Toward maximizing the recycling rate in a Sapporo waste plastics liquefaction plant

At European level, there are concrete measures regarding waste management in the circular economy, and these refer to: mandatory recycling rates for different categories of waste: plastics, glass, metals, paper and cardboard as well as biodegradable waste; the obligation to redesign the products in order to increase the proportion of raw materials resulting from recycling and to increase the degree of recycling of products, in order to consider them as secondary raw materials; promoting and stimulating the reuse of products; increasing the recycling rate of municipal waste by 2030 to a minimum of 65%; increasing the recycling rate of packaging waste by 2030 to a minimum of 75%; reduction of food wastage and implicitly of the resulted food waste by 50% by 2030. The large amount of packaging waste determined the taking of legislative measures that defined the obligations of pack- aging producers/distributors, recycling objectives and the waste management hierarchy. New targets for the recycling of packaging waste predict a growth to 65% in 2025 and 70% in 2030 [1]. Textile packaging waste is an important link in the integrated management of waste whose recovery contributes to the conservation and improvement of natural capital.

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203 Current Issues of Recycling Municipal Plastic Containers and Wrapping Surrounding Waste Plastics Liquefaction Plant

The Proceedings of the Symposium on Environmental Engineering ◽

10.1299/jsmeenv.2008.18.171 ◽

2008 ◽

Vol 2008.18 (0) ◽

pp. 171-174

Author(s):

Masaaki FUKUSHIMA ◽

Misao SHIOYA ◽

Keiji WAKAI ◽

Hidetoshi IBE

Keyword(s):

Waste Plastics ◽

Plastic Containers ◽

Liquefaction Plant

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Conversion of waste plastics to single-cell protein by means of pyrolysis followed by fermentation

Journal of Chemical Technology & Biotechnology ◽

10.1002/jctb.280310109 ◽

1981 ◽

Vol 31 (1) ◽

pp. 55-65 ◽

Cited By ~ 4

Author(s):

Jeevajothy Karthigesan ◽

Bernard S. Brown

Keyword(s):

Single Cell ◽

Single Cell Protein ◽

Cell Protein ◽

Waste Plastics

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A Comprehensive Review on Blast Furnace

SMART MOVES JOURNAL IJOSCIENCE ◽

10.24113/ijoscience.v4i11.171 ◽

2018 ◽

Vol 4 (11) ◽

pp. 6

Author(s):

Upendra Kumar ◽

Avinash Patidar ◽

Bhupendra Koshti

Keyword(s):

Blast Furnace ◽

Metallurgical Coke ◽

Waste Plastics ◽

Blast Furnaces ◽

Liquid Hydrocarbons ◽

Comprehensive Review ◽

Global Performance ◽

Flow Heat ◽

And Control ◽

Recycled Waste

The design and control of blast furnace (BF) ironmaking must be optimized in order to be competitive and sustainable, particularly under the more and more demanding and tough economic and environmental conditions. To achieve this, it is necessary to understand the complex multiphase flow, heat and mass transfer, and global performance of a BF. In this paper injection of alternative reducing agents via lances in the tubers of blast furnaces is discussed to reduce the consumption of metallurgical coke. Besides liquid hydrocarbons and pulverized coal the injection of recycled waste plastics is possible, offering the opportunity to chemically reuse waste material and also utilize the energy contained in such remnants.

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UTILIZATION OF WASTE PLASTICS TO ENHANCE THE PERFORMANCE OF MODIFIED HOT MIX ASPHALT

International Journal of Geomate ◽

10.21660/2017.40.170603 ◽

2017 ◽

Vol 13 (40) ◽

Author(s):

Aymen Awad

Keyword(s):

Hot Mix Asphalt ◽

Waste Plastics

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Research on Closed-Loop Supply Chain Decision-Making in Different Cooperation Modes with Government’s Reward-Penalty Mechanism

Sustainability ◽

10.3390/su13116425 ◽

2021 ◽

Vol 13 (11) ◽

pp. 6425

Author(s):

Quanxi Li ◽

Haowei Zhang ◽

Kailing Liu

Keyword(s):

Supply Chain ◽

Closed Loop ◽

Stackelberg Game ◽

Recycling Rate ◽

Transfer Payment ◽

Closed Loop Supply Chain ◽

Asymmetry Of Information ◽

Optimal Decisions ◽

The Government ◽

The Impact

In closed-loop supply chains (CLSC), manufacturers, retailers, and recyclers perform their duties. Due to the asymmetry of information among enterprises, it is difficult for them to maximize efficiency and profits. To maximize the efficiency and profit of the CLSC, this study establishes five cooperation models of CLSC under the government‘s reward–penalty mechanism. We make decisions on wholesale prices, retail prices, transfer payment prices, and recovery rates relying on the Stackelberg game method and compare the optimal decisions. This paper analyzes the impact of the government reward-penalty mechanism on optimal decisions and how members in CLSC choose partners. We find that the government’s reward-penalty mechanism can effectively increase the recycling rate of used products and the total profit of the closed-loop supply chain. According to the calculation results of the models, under the government’s reward-penalty mechanism, the cooperation can improve the CLSC’s used products recycling capacity and profitability. In a supply chain, the more members participate in the cooperation, the higher profit the CLSC obtain. However, the cooperation mode of all members may lead to monopoly, which is not approved by government and customers.

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