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The aim of this study was to determine the effect of the addition of extractive substances on the VOC emission of lacquer products in the liquid state. Three water-soluble acrylic resin products were investigated using the stationary phase microextraction technique in combination with gas chromatography coupled with mass spectrometry (SPME-GC/MS). The extraction of volatile compounds was analysed at three temperatures: 22 ℃, 35 ℃ and 45 ℃. 20 μg of an extract obtained from the leaves, branches and bark of black cherry (Prunus serotina Erhr.) were added to commercial products. Flavonoids accounted for almost 75% of the total phenols in the used extract. The spectrum of volatile compounds emitted by the liquid coating products selected for the studies was examined before and after adding the extract to them. It was found that the addition of black cherry extract caused a significant reduction in the emissions of volatile compounds emitted by the researched products. The compounds, whose amounts did not decrease under the influence of the addition of the extract, were esters of propenoic acid. The applied extract was a source of emissions from an additional compound: benzaldehyde. The total VOC emissions of the investigated liquid coating products was reduced by 8-55% and depended on the extraction temperature. The paper also proposes the mechanism of chemical reactions between phenolics and VOC, which may cause the reduction in VOC emissions from lacquer products. The IBM RXN tool was utilised to find possible reactions.
Słowa kluczowe
Rocznik
Tom
Strony
Art. no. 1644--3985.437.04
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
- Department of Chemical Wood Technology, Poznan University of Life Sciences, Poznań, Poland
autor
- Department of Chemical Wood Technology, Poznan University of Life Sciences, Poznań, Poland
autor
- Department of Biochemistry and Biotechnology, Poznan University of Life Sciences, Poznan, Poland
autor
- Department of Chemical Wood Technology, Poznan University of Life Sciences, Poznań, Poland
Bibliografia
- Bongivanni R., Montefusco F., Priola A., Macchioni N., Lazzeri S., Sozzi L., Ameduri B. [2002]: High performance UV-cured coatings for wood protection. Prog. Org. Coat. 45: 359-363.
- Brinke J., Kelvin S., Hodgson A.T., Fisk W.J., Mendell M.J., Koshland C.P., Daisey J.M [1998]: Development of New Volatile Organic Compound (VOC) Exposure Metrics and their Relationship to “Sick Building Syndrome” Symptoms. Indoor Air. 8: 140-152.
- Broekhuizen F.A. [2012]: Nano in furniture – State of the art. 2012. IVAM UvA BV.
- Brozdowski, J., Waliszewska, B., Gacnik, S., Hudina, M., Veberic, R., Mikulic-Petkovsek, M. [2021]. Phenolic composition of leaf and flower extracts of Black cherry (Prunus serotina Ehrh.). Ann. For. Sci., 78(3): 1-16.
- Domingo J.L. Nadal M. [2009]. Domestic waste composting facilities: A review of human health risks. Environ. Int. 35(2): 382-389
- Dziewanowska-Pudliszak A. [2007]: Emisja lotnych związków organicznych z powłok lakierów naniesionych na drewno lite. Technologia drewna – Wczoraj, Dziś, Jutro. Studia i szkice na Jubileusz Profesora Ryszarda Babickiego. Wydawnictwo Instytutu Technologii Drewna, Poznań: 295-306.
- Gaca P., Dziewanowska-Pudliszak A. [2005]: Volatile organic compounds (VOC) emission of selected wood Species and other materials applied in furniture manufacture. Drewno-Wood 48(173): 119-125.
- Grajewski S., Jankowski K., Licznierski M. [2010]. Czeremcha amerykańska Prunus serotina Ehrh. w polskich lasach na przykładzie drzewostanów nadleśnictwa doświadczalnego Zielonka oraz nadleśnictwa państwowego Szubin. Zarządzanie Ochr Przyr W Lasach 4
- Guo H., Murray F. [2001]: Determination of total volatile organic compounds emissions from furniture polishes. Clean Products and Processes. 3: 42-48.
