CO2 Reduction Potentials by Utilizing Waste Plastics in Steel Works

Abstract: Background, Aim and Scope. Feedstock recycling has received attention as an effective method to recycle waste plastics. However, estimating the reduction potential by LCA using coke oven and blast furnace in steel works has been a challenging task due to the complex structure of energy flow in steel works. Municipal waste plastics consist of several plastic resins. Previous studies have generally disregarded the composition of waste plastics, which varies significantly depending on the geographical area. If th… Show more

“…IPPC (2011) reports 0.75 t-coke/t-plastic, without specifying the plastic type. Sekine et al (2009) reported 1.17 t-coke/t for polyethylene, 1.0 t-coke/t for polypropylene, 1.28 t-coke/t for polystyrene, and 0.57 t-coke/t for PET. Based on the above values, this study assumed a coke substitution rate of 1 t-coke/t-plastic.…”

Assessment of midterm CO2 emissions reduction potential in the iron and steel industry: a case of Japan

“…IPPC (2011) reports 0.75 t-coke/t-plastic, without specifying the plastic type. Sekine et al (2009) reported 1.17 t-coke/t for polyethylene, 1.0 t-coke/t for polypropylene, 1.28 t-coke/t for polystyrene, and 0.57 t-coke/t for PET. Based on the above values, this study assumed a coke substitution rate of 1 t-coke/t-plastic.…”

Assessment of midterm CO2 emissions reduction potential in the iron and steel industry: a case of Japan

“…4, which were obtained from modeling of the material recycling processes based on our field surveys and previous studies [2,24,25]. The amounts of recycled products and substituted products in coke oven chemical feedstock recycling and blast furnace feedstock recycling for each type of resin, obtained from the modeling of feedstock recycling processes based on previous studies [12,14,17], are shown in Tables 2 and 3, respectively. Power generation efficiency is assumed to be 20% for the energy recovery of household waste plastics in the I-0, I-1 and I-2 scenarios.…”

“…The Japan Plastic Containers and Packaging Recycling Association (2007) [14] also evaluated the environmental performance of the combination of material recycling and energy recovery of residue from the material recycling processes considering the resin composition of waste plastics in terms of calorific value. Sekine et al [17] investigated the potential reduction of CO 2 emission for feedstock recycling technologies in steel works for different types of plastic resin. Larsen et al [18] demonstrated the environmental and economic potentials of the recycling of household waste including plastic packaging wastes in a full-scale waste management system and compared various collection schemes; however, the recycling technology was assumed to be identical regardless of the collection scheme.…”

Life cycle assessment of integrated recycling schemes for plastic containers and packaging with consideration of resin composition

“…The coke product or the solid fraction yield depends on the volatile content in the polymers, decreasing with increasing volatile content in the polymers. Similarly, the gas yield decreases as the carbon content increases ( Table 4 and Table 5 ) [ 25 ]. Pyrolysis products of thermosets and their composites are given in Table 6 and Table 7 [ 26 ].…”

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