Multi-Technology Driven R&D Cost Improvement Scheme and Application Utility of EESP in Energy-Intensive Manufacturing Industry
Sustainability
; 14(10):6282, 2022.
Article
in English
| ProQuest Central | ID: covidwho-1871588
ABSTRACT
Facing the sustainable use of electric power resources, many countries in the world focus on the R&D investment and application of electrochemical energy storage projects (i.e., EESP). However, the high R&D cost of EESP has been hindering large-scale industrial promotion in the energy-intensive manufacturing industry represented by the tobacco industry. Reducing and controlling the R&D cost has become an urgent problem to be solved. In this context, this paper innovatively proposes a multi-technology driven R&D cost improvement scheme, which integrates WBS (i.e., Work Breakdown Structure), EVM (i.e., Earned Value Method), BD (i.e., Big Data), and ML (i.e., Machine Learning) methods. Especially, the influence of R&D cost improvement on EESP application performance is discussed through mathematical model analysis. The research indicates that reducing EESP R&D costs can significantly improve the stability of EESP power supply, and ultimately improve the application value of EESP in energy-intensive manufacturing industries. The R&D cost management scheme and technical method proposed in this paper have important theoretical guiding values and practical significance for accelerating the large-scale application of EESP.
Environmental Studies; new energy; electrochemical energy storage projects (EESP); R&D cost control; application utility; multi-technology methods; Control theory; Manufacturing; Tobacco; Mathematical models; Electricity distribution; Energy storage; Consumer goods; Electric power; Research & development--R&D; Machine learning; Performance evaluation; Building materials industry; Technology; COVID-19; Sustainable use; Cost analysis; Bibliometrics; Electricity; Sustainable development; Costs; Decision making; Manufacturing industry; Consumption; Electrochemistry; Power supply; Literature reviews; Alternative energy sources; Tobacco industry; South Korea; United States--US; China; Japan
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Collection:
Databases of international organizations
Database:
ProQuest Central
Language:
English
Journal:
Sustainability
Year:
2022
Document Type:
Article
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