THE APPLICATION OF RAW MATERIALS OBTAINED FROM THE CULTIVATION OF INDUSTRIAL HEMP IN VARIOUS INDUSTRIES

PL EN

PL EN

SEARCH

Current issue

Archive

Business Model

Ethics statement

Current issue

News From the Editors June 2022 Invitation From the Editors September 2022 From the Editors November 2022 From the Editors January 2023 From the Editors March 2023 From the Editors September 2023 From the Editors December 2023

Archive

About the journal About us Focus and Scope Editorial Team Open Access Policy Indexing and points Contact Subscription - print version of the journal

Business Model

Ethics statement

REVIEW ARTICLE

THE APPLICATION OF RAW MATERIALS OBTAINED FROM THE CULTIVATION OF INDUSTRIAL HEMP IN VARIOUS INDUSTRIES

Przemysław Brzyski ¹

,

Stanisław Fic ¹

1

Lublin University of Technology Politechnika Lubelska

Publication date: 2018-07-04

Corresponding author

Przemysław Brzyski

mgr inż. Przemysław Brzyski, Politechnika Lubelska, Wydział Budownictwa i Architektury, ul. Nadbystrzycka 40, 20-618 Lublin, Polska; tel. +48 609 629 605

Stanisław Fic

prof. nadzw. dr hab. inż. Stanisław Fic, Politechnika Lubelska, Wydział Budownictwa i Architektury, ul. Nadbystrzycka 40, 20-618 Lublin, Polska; tel. +48 81 538 44 43

Economic and Regional Studies 2017;10(1):100-113

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

References (26)

KEYWORDS

industrial hemp

ABSTRACT

Subject and purpose of work: The raw materials which are the purpose of the current hemp cultivation (<0.2% THC) are fibre, seeds and shives. This study describes the characteristics the raw materials obtained from the industrial hemp and described in detail the possibilities of their applications in pulp and paper, textile, pharmaceutical, construction and food industries. Analysis of the issues: Hemp straw consists of a porous ligneous core, which may be cut into smaller pieces, called hemp shives and of the fibre around the core. Hemp cellulose is used to produce paper pulp or plastics. In the construction sector, hemp fibre is used to produce, among other things, thermal insulation materials. Hemp shives is used as a filler for a composite based on lime binder, which is used as a wall material with good hygrothermal conditions confirmed by proprietary research. Hemp seeds are used for the production of cooking oil. Hempseed oil is also used in the pharmaceutical industry, e.g. to produce skin creams. Conclusions: Raw materials obtained from industrial hemp have a variety of applications. Currently, new directions in hemp application are being sought and tested, like for example hemp lime composite and bio-composites. The positive environmental impact resulting from the cultivation of hemp should be the main reason for simplifying the procedures for the commencement of its cultivation in many countries, e.g. in Poland.

REFERENCES (26)

1.

Allin S. (2012), Building with Hemp. „Seed Press”, Ireland.

2.

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

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/10.1080/1544....

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.

5.

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

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.

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.

8.

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

9.

Demirbas A. (1997), Calculation of higher heating values of biomassfuels. Fuel, vol. 76; s. 431–434.

10.

Dz.U. 2005 nr 179 poz. 1485: Ustawa z dnia 29 lipca 2005 r. o przeciwdziałaniu narkomanii.

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.

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.

13.

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

14.

Gumuskaya E., Usta M., Balaban M. (2007), Carbohydratecomponents and crystallinestructure of organosolvhemp (Cannabissativa L.) bastfibers pulp. Bioresource Technology, vol. 98, s. 491–497.

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.2010.05.064.

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)00005-5.

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.

18.

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

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.2012.10.019.

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)00130-2.

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.

22.

Stanwix W., Sparrow A. (2014), The HempcreteBook – Designing and building with hemp-lime. Green Books, England.

23.

www.bio-based.eu.

24.

www.iwnirz.pl.

25.

www.spliff.pl.

26.

www.steico.com.

Submit your paper

GDPR information clause

Share

RELATED ARTICLE

POSSIBILITY OF INDUSTRIAL HEMP CULTIVATION IN AREAS OF HIGH NATURE VALUE

Indexes

eISSN:	2451-182X
ISSN:	2083-3725

Increase in the participation of foreign reviewers in Economic and Regional Studies/ Studia Ekonomiczne i Regionalne – task financed under the agreement No. 583/P-DUN/2017 by the Minister of Science and Higher Education allocated to the activities of disseminating science.

Digitalization of Economic and Regional Studies/ Studia Ekonomiczne i Regionalne – task financed under the agreement No. 819/P-DUN/2018 by the Minister of Science and Higher Education allocated to the activities of disseminating science.

© 2006-2024 Journal hosting platform by Bentus

Scroll to top