Affiliation:
1. Department of Environment and Planning and Centre for Environmental and Marine Studies, University of Aveiro, 3810-193 Aveiro, Portugal
2. Superior School of Technology and Management, Polytechnic Institute of Portalegre, 7300-110 Portalegre, Portugal
3. Department of Mechanical Engineering, Instituto Superior Técnico, Universidade de Lisboa, 1049-001 Lisboa, Portugal
Abstract
This study investigates the potential of utilizing pyrolysis byproducts, including char and non-condensable gases, as an energy source to promote autothermal pyrolysis. A total of six pyrolysis experiments were conducted at three distinct cracking temperatures, namely, 450 °C, 500 °C, and 550 °C. The experiments utilized two types of biomasses, i.e., 100% pine chips and 75% pine chips mixed with 25% refuse-derived fuels (RDF). The findings from the experiments were subsequently incorporated into a process simulation conducted on Aspen Plus for an energy balance and a techno-economic analysis. The results of the experiments revealed that the energy produced by the byproducts utilizing only pine chips is 1.453 kW/kg, which is enough to fulfill the energy demand of the pyrolysis reactor (1.298 kW/kg). However, when 25% of RDF is added, the energy demand of the reactor decreases to 1.220 kW/kg, and the produced energy increases to 1.750 kW/kg. Furthermore, adding RDF increases bio-oil’s lower heating value (LHV). The techno-economic study proposed three scenarios: optimistic, conservative, and tragic. The optimistic has a payback period (PBP) of 7.5 years and a positive net present value (NPV). However, the other two scenarios were unfavorable, resulting in unfeasibility.
Funder
Portuguese Foundation for Science and Technology
Reference52 articles.
1. EPA (2023, July 17). Global Greenhouse Gas Emissions Data, Available online: https://www.epa.gov/ghgemissions/global-greenhouse-gas-emissions-data.
2. Pyrolysis characteristics of RDF and HPDE blends with biomass;Chavando;Int. J. Hydrogen Energy,2021
3. Kaza, S., Yao, L.C., Bhada-Tata, P., and Van Woerden, F. (2018). What a Waste 2.0: A Global Snapshot of Solid Waste Management to 2050, World Bank.
4. Kaur, S. (2020). Public preferences for setting up a biomass power plant to combat open-field burning of rice crop residues: A case study of district Sangrur, Punjab, India. Biomass Bioenergy, 138.
5. University of Leeds (2024, April 19). Open Burning of Solid Waste Is a Global Threat to Human Health and Safety That Requires Urgent Action. Available online: https://phys.org/news/2021-01-solid-global-threat-human-health.html.