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Co-pyrolysis of Polyethylene and Sawmills Powder: Influence of Polyethylene on Pyrolysis Product Value

Yıl 2017, , 306 - 313, 27.12.2017
https://doi.org/10.17100/nevbiltek.322387

Öz

The aim of this study was to
investigate the effect on plastics during co-pyrolysis with biomass. Pyrolysis
of sawmills powders (SP), polyethylene (PE) and their mixtures was carried out
in a semi-batch reactor with varying temperatures at 550 °C and 600 °C. This
work is a preliminary study for the development of a co-pyrolysis process of
plastic wastes with biomass with the aim to produce an alternative liquid fuel
for industrial use. Experiments were carried out with plastics and biomass to
highlight the interactions occurring between a plastic and a biomass during
their co-pyrolysis. It appears that the main decomposition event of each
component takes place at higher temperatures when the components are mixed than
when they are alone, possibly because the two components stabilize each other
during their co-pyrolysis. These interactions depend on the nature of the
plastics and the biomass. In addition, co-pyrolysis experiments were led in a
lab-scale reactor using a mixture of plastic wastes and biomass. The influence
of some key operating parameters on the outcome of the process was analysed.
Hence, this co-pyrolysis process could be economically viable, provided heat
losses are addressed carefully when designing an industrial reactor. The
maximum liquid product yields for the pyrolysis of SP and PE obtained were 35,17%
and 61,00%, respectively, whereas the maximum liquid product yield for SP/PE
co- pyrolysis was 46,05% at 550 °C with 1:1 blend ratio.

Kaynakça

  • Orhan Y., Hrenovic J., Büyükgüngör H., “Biodegradation of Plastic Compost Bags Under Controlled Soil Conditions”, Acta Chimica Slovenica, 51, 579-588, 2003.
  • Khan, M.S., Kaneesamkandi Z., Biodegradable waste to biogas: renewable energy option for the Kingdom of Saudi Arabia. Int., J. Innovation Applied Study, 4 (1), 101–113, 2013.
  • Siddiqui, M.N., Redhwi, H.H., Pyrolysis of mixed plastics for the recovery of useful products. Fuel Process Technology, 90, 545-552, 2009.
  • Miandad, R., Barakat, M.A., Aburiazaiza, A.S., Rehan, M., Nizami, A.S., Catalytic pyrolysis of plastic waste: A review, Process. Saf. Environ. Prot. 102, 822-838, 2016a.
  • Achilias D.S., Roupakias C., Megalokonomos P., Lappas A.A., Antonakou Ε.V., Chemical recycling of plastic wastes made from polyethylene (LDPE and HDPE) and polypropylene (PP), Journal of Hazardous Materials, Volume 149, Issue 3, Pages 536–542 Edited By E. Gidarakos and N.P. Nikolaidis, 2007.
  • Lopez, A., Marco, I.D., Caballero, B.M., Laresgoiti, M.F., Adrados, A., Aranzabal, A., Catalytic pyrolysis of plastic wastes with two different types of catalytic: ZSM-5 zeolite and Red Mud. Applied Catal. B: Environment, 104, 211–219c, 2011a.
  • Lopez, A., De Marco, I., Caballero, B.M., Laresgoiti, M.F., Adrados, A., Influence of time and temperature on pyrolysis of plastic wastes in a semi-batch reactor. Chem. Eng. J., 173, 62-71, 2011.
  • Lopez, A., Marco, I.D., Caballero, B.M., Laresgoiti, M.F., Adrados, A., Catalytic stepwise pyrolysis of packaging plastic waste, J. Anal. Applied Pyrolysis, 96, 54–62, 2012.
  • Chen, D., Yin, L., Wang, H., He, P., Pyrolysis technologies for municipal solid waste: a review. Waste Management, 34, 2466-2486, 2014.
  • Buah W.K., Cunliffe A.M., Williams P.T., Characterization of Products from the Pyrolysis of Municipal Solid Waste, Process Safety and Environmental Protection, Volume 85, Issue 5, 450–457, 2007.
  • Velghe, I., et al., Study of pyrolysis of municipal solid waste for the production of valuable products, Journal of Analytical and Applied Pyrolysis, 92 (2) 366-375, 2011.
  • Zeaiter, J., A process study on the pyrolysis of waste polyethylene, Fuel, 133, 276-282, 2014.
  • Syamsiro, M., Shuo Cheng, Wu Hu, Harwin Saptoadi, Nosal Nugroho Pratama, Wega Trisunaryanti, Kunio Yoshikawa, Liquid and Gaseous Fuels from Waste Plastics by Sequential Pyrolysis and Catalytic Reforming Processes over Indonesian Natural Zeolite Catalysts, Waste Technology, Vol. 2(2), 44-51, 2014.
  • Lee, K.H., Shin, D.H., Characteristics of liquid product from the pyrolysis of waste plastic mixture at low and high temperatures: influence of lapse time of reaction. Waste Management, 27, 168–176, 2007.
  • Siddiqui, M.N., Redhwi, H.H., Pyrolysis of mixed plastics for the recovery of useful products. Fuel Process Technology, 90, 545–552, 2009.
  • Miskolczi, N., Angyal, A., Bartha, L., Valkai, I., Fuel by pyrolysis of waste plastics from agricultural and packaging sectors in a pilot scale reactor. Fuel Process Technology, 90, 1032–1040, 2009.
  • Lee, K.H., Effects of the types of zeolite on catalytic upgrading of pyrolysis wax oil., J. Anal. Applied Pyrolysis, 94, 209–214, 2012.
  • Panda A.K., Singh R.K., Mishra D.K., Thermolysis of waste plastics to liquid fuel A suitable method for plastic waste management and manufacture of value added products—a world prospective. Renew Sustainable Energy Rev, 14: 233–48, 2010.
  • Hugo T.J., Pyrolysis of Sugarcane. Department of Process Engineering University of Stellenbosch, 2010.
  • Montoya J.I., Valdés C., Chejne F., Gómez C.A., Blanco A., Marrugo G., et al., Bio-oil production from Colombian bagasse by fast pyrolysis in a fluidized bed: an experimental study, J Anal Applied Pyrolsis, 112: 379–87, 2015.
  • Abnisa F., Wan Daud W.M.A., Ramalingam S., Azemi MNBM, Sahu J.N., Co- pyrolysis of palm shell and polystyrene waste mixtures to synthesis liquid fuel. Fuel, 108: 311–318, 2013.
  • Brebu M., Ucar S., Vasile C., Yanik J., Co-pyrolysis of pine cone with synthetic polymers., Fuel
  • Cornelissen T., Yperman J., Reggers G., Schreurs S., Carleer R., Flash co-pyrolysis of biomass with polylactic acid. Part 1: influence on bio-oil yield and heating value.
  • Anuar Sharuddin S.D., Abnisa F, Wan Daud W.M.A., Aroua M.K., A review on pyrolysis of plastic wastes. Energy Convers Management, 115:308–26, 2016.

Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi

Yıl 2017, , 306 - 313, 27.12.2017
https://doi.org/10.17100/nevbiltek.322387

Öz

Bu
çalışmanın amacı biyokütlenin kopiroliz sırasında plastikler üzerindeki
etkisini araştırmaktır. Kereste tozlarının (SP), polietilenin (PE) ve bunların
karışımlarının pirolizi, 550 °C ve 600 °C değişen sıcaklıklarda yarı-kesikli
bir reaktörde gerçekleştirildi. Bu çalışma, endüstriyel kullanım için
alternatif bir sıvı yakıt üretmek amacıyla, biyolojik kütle ile plastik
atıkların kopiroliz işlemini geliştirilmesi için bir ön çalışmadır.
Bileşenlerin kopirolizi sırasında bir plastik ile bir biyokütle arasında
meydana gelen etkileşimleri vurgulamak için, plastikler ve biyokütle ile
deneyler gerçekleştirildi. Her bir bileşenin ana parçalanma olayı, bileşenlerin
beraber olduğunda, yalnız olmalarına göre daha yüksek sıcaklıklarda
gerçekleştiği görüldü ve bunun nedeninin iki bileşen kopiroliz sırasında
birbirlerini dengelediği düşünüldü.
Bu
etkileşimlerin plastiklere ve biyokütleye bağlı olduğu çıkarımı yapıldı.
Ayrıca, biyokütle ve plastik atıkların karışımı kullanılarak laboratuvar
ölçekli bir reaktörde piroliz deneyleri yapıldı. Bazı önemli işletme
parametrelerinin sürecin sonucu üzerindeki etkisi de analiz edildi. Bu nedenle,
bu kopiroliz işleminin, bir endüstriyel reaktör tasarlanırken ısı kayıplarına
dikkat edilmesi koşuluyla ekonomik açıdan uygulanabilir olduğu görüldü. Elde
edilen SP ve PE'nin pirolizi için maksimum sıvı ürün verimi sırasıyla % 35,17
ve % 61,00 iken, SP ve PE ortak pirolizi için maksimum sıvı ürün verimi 1:1
karışım oranında ve 550 °C'de % 46,05 sonucuna ulaşıldı. 

