Sustainable Plant Layout Design for End of Life Vehicle Recycling and Disassembly Industry Based on SLP Method, a Typical Case in China

Li, Hongliang; Wang, Yuming; Fan, Feiyang; Yu, Haijun; Chu, Jiangwei

doi:10.1109/access.2021.3086402

Cited by 10 publications

(10 citation statements)

References 37 publications

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“…However, uncertainty and other primary factors that affect ELV management were omitted in this study. Li et al (2021) adopted the sustainable system layout design method to organise the ELV recycling and disassembly plant facility layout and logistic route for remanufacturing development in China; however, integrating validation support with advanced technological tools is needed to improve the plant layout alternatives for future growth. Simic et al (2021) x Karagöz et al (2021) x Krishna Mohan and Amit (2021) x Li et al (2021) x Simic et al (2021) x Yi and Lee ( 2021 x Hao et al (2018) x Raja Mamat et al (2018) x Rosa and Terzi (2018) x Keivanpour et al (2017) x Hu and Wen (2017) x Tian et al (2017) x Phuc et al (2017) x Ravi and Shankar (2017) x Xia et al (2016) x Simic (2016a)…”

Section: Reverse Logistic Network Designmentioning

confidence: 99%

“…However, uncertainty and other primary factors that affect ELV management were omitted in this study. Li et al (2021) adopted the sustainable system layout design method to organise the ELV recycling and disassembly plant facility layout and logistic route for remanufacturing development in China; however, integrating validation support with advanced technological tools is needed to improve the plant layout alternatives for future growth. Simic et al (2021) used the picture fuzzy sets COmbinative Distance-Based ASsessment (CODAS) method to investigate the problem of identifying a new vehicle shredding plant location in the Republic of Serbia.…”

Section: Literature Reviewmentioning

confidence: 99%

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Supply chain optimisation for recycling and remanufacturing sustainable management in end-of-life vehicles: A mini-review and classification

et al. 2022

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End-of-life vehicles (ELV) management is becoming a global concern in the automotive industry. However, there is still limited study on supply chain optimisation that focusses on specific ELV treatments. Therefore, this mini-review article analyses the supply chain optimisation for recycling and remanufacturing sustainable management in ELV. A total of 51 papers were reviewed from the year 2016 to 2021. The key topics in each article were assessed and classified into various themes, followed by the content analysis. The percentage breakdown for the six main themes are ELV recovery management system (37.25%), reverse logistic network design (29.41%), ELV economy analysis (15.69%), government regulation or subsidies (7.84%), ELV quantity forecast (5.88%) and ELV part design (3.92%). It can be concluded that ELV recovery management and reverse logistic network design are the top two key focusses of supply chain optimisation priorities that have been extensively applied to improve ELV development. The literature gap has shown that the study on remanufacturing in the ELV supply chain is minimal compared to recycling. The classification of ELV recycling and remanufacturing supply chain optimisation in this study will be beneficial in supporting real-life problem-solving for industrial applications. This study serves as a valuable reference guide to identifying more sustainable solutions in ELV management and promoting the critical focus area for academicians and industry players.

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Section: Reverse Logistic Network Designmentioning

confidence: 99%

“…However, uncertainty and other primary factors that affect ELV management were omitted in this study. Li et al (2021) adopted the sustainable system layout design method to organise the ELV recycling and disassembly plant facility layout and logistic route for remanufacturing development in China; however, integrating validation support with advanced technological tools is needed to improve the plant layout alternatives for future growth. Simic et al (2021) used the picture fuzzy sets COmbinative Distance-Based ASsessment (CODAS) method to investigate the problem of identifying a new vehicle shredding plant location in the Republic of Serbia.…”

Section: Literature Reviewmentioning

confidence: 99%

Supply chain optimisation for recycling and remanufacturing sustainable management in end-of-life vehicles: A mini-review and classification

et al. 2022

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“…Due to its highly logical and practical layout techniques, the SLP method has been widely used for facility layouts. For example, it has been studied at the level of factories [2,3] and logistics parks [4,5]. However, it is difficult to achieve the best layout solution by relying on this method.…”

Section: Introductionmentioning

confidence: 99%

Research on Irregular Warehouse Layout Based on Optimised Genetic Algorithm

Lu,

Wang,

Zhang

2024

PROMTT

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Logistics is playing a significant role in supporting economic growth and material security during the epidemic period and it has been experiencing a rapid development in recent years. With the issues of personalisation and cost, the economy and society ask for higher requirements for logistics storage systems. The rational design of the functional area layout is an essential step to improve the operational efficiency of the logistics warehousing system. In reality, due to warehouse design and equipment application, there has been a gradual increase in irregular warehouses. By taking an irregular warehouse as an example, combining the operation status quo, this paper clarifies the functional area settings and constructs a 0–1 integer planning model based on the grid and systematic layout planning method with constraints, such as the unique functional attributes of the grid. We optimised the genetic algorithm based on the warehouse irregularity factor and the grids factor, and then solve it through MATLAB. Finally, by using the Flexsim software, simulation metrics were selected for evaluation, the method feasibility is verified.

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“…In the implementation of vehicle recycling (Li et al 2021, Li et al 2021a, Li et al 2019, Liu et al 2020, Meng et al 2022, especially of trucks and buses, it is necessary to build economic systems on a national scale or individual EU international communities that ensure safe collection of end-of-life cars/buses, dismantling, reuse, recovery (Chamier-Gliszczyński 2011) selection and transport of materials to processing plants, characterised by:  Tightness -ensuring that every end-of-life vehicle/bus (except for antique vehicles with museum or collector value) goes to the recycling network and preventing environmental contamination during uncontrolled dismantling by spilling oil into the ground or dumping tires into the forest, among others. (Osiński & Żach 2019),  Recycling level -as high as possible, or at least required by the EU Directive (Chamier-Gliszczyński 2011a),  Profitability -all business entities participating in the system must conduct economically viable operations.…”

Section: Introductionmentioning

confidence: 99%

Rationalisation of the Functioning of Vehicle Recycling

Zając,

Ejdys,

Balicki

2023

Rocznik Ochrona Środowiska

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Includes the identification and analysis of the vehicle recycling system using the example of buses in consideration of economic and business issues in Poland, specialising in the collection of cars/buses, their dismantling, segregation of materials and secondary use (recycling), given the regulatory changes proposed by the EU. The operations listed are interrelated. Reusing materials identical to their original purpose (including reuse of steel for car bodies) and assemblies from end-of-life vehicles (after possible reconditioning) can be applied as spare parts for repairs, subject to the observance of certain rules and the law. Life extension activities contribute to reducing the amount of waste sent to landfills. The paper presents a case for dismantling a bus.

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Sustainable Plant Layout Design for End of Life Vehicle Recycling and Disassembly Industry Based on SLP Method, a Typical Case in China

Cited by 10 publications

References 37 publications

Supply chain optimisation for recycling and remanufacturing sustainable management in end-of-life vehicles: A mini-review and classification

Supply chain optimisation for recycling and remanufacturing sustainable management in end-of-life vehicles: A mini-review and classification

Research on Irregular Warehouse Layout Based on Optimised Genetic Algorithm

Rationalisation of the Functioning of Vehicle Recycling

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