. (2003), Some Physical Properties of Hemp Seed. Biosystems Engineering, Vol. 86/2, s. 191-198. doi:10.1016/S1537-5110(03)00130-2Search in Google Scholar

21. Singh S., Deepak D., Aggarwal L., Gupta V.K. (2014), Tensile and FlexuralBehavior of HempFiberReinforcedVirgin-recycled HDPE Matrix Composites. Procedia Materials Science, vol. 6, s. 1696-1702.10.1016/j.mspro.2014.07.155Search in Google Scholar

22. Stanwix W., Sparrow A. (2014), The HempcreteBook - Designing and building with hemp-lime. Green Books, England.Search in Google Scholar

23. www.bio-based.euSearch in Google Scholar

24. www.iwnirz.plSearch in Google Scholar

25. www.spliff.plSearch in Google Scholar

26. www.steico.com.Search in Google Scholar