| Title | Production and Analysis of the Physicochemical Properties of the Pyrolytic Oil Obtained from Pyrolysis of Different Thermoplastics and Plastic Mixtures |
|---|---|
| ID_Doc | 8744 |
| Authors | Palmay, P; Haro, C; Huacho, I; Barzallo, D; Bruno, JC |
| Title | Production and Analysis of the Physicochemical Properties of the Pyrolytic Oil Obtained from Pyrolysis of Different Thermoplastics and Plastic Mixtures |
| Year | 2022 |
| Published | Molecules, 27.0, 10 |
| Abstract | The constant search for the proper management of non-degradable waste in conjunction with the circular economy makes the thermal pyrolysis of plastics an important technique for obtaining products with industrial interest. The present study aims to produce pyrolytic oil from thermoplastics and their different mixtures in order to determine the best performance between these and different mixtures, as well as to characterize the liquid fraction obtained to analyze its use based on said properties. This was carried out in a batch type reactor at a temperature of 400 degrees C for both individual plastics and their mixtures, from which the yields of the different fractions are obtained. The liquid fraction of interest is characterized by gas chromatography and its properties are characterized by ASTM standards. The product of the pyrolysis of mixtures of 75% polystyrene and 25% polypropylene presents a yield of 82%, being the highest, with a viscosity of 1.12 cSt and a calorific power of 42.5 MJ/kg, which has a composition of compounds of carbon chains ranging between C6 and C20, for which it is proposed as a good additive agent to conventional fuels for industrial use. |
| https://www.mdpi.com/1420-3049/27/10/3287/pdf?version=1653042693 |
Similar Articles
| ID | Score | Article |
|---|---|---|
13476
|
Chang, SH Plastic waste as pyrolysis feedstock for plastic oil production: A review(2023) | |
| 19150
|
Perez, BA; Jonnalagedda, VJK; Toraman, HE Characterization of SPW pyrolysis oils: Products spectra and opportunities(2022) | |
| 4067
|
Erkmen, B; Ozdogan, A; Ezdesir, A; Celik, G Can Pyrolysis Oil Be Used as a Feedstock to Close the Gap in the Circular Economy of Polyolefins?(2023)Polymers, 15, 4 | |
| 17823
|
Musivand, S; Bracciale, MP; Damizia, M; De Filippis, P; de Caprariis, B Viable Recycling of Polystyrene via Hydrothermal Liquefaction and Pyrolysis(2023)Energies, 16, 13 | |
| 23649
|
Laghezza, M; Fiore, S; Berruti, F A review on the pyrolytic conversion of plastic waste into fuels and chemicals(2024) | |
| 19331
|
Kremer, I; Tomic, T; Katancic, Z; Erceg, M; Papuga, S; Vukovic, JP; Schneider, DR Catalytic pyrolysis of mechanically non-recyclable waste plastics mixture: Kinetics and pyrolysis in laboratory-scale reactor(2021) | |
| 26791
|
Cuevas, AB; Leiva-Candia, DE; Dorado, MP An Overview of Pyrolysis as Waste Treatment to Produce Eco-Energy(2024)Energies, 17, 12 | |
| 10292
|
Soni, VK; Singh, G; Vijayan, BK; Chopra, A; Kapur, GS; Ramakumar, SSV Thermochemical Recycling of Waste Plastics by Pyrolysis: A Review(2021)Energy & Fuels, 35, 16 | |
| 25865
|
Seshasayee, MS; Savage, PE Oil from plastic via hydrothermal liquefaction: Production and characterization(2020) | |
| 10422
|
Scierski, W Migration of Sulfur and Nitrogen in the Pyrolysis Products of Waste and Contaminated Plastics(2021)Applied Sciences-Basel, 11, 10 |