The extended self-identify- based electric product adoption model and airline business strategy: A new theoretical framework for green technology products

2021 ◽  
Vol 38 (3) ◽  
pp. 247-262
Author(s):  
Heesup Han ◽  
Kai-Sean Lee ◽  
Aleksandar Radic ◽  
Abdul Hafaz Ngah ◽  
Jinkyung Jenny Kim

Significance Trade-offs with other policy concerns such as domestic job creation pose political dilemmas. Both green technology products and their inputs are increasingly seen as strategic, prompting efforts to secure supply chains, which risk generating trade frictions and geopolitical disputes that could affect the cost efficiency of green technology. Impacts Global supply chain traceability will become more important for low-carbon companies and investors. The need to meet increased demand for green-technology minerals will create opportunities in the areas of recycling and recovery. Green technology transfer between Western and Chinese companies will become subject to trade disputes.


Recycling ◽  
2019 ◽  
Vol 4 (4) ◽  
pp. 44 ◽  
Author(s):  
Paolo Ferro ◽  
Franco Bonollo

The European Union (EU) identified a number of raw materials that are strategic for its economy but suffer at the same time from a high supply risk. Such critical raw materials (CRMs) are used in a wide range of commercial and governmental applications: green technology, telecommunications, space exploration, aerial imaging, aviation, medical devices, micro-electronics, transportation, defense, and other high-technology products and services. As a result, the industry, the environment, and our quality and modern way of life are reliant on the access and use of them. In this scenario, recycling may be a strategic mitigating action aimed at reducing the critical raw materials supply risks. In this work, a design strategy is proposed for alloys selection that minimizes the number of CRMs with the lowest end-of-life recycling input rate. The method is illustrated with an example.


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