In this study, the LCA methodology from the ISO14040 standard is used to synchronously evaluate the environmental impact of different AECs in a product family from the manufacturer’s perspective. To make the assessment process efficient and convenient for the manufacturers, a parametric LCI model.
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types of capacitor for LCA is beyond the scope of the current work. This work therefore provides a novel and important insight into the environmental impacts of the production of MLCCs and
The electricity used (798,545 kWh per 100,000 capacitors) and the raw material aluminum ingots (5130 kg per 100,000 capacitors) are the environmental hotspots for
Based on the generated LCIs of the AECs and ReCiPe2016, fossil depletion, climate change, and terrestrial ecotoxicity were identified as the key environmental impact categories in the production stage for the AEC product family.
Starting from the environmental analysis of the stages of selection and supply of raw materials, it is possible to improve the sustainability of the manufacturing process of a capacitor. In
The impact assessment method, ReCiPe2016 (midpoint, hierarchist perspective), was used to quantitatively calculate the potential environmental impacts of the AECs. Results and discussion Based on the generated LCIs of the AECs and ReCiPe2016, fossil depletion, climate change, and terrestrial ecotoxicity were identified as the key environmental
environmental scoping report submitted to MET: DEA recommended that a full EIA be carried out and the Consultant has done as such giving rise to this EIA report. 1.3.1. Terms of Reference For The Environmental Impact Assessment M.SHIKONGO [S INVESTMENT GROUP ONE (Pty) Ltd appointed Outrun Investments cc to conduct an
which allows quantification of environmental performance of products and processes based on complete product life cycle was utilised to evaluate the environmental burdens associated with manufacturing a 48 V lithium-ion capacitor (LIC) module. The prospective LCA compared the environmental impact of manufacturing a LIC
types of capacitor for LCA is beyond the scope of the current work. This work therefore provides a novel and important insight into the environmental impacts of the production of MLCCs and TECs at a laboratory scale. The results can be directly translated to the day to day production of each capacitor type and can serve as a viable tool in design
PDF | On Aug 29, 2019, Zakaria Aissa Assia published Introduction To Environmental Impact Assessment | Find, read and cite all the research you need on ResearchGate
∙ A cradle-to-gate life cycle assessment is performed for a capacitor product family. ∙ Fossil depletion, climate change, and terrestrial ecotoxicity are key impact categories. ∙ Environmental impact dierences of two specication parameters are investigated. ∙ A parametric inventory model enhances the exibility of static inventory analysis.
The electricity used (798,545 kWh per 100,000 capacitors) and the raw material aluminum ingots (5130 kg per 100,000 capacitors) are the environmental hotspots for high-voltage AECs'' life cycle, which account for 94.1% of fossil consumption, 94.7% of greenhouse gas emission, and 94.9% of photochemical smog. It is of great significance to
The application of hybrid LCA framework to identify supply chain hotspots in the environmental profile of High Volumetric Efficiency Capacitors. The work demonstrates the analytical capability of LCA for the environmental impact assessment of new device versus existing device across multiple environmental metrics. In particular, it highlights
According to the ISO14040 standard, life cycle assessment consists of four phases: goal and scope definition, life cycle inventory analysis, life cycle impact assessment, and interpretation of results (ISO 2006). 2.1 Scope and purpose. As stated earlier, one purpose of this study is to compare the environmental impacts of sponge iron production using natural gas
Starting from the environmental analysis of the stages of selection and supply of raw materials, it is possible to improve the sustainability of the manufacturing process of a capacitor. In addition, the use stage and end-of-life of the devices can be analyzed to evaluate their entire life cycle.
∙ A cradle-to-gate life cycle assessment is performed for a capacitor product family. ∙ Fossil depletion, climate change, and terrestrial ecotoxicity are key impact categories. ∙
The capacitor manufacturers prefer a more efficient environmental impact assessment tool to support eco-design development, environmental management, and green marketing of their products than LCA case studies for several types of the AECs. Therefore, an easily operable quantitative assessment of the potential environmental impact of
The application of hybrid LCA framework to identify supply chain hotspots in the environmental profile of High Volumetric Efficiency Capacitors. The work demonstrates the
The life cycle assessment (LCA) methodology which allows quantification of environmental performance of products and processes based on complete product life cycle was utilised to
The life cycle assessment (LCA) methodology which allows quantification of environmental performance of products and processes based on complete product life cycle was utilised to evaluate the environmental burdens associated with manufacturing a
In the study, 100,000 AECs with specific rated working voltage (among 16 V, 25 V, and 35 V) and rated capacitance (among 4.7 to 6800 μF) produced by a capacitor manufacturer from Nantong,...
The Life Cycle Assessment (LCA) methodology which allows quantification of environmental performance of products and processes based on complete product life cycle was utilised to evaluate the
This Environmental Impact Assessment (ESIA) Study Report has been prepared in accordance with NEMA regulations under the guidance and supervision of registered NEMA Lead Experts. It meets statutory provisions stipulated in EMCA 1999.Revised 2015 and the Environmental Impact Assessment and Audit Regulations 2003 revised 2019. We hereby certify that
A cradle-to-gate life cycle assessment (LCA) was performed to evaluate the environmental impact of 38 types of AECs in a product family from the manufacturer''s perspective. In the study,
In the study, 100,000 AECs with specific rated working voltage (among 16 V, 25 V, and 35 V) and rated capacitance (among 4.7 to 6800 μF) produced by a capacitor manufacturer from Nantong,...
1 Life Cycle Assessment and Environmental Profile Evaluations of High Volumetric Efficiency Capacitors Lucy Smith*a, Taofeeq Ibn-Mohammed*b, c, S. C. Lenny Koh b, c, Ian M. Reaney a a Department of Materials Science and Engineering, The University of Sheffield, Sheffield S1 3JD, UK b Centre for Energy, Environment and Sustainability, The University of Sheffield, Sheffield,
DRAFT ENVIRONMENTAL IMPACT ASSESSMENT REPORT Purpose of this report: This Draft Environmental Impact Assessment Report forms part of a series of reports and information sources that are being provided during the Environmental Impact Assessment (EIA) process for the proposed Atlantis Gas-to-Power Project, Western Cape. In accordance with the EIA
Based on the generated LCIs of the AECs and ReCiPe2016, fossil depletion, climate change, and terrestrial ecotoxicity were identified as the key environmental impact
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