- Hse, Chung-Yun; Kuo, Mon-Lin. [1988]. Influence of extractives on wood gluing and finishing- a review. For. Prod. J. 38(1):52-56
- Ikhmal WMKWM., SM, S., Nursabrina Mohd Nasir, A., WAW, R., WNWM, N., MGM, S. [2022]. Green Anticorrosion Coating with Low VOCs Emission Rusing Moringa Oleifera Leaves Extract. Mechanics Of Advanced Composite Structures, 9(1): 163-171.
- Kagi N., Fujii S., Tamura H., Namiki N. [2009]: Secondary VOC emissions from flooring material surfa ces exposed to ozone or UV irradiation. Build Environ. 44: 1199-1205.
- Kahar, K., Karmini, M., Kamaludin, A. [2022]. Ekstrak Lidah Mertua [Sansevieria sp.) Efektif dalam Mereduksi Volatile Organic Compound (VOC)-Benzena Dalam Ruang. JURNAL KESEHATAN LINGKUNGAN: Jurnal dan Aplikasi Teknik Kesehatan Lingkungan, 19 (1): 1-6.
- Kefeli, V. I., Kalevitch, M. V., Borsari, B. [2003]. Phenolic cycle in plants and environment. J. Cell Mol. Biol, 2(1): 13-18.
- Muzafarov, E. N., Zolotareva, E. K. [1989]. Uncoupling effect of hydroxycinnamic acid derivatives on pea chloroplasts. Biochem Physiol Pflanz, 184(5-6): 363-369.
- Muzafarov, E. N., Ivanov, B. N., Mal'Yan, A. N., & Zolotareva, E. K. [1986]. Dependence of flavonol functions on their chemical structure in chloroplast energy reactions. Biochem Physiol Pflanz, 181(6): 381-390.
- Ong, G., Kasi, R., Subramaniam, R. [2021]. A review on plant extracts as natural additives in coating applications. Progress in Organic Coatings, 151: 106091.
- Pękal, A. [2014)]. Wpływ doboru procedury analitycznej na wyznaczanie właściwości antyutleniających próbek żywności. Dissertation, University of Warsaw
- Radheshyam Y., Puneeta P. [2018]. A Review on Volatile Organic Compounds (VOCs) as Environmental Pollutants: Fate and Distribution. IJPE. 4(2): 14-26.
- Salthammer T. [2006]: Release of photoinitiator fragments from UV-cured furniture coatings. JCTR. 68(856): 41.
- Salthammer T., Bednarek M., Fuhrmann F., Funaki R., Tanabe S.-I. [2002]: Formation of organic indoor air pollutants by UV-curing chemistry. J. Photochem. Photobiol. 152: 1-9.
- Salthammer T., Müfit B. [2009]: Review: Occurrence, dynamics and reactions of organic pollutants in the indoor environment. Clean 37(6): 417-435.
- Stachowiak-Wencek A., Prądzyński W. [2005]: Emission of volatile organic compounds from furniture surfaces finished with lacquer coatings. Acta Sci. Pol., Silvarum Colendarum Ratio Ind. Lignaria 4(2): 177-185.
- Stachowiak-Wencek A., Prądzyński W. [2015]: The effect of application method of lacquer agents on emissions of volatile organic compounds. Drv Ind. 66(1): 17-26.
- Tomak, E., Arican, F., Gonultas, O. i Parmak, E. [2018]. Influence of tannin containing
- Uhde E., Salthammer T. [2007]: Impact of reaction products from building materials and furnishings on indoor air quality – A review of recent advances In indoor chemistry. Atmos. Environ. 41: 3111-3128.
- Ulker, Ozge Cemiloglu, Onur Ulker, and Salim Hiziroglu. [2021]. Volatile Organic Compounds (VOCs) Emitted from Coated Furniture Units. Coatings 11, 7: 806.
- Wiglusz R., Nikel G., Igielska B., Sitko E. [2002 a]: Volatile organic Compounds from Particleboard Veneered with Decorative Paper Foil. Holzforschung. 56(1): 11-26.
- Wiglusz R., Sitko E., Nikel G., Jarnuszkiewicz I., Igielska B. [2002 b]: The effect of temperature on the emission of formaldehyde and volatile organic compounds (VOCs) from laminate flooring – case study. Build Environ. 37: 41-44.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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