Towards Sustainable Industry: A Comprehensive Review of Energy–Economy–Environment System Analysis and Future Trends

Han, Fengfan; Ren, Anqi; Liu, Jinxin; Yu, Lixingbo; Jia, Fei; Hou, Haochen; Liu, Ying

doi:10.3390/su16125085

Sustainability

2024

DOI: 10.3390/su16125085

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Towards Sustainable Industry: A Comprehensive Review of Energy–Economy–Environment System Analysis and Future Trends

Fengfan Han,

Anqi Ren,

Jinxin Liu

et al.

Abstract: Industry, encompassing various sectors like agriculture, manufacturing, and services, is crucial for economic growth and societal progress. However, industrial growth often comes at the cost of environmental degradation and energy resource depletion, ignoring the need for sustainable development. This study analyzed 131 articles published from 2004 to 2023, using the energy–economy–environment (3E) method to explore industrial research trends. The primary focus of industrial 3E research is on environmental imp… Show more

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A Precise Energy Consumption Model for Computer Numerical Control Machines: A Hybrid Approach

Taphasanoğlu,

Cesur,

Cesur

2024

Sustainability

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In today’s world, energy efficiency is becoming increasingly crucial, due to its impact on sustainability in production. Designing systems that consume less energy and manage resources efficiently is essential. Variations in operating speed can affect processing time, energy consumption, idle times of subsequent machines, work delays, and missed deadlines. While most studies focus on prediction parameters like cut depth and cut area to estimate the energy consumption or processing time, our approach emphasizes variations in G-code motion parameters. To enhance both precision and the adaptability of the model to all Computer Numerical Control (CNC) machines in no-load condition, we propose an intelligent hybrid model that combines physical and data-driven approaches. The first approach employs curve fitting based on the physical model, while the second utilizes deep neural network (DNN) models optimized through hyperparameter tuning. The DNN topologies we evaluated exhibit high performance, with prediction errors of less than 1% for all models. Our approach provides a more precise and comprehensive understanding of energy consumption patterns in manufacturing processes, enabling manufacturers to make informed decisions about energy utilization, cost reduction, and sustainability. Our study aims to advance the field of energy efficiency in manufacturing and contribute to a more sustainable future.

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A Precise Energy Consumption Model for Computer Numerical Control Machines: A Hybrid Approach

Taphasanoğlu,

Cesur,

Cesur

2024

Sustainability

View full text Add to dashboard Cite

show abstract

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Towards Sustainable Industry: A Comprehensive Review of Energy–Economy–Environment System Analysis and Future Trends

Cited by 1 publication

References 161 publications

A Precise Energy Consumption Model for Computer Numerical Control Machines: A Hybrid Approach

A Precise Energy Consumption Model for Computer Numerical Control Machines: A Hybrid Approach

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