Browsing by Subject "bio-oil"

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Access status: Open Access ,
Benefits from co-pyrolysis of biomass and refuse derived fuel for biofuels production: experimental investigations
(2024) Magdziarz, Aneta; Jerzak, Wojciech; Wądrzyk, Mariusz; Sieradzka, Małgorzata
Wydział Inżynierii Metali i Informatyki Przemysłowej
The application of renewable fuels and waste for energy production is crucial environmentally and economically. Co-pyrolysis of biomass and refuse derived fuel (RDF) offers a promising pathway for valuable products that combine various benefits including enhanced energy recovery, waste valorisation, improved product quality, and environmental sustainability. Consideration of specific feedstocks and optimization of process parameters are necessary to maximise the efficiency and effectiveness of the co-pyrolysis process. This work presents investigations of the co-pyrolysis process of lignocellulosic biomass wastes (rye straw and agriculture grass) and RDF. These biomasses ensure efficient decomposition. The RDF, high in carbon (78.5 %) and hydrogen (11.8 %), was predominantly plastic based. Based on Py-GC-MS studies at 600°C, it was observed that the addition of RDF to biomass caused a significant decrease in the share of organic oxygen compounds among the released decomposition products. Laboratory tests were performed in a fixed-bed reactor for raw biomass and RDF and 1:1 and 3:1 biomass to RDF mass ratio. The results demonstrated that the yield of char production decreased with the addition of RDF, which promoted the bio-oil yield. Despite, RDF pyrolysis meets problems, it was proved that co-pyrolysis of biomass and RDF is a good solution for their utilization.
Access status: Open Access ,
The application of a drop-tube reactor for fast pyrolysis of agricultural biomass: an effective way to valuable products
(2024) Bieniek, Artur; Sieradzka, Małgorzata; Wądrzyk, Mariusz; Jerzak, Wojciech; Magdziarz, Aneta
Wydział Inżynierii Metali i Informatyki Przemysłowej
This paper presents experimental investigations of the fast pyrolysis of three agricultural biomass feedstocks in a drop-tube reactor (DTR) focusing on the production of bio-oil. Studying oat straw, corn straw, and rape straw allowed to optimize the use of diverse agricultural waste streams. The application of DTR with specially designed geometry and sample feeder gave information about pyrolysis conditions that can be helpful in the design of industrial-scale pyrolysis. The physical and chemical properties of feedstocks and received products using advanced instrumental techniques were determined. The yields of bio-oil were the highest during fast pyrolysis of studied biomass and were as follows: 53.2%, 51.28% and 49.11% for oat straw, corn straw and rape straw, respectively. The bio-oils were composed mainly of oxygen-containing compounds, with a dominant share of acids and phenols. It means that obtained bio-oils require upgrading their properties such as energy density and storage stability. The bio-chars were characterised by a high-energy density containing 60-70 wt.% carbon content giving carbon materials with a wide range of possible applications such as energy storage, absorbents and catalysts. The received pyrolytic gas was mostly composed of CO and CO2, and around 10% of hydrogen proving that it is possible to obtain pyrolysis-derived syngas as a source of energy. This research demonstrates the potential of using DTR for fast pyrolysis of agriculture residues aligning with the circular economy concept and contributing valuable knowledge for industrial applications.