Kaynakça

  • Orhan Y., Hrenovic J., Büyükgüngör H., “Biodegradation of Plastic Compost Bags Under Controlled Soil Conditions”, Acta Chimica Slovenica, 51, 579-588, 2003.
  • Khan, M.S., Kaneesamkandi Z., Biodegradable waste to biogas: renewable energy option for the Kingdom of Saudi Arabia. Int., J. Innovation Applied Study, 4 (1), 101–113, 2013.
  • Siddiqui, M.N., Redhwi, H.H., Pyrolysis of mixed plastics for the recovery of useful products. Fuel Process Technology, 90, 545-552, 2009.
  • Miandad, R., Barakat, M.A., Aburiazaiza, A.S., Rehan, M., Nizami, A.S., Catalytic pyrolysis of plastic waste: A review, Process. Saf. Environ. Prot. 102, 822-838, 2016a.
  • Achilias D.S., Roupakias C., Megalokonomos P., Lappas A.A., Antonakou Ε.V., Chemical recycling of plastic wastes made from polyethylene (LDPE and HDPE) and polypropylene (PP), Journal of Hazardous Materials, Volume 149, Issue 3, Pages 536–542 Edited By E. Gidarakos and N.P. Nikolaidis, 2007.
  • Lopez, A., Marco, I.D., Caballero, B.M., Laresgoiti, M.F., Adrados, A., Aranzabal, A., Catalytic pyrolysis of plastic wastes with two different types of catalytic: ZSM-5 zeolite and Red Mud. Applied Catal. B: Environment, 104, 211–219c, 2011a.
  • Lopez, A., De Marco, I., Caballero, B.M., Laresgoiti, M.F., Adrados, A., Influence of time and temperature on pyrolysis of plastic wastes in a semi-batch reactor. Chem. Eng. J., 173, 62-71, 2011.
  • Lopez, A., Marco, I.D., Caballero, B.M., Laresgoiti, M.F., Adrados, A., Catalytic stepwise pyrolysis of packaging plastic waste, J. Anal. Applied Pyrolysis, 96, 54–62, 2012.
  • Chen, D., Yin, L., Wang, H., He, P., Pyrolysis technologies for municipal solid waste: a review. Waste Management, 34, 2466-2486, 2014.
  • Buah W.K., Cunliffe A.M., Williams P.T., Characterization of Products from the Pyrolysis of Municipal Solid Waste, Process Safety and Environmental Protection, Volume 85, Issue 5, 450–457, 2007.
  • Velghe, I., et al., Study of pyrolysis of municipal solid waste for the production of valuable products, Journal of Analytical and Applied Pyrolysis, 92 (2) 366-375, 2011.
  • Zeaiter, J., A process study on the pyrolysis of waste polyethylene, Fuel, 133, 276-282, 2014.
  • Syamsiro, M., Shuo Cheng, Wu Hu, Harwin Saptoadi, Nosal Nugroho Pratama, Wega Trisunaryanti, Kunio Yoshikawa, Liquid and Gaseous Fuels from Waste Plastics by Sequential Pyrolysis and Catalytic Reforming Processes over Indonesian Natural Zeolite Catalysts, Waste Technology, Vol. 2(2), 44-51, 2014.
  • Lee, K.H., Shin, D.H., Characteristics of liquid product from the pyrolysis of waste plastic mixture at low and high temperatures: influence of lapse time of reaction. Waste Management, 27, 168–176, 2007.
  • Siddiqui, M.N., Redhwi, H.H., Pyrolysis of mixed plastics for the recovery of useful products. Fuel Process Technology, 90, 545–552, 2009.
  • Miskolczi, N., Angyal, A., Bartha, L., Valkai, I., Fuel by pyrolysis of waste plastics from agricultural and packaging sectors in a pilot scale reactor. Fuel Process Technology, 90, 1032–1040, 2009.
  • Lee, K.H., Effects of the types of zeolite on catalytic upgrading of pyrolysis wax oil., J. Anal. Applied Pyrolysis, 94, 209–214, 2012.
  • Panda A.K., Singh R.K., Mishra D.K., Thermolysis of waste plastics to liquid fuel A suitable method for plastic waste management and manufacture of value added products—a world prospective. Renew Sustainable Energy Rev, 14: 233–48, 2010.
  • Hugo T.J., Pyrolysis of Sugarcane. Department of Process Engineering University of Stellenbosch, 2010.
  • Montoya J.I., Valdés C., Chejne F., Gómez C.A., Blanco A., Marrugo G., et al., Bio-oil production from Colombian bagasse by fast pyrolysis in a fluidized bed: an experimental study, J Anal Applied Pyrolsis, 112: 379–87, 2015.
  • Abnisa F., Wan Daud W.M.A., Ramalingam S., Azemi MNBM, Sahu J.N., Co- pyrolysis of palm shell and polystyrene waste mixtures to synthesis liquid fuel. Fuel, 108: 311–318, 2013.
  • Brebu M., Ucar S., Vasile C., Yanik J., Co-pyrolysis of pine cone with synthetic polymers., Fuel
  • Cornelissen T., Yperman J., Reggers G., Schreurs S., Carleer R., Flash co-pyrolysis of biomass with polylactic acid. Part 1: influence on bio-oil yield and heating value.
  • Anuar Sharuddin S.D., Abnisa F, Wan Daud W.M.A., Aroua M.K., A review on pyrolysis of plastic wastes. Energy Convers Management, 115:308–26, 2016.
Toplam 24 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm ICOCEE 2017 (International Conference on Civil and Environmental Engineering) Özel Sayısı
Yazarlar

Sinem Uğuz Bu kişi benim

Tolga Ayeri

Yüksel Ardalı

Yayımlanma Tarihi 27 Aralık 2017
Kabul Tarihi 8 Kasım 2017
Yayımlandığı Sayı Yıl 2017

Kaynak Göster

APA Uğuz, S., Ayeri, T., & Ardalı, Y. (2017). Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi. Nevşehir Bilim Ve Teknoloji Dergisi, 6, 306-313. https://doi.org/10.17100/nevbiltek.322387
AMA Uğuz S, Ayeri T, Ardalı Y. Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi. Nevşehir Bilim ve Teknoloji Dergisi. Aralık 2017;6:306-313. doi:10.17100/nevbiltek.322387
Chicago Uğuz, Sinem, Tolga Ayeri, ve Yüksel Ardalı. “Polietilen Ve Kereste Tozlarının Ko-Pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi”. Nevşehir Bilim Ve Teknoloji Dergisi 6, Aralık (Aralık 2017): 306-13. https://doi.org/10.17100/nevbiltek.322387.
EndNote Uğuz S, Ayeri T, Ardalı Y (01 Aralık 2017) Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi. Nevşehir Bilim ve Teknoloji Dergisi 6 306–313.
IEEE S. Uğuz, T. Ayeri, ve Y. Ardalı, “Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi”, Nevşehir Bilim ve Teknoloji Dergisi, c. 6, ss. 306–313, 2017, doi: 10.17100/nevbiltek.322387.
ISNAD Uğuz, Sinem vd. “Polietilen Ve Kereste Tozlarının Ko-Pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi”. Nevşehir Bilim ve Teknoloji Dergisi 6 (Aralık 2017), 306-313. https://doi.org/10.17100/nevbiltek.322387.
JAMA Uğuz S, Ayeri T, Ardalı Y. Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi. Nevşehir Bilim ve Teknoloji Dergisi. 2017;6:306–313.
MLA Uğuz, Sinem vd. “Polietilen Ve Kereste Tozlarının Ko-Pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi”. Nevşehir Bilim Ve Teknoloji Dergisi, c. 6, 2017, ss. 306-13, doi:10.17100/nevbiltek.322387.
Vancouver Uğuz S, Ayeri T, Ardalı Y. Polietilen ve Kereste Tozlarının Ko-pirolizi: Piroliz Ürün Değeri Üzerinde Polietilenin Etkisi. Nevşehir Bilim ve Teknoloji Dergisi. 2017;6:306-13.

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