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.
Customer ServiceDOI: 10.1016/J.APENERGY.2018.03.067 Corpus ID: 116200951; Life cycle assessment and environmental profile evaluations of high volumetric efficiency capacitors @article{Smith2018LifeCA, title={Life cycle assessment and environmental profile evaluations of high volumetric efficiency capacitors}, author={Lucy Smith and Taofeeq Ibn-Mohammed and
Customer ServiceBiomass-derived carbon materials (BDCMs) have been considered as promising and practical candidates for electrode materials of solid-state supercapacitors (SSCs), due to their low cost, good
Customer ServiceThe 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...
Customer ServiceA model of the environmental effect on capacitance stability with temperature and frequency in Polymer Tantalum capacitors is proposed based on electrical characterization of
Customer ServiceThe goal of this study is to assess the environmental performances of two types of aluminum electrolytic capacitors, namely "Type 1" and "Type 2". The two capacitors differ for the
Customer ServiceThis report provides quantitative analysis of Solid State Ultracapacitors (SSUs) from technological and financial perspectives. SSUs are Ultracapacitors with solid electrolytes predicted to have
Customer ServiceThe aim of this study is to compare the environmental impact due to the stages of production (from the raw materials supply to the assembly) and end-of-life (recycle or
Customer Serviceinfluences the environmental performances of the capacitor. LCA is an important tool to evaluate the environmental impacts of capacitors, especially during the design phase of the devices. The growing production of these components is reflected in a tangled network of suppliers and manufacturers [16], [17]. Research Method
Customer ServiceThis study focuses on evaluating the environmental impacts on high-voltage AECs and identifying the environmental hotspots including critical environmental impact
Customer ServiceThis study focuses on evaluating the environmental impacts on high-voltage AECs and identifying the environmental hotspots including critical environmental impact categories and key flows (inputs and outputs), in order to seek opportunities for improvement from the manufacturers'' environmental management and industrial chain collaboration.
Customer ServiceWith current material performance and energy mixes, the graphene-based supercapacitor would increase impacts in all environmental categories analysed, ranging from 27% higher human toxicity to...
Customer ServiceA model of the environmental effect on capacitance stability with temperature and frequency in Polymer Tantalum capacitors is proposed based on electrical characterization of fabricated capacitors and high-resolution scanning electron microscopy (SEM) images of the unformed tantalum anodes and tantalum anodes with different anodic oxide film
Customer ServiceWith current material performance and energy mixes, the graphene-based supercapacitor would increase impacts in all environmental categories analysed, ranging from 27% higher human toxicity to...
Customer ServiceEnvironmental analysis of a nano-grid: A Life Cycle Assessment. Renewable energies are often subject to stochastic resources and daily cycles. Energy storage systems
Customer ServiceBased 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
Customer ServiceSupercapacitor technology has been continuously advancing to improve material performance and energy density by utilizing new technologies like hybrid materials and electrodes with nanostructures. Along with fundamental principles, this article covers various types of supercapacitors, such as hybrid, electric double-layer, and pseudocapacitors. Further,
Customer ServiceImportantly, batteries fall under the category of electrochemical. On the other hand, fuel cells (FCs) and super capacitors (SCs) come under the chemical and electrostatic ESSs. The capacitors and inductors present the very short (<10 s) operating cycle duration based ESSs. The SCs, flywheels and SMESs come under the short duration (1 s to 15
Customer ServiceDOI: 10.1016/j.jclepro.2022.134044 Corpus ID: 252231560; A comparative LCA study on aluminum electrolytic capacitors: From liquid-state electrolyte, solid-state polymer to their hybrid
Customer ServiceThe impact assessment method, ReCiPe2016 (midpoint, hierarchist perspective), was used to quantitatively calculate the potential environmental impacts of the
Customer ServiceThe environmental impacts of six state‐of‐the‐art solid polymer electrolytes for solid lithium‐ion batteries are quantified using the life cycle assessment methodology.
Customer ServiceThe 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
Customer ServiceThe 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
Customer ServiceA decision support tool known as the Supply Chain Environmental Assessment Tool (SCEnAT) developed by Koh et al. [89] integrates both process-LCA and EIO LCA and is employed to compute the environmental profile of the capacitors under consideration. The framework of the tool is based on five steps namely: supply chain mapping, carbon calculation,
Customer ServiceThe next chapter provides an overview of the solid-state electrolytes, notably solid polymer electrolytes, inorganic electrolytes, and redox-active solid electrolytes. In this study, a particular focus is given to the electrode fabrication methods and some emerging electrode materials, such as covalent organic frameworks (COFs), metal-organic frameworks (MOFs), metal nitrides
Customer ServiceThe goal of this study is to assess the environmental performances of two types of aluminum electrolytic capacitors, namely "Type 1" and "Type 2". The two capacitors differ for the electrolyte source and composition: Type 2 electrolyte
Customer ServiceThe aim of this study is to compare the environmental impact due to the stages of production (from the raw materials supply to the assembly) and end-of-life (recycle or disposal of wastes) of two aluminum electrolytic capacitors, which are characterized by different internal designs but are manufactured by the same producer.
Customer ServiceTo this end, the current work presents a methodologically robust lifecycle assessment (LCA) of two representative capacitors, namely Tantalum Electrolytic Capacitors (TECs) and Multilayer Ceramic Capacitors (MLCCs). This allows us to define and address environmental hotspots within the supply chain as well as sustainability issues that are
Customer ServiceEnvironmental analysis of a nano-grid: A Life Cycle Assessment. Renewable energies are often subject to stochastic resources and daily cycles. Energy storