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1. Design and Development of NiTi Shape Memory Alloy Belt for Waste Heat Energy Recovery System

   The abundant waste thermal energy from various sources can be efficiently harvested using material-based technology. Shape memory alloy (SMA) is an...

   Jayachandran Subbian, Sumeet Raikwar, ... Palani Iyamperumal Anand in Journal of Materials Engineering and Performance

   Article 13 August 2021
   

2. Thermoelectric Generators System Made with Low-Cost Thermoelectric Modules for Low Temperature Waste Heat Recovery

   One of the most common problems in industrial processes is the loss of energy in the form of heat. In the search to recover this type of thermal...

   Manuela Castañeda, Andrés A. Amell, Henry A. Colorado in TMS 2022 151st Annual Meeting & Exhibition Supplemental Proceedings

   Conference paper 2022
   

3. Enhancing Optimal Resource Recovery from Municipal Wastewater Sludge: Selection of Appropriate Waste to Energy Technologies for Zvishavane Urban, Zimbabwe

   The world is faced with a growing population, increasing pollution, and diminishing resources. As such, there is a growing need to explore the...

   Roberta Mavugara, Mark Matsa, Rameck Defe in Materials Circular Economy

   Article 30 November 2023
   

4. Experimental and Heat Transfer Analysis Using Nanofluid in Cylindrical Heat Pipe Heat Exchanger

   In waste heat management systems for the utilization of heat, many new techniques are used currently, by taking into account an effective one is heat...

   P. Ramkumar, C. M. Vivek, ... S. P. Manikandan in 2nd International Conference on Smart Sustainable Materials and Technologies (ICSSMT 2023)

   Conference paper 2024
   

5. Experimental and Performance Study of Diesel Engine Using Inlet Preheated Air by Heat Pipe Heat Exchanger

   The utilization of waste exhaust heat energy into inlet preheated air is investigated using heat pipe heat exchanger. This study focuses on waste...

   P. Ramkumar, M. Sivasubramanian, ... P. Latha in 2nd International Conference on Smart Sustainable Materials and Technologies (ICSSMT 2023)

   Conference paper 2024
   

6. Wet spinning of the graphene oxide composite liquid crystals toward graded utilization of waste heat

   Thermal conductive composite materials (TCCMs) applied in the thermal management are of ever-rising significance with the rapid development of a...

   Zhenda Ye, ** Zhao, ... Pengcheng Lin in Journal of Materials Science

   Article 03 January 2022
   

7. Precise separation and efficient recovery of Pd(II) from high-level liquid waste by XAD-based adsorbents

   Efficient separation of palladium (Pd(II)) from high-level liquid waste (HLLW) not only helps the safe disposal of nuclear waste, but also is a vital...

   Hao-Ran Dong, Shun-Yan Ning, ... Yue-Zhou Wei in Rare Metals

   Article 14 June 2024
   

8. Selective Recovery of Zn and Mn from Waste Zinc–Manganese Batteries by Autocatalytic Reduction Roasting Followed by Leaching Process

   Waste Zn-Mn batteriesWaste Zn-Mn batteries were the largest producer of e-wasteWaste, which was not only typical hazardous materialsMaterials but...

   Zijian Su, Bin Lei, Wei Lv in TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings

   Conference paper 2024
   

9. Recovery and thermoelectric performance optimization of p-type bismuth telluride waste by secondary zone-melting

   The preparation of bismuth telluride (BST) mainly relies on the zone melting method in the commercial market. However, the zone melted ingot usually...

   Kai Fu, Jian Yu, ... Qingjie Zhang in Journal of Materials Science: Materials in Electronics

   Article 11 February 2024
   

10. Biopolymer Waste Management

    Because of their significant contribution in various products present in modern society, biopolymers are regarded as a diverse class of materials....

    Azeem Intisar, Arooj Ramzan, ... Muhammad Bilal in Handbook of Biopolymers

    Reference work entry 2023
    

11. Photovoltaic recycling: enhancing silicon wafer recovery process from damaged solar panels

    The rapid proliferation of photovoltaic (PV) modules globally has led to a significant increase in solar waste production, projected to reach 60–78...

    T. Keerthivasan, R. Madhesh, ... P. Ramasamy in Journal of Materials Science: Materials in Electronics

    Article 30 April 2024
    

12. Recycling of LiCoO₂ Battery Cathode Material Through Aluminothermic Reduction Using Aluminum Waste Chips

    The global increase in electric vehicles (EVs) uptake accelerates the number of End-of-life (EOL) lithium-ion batteries (LIBs) to be managed and...

    D. C. Nababan, R. Mukhlis, ... M. A. Rhamdhani in Metallurgical and Materials Transactions B

    Article 13 November 2023
    

13. Resource Recovery from Wastewater Using Polymeric Membranes

    Expansion of human civilization implicates increased consumption of natural resources. The industrial, commercial and domestic sectors produce a...

    Arkapriya Nandi, Arindam Rakshit, Priya Banerjee in Membranes for Water Treatment and Remediation

    Chapter 2023
    

14. Waste heat energy harvesting by using praseodymium, nickel codoped zinc oxide thermoelectric materials

    ZnO is a semiconductor with immense potential to use in different technological applications including in non-conventional energy generation such as...

    C. Soumya, P. P. Pradyumnan in Journal of Materials Science

    Article 10 November 2023
    

15. Reimagining plastics waste as energy solutions: challenges and opportunities

    Recent statistics portray a stark reality, particularly highlighting the inadequate recycling measures and the consequent environmental threats, most...

    Angie F. J. Tan, Sam Yu, ... Alex C. K. Yip in npj Materials Sustainability

    Article Open access 21 February 2024
    

16. Pre-treatment of Waste Copper Dust (I): Potential of Oxidative Roasting–Density Separation–Sulphuric Acid Leaching Technology for Copper Recovery

    Copper sulphides (CS) in most waste copper dust (WCD) are often small but appreciable, contributing to poor copper recovery (CR) during sulphuric...

    Daniel Ogochukwu Okanigbe, Abimbola Patricia Popoola, Abraham Adewale Adeleke in Resource Recovery and Recycling from Waste Metal Dust

    Chapter 2023
    

17. Waste Lead-Acid Battery Recycling Technologies

    The growing of collected waste lead-acid batteryLead-Acid Battery (LAB) quantity means the growing demand for secondary lead (Pb) material for car...

    Mahmut Altiner, Soner Top, Sait Kursunoglu in Recycling Technologies for Secondary Zn-Pb Resources

    Chapter 2023
    

18. A review on metal extraction from waste printed circuit boards (wPCBs)

    Electrical and electronic components, the silent orchestrators of our technological symphony, have been crucial for enabling societal advances. From...

    James Fazari, Md Zakir Hossain, Paul Charpentier in Journal of Materials Science

    Article 02 July 2024
    

19. Plastic Waste Gasification

    Thermochemical processes are used to manage non-recyclable plastic waste. Direct combustion, pyrolysis, and gasification are the three major...

    Parisa Mojaver, Ata Chitsaz, ... Morteza Khalilian in Plastic Waste Treatment and Management

    Chapter 2023
    

20. Recycling of Gold and Silver from Electronic Waste—A Review

    Electronic waste (e-waste is one of the fastest growing waste streams which contains valuable materials such as plastic, glass, and precious metals....

    Lakshitha E. N. Gamage, A. K. Basak, ... Seeram Ramakrishana in Materials Circular Economy

    Article 13 July 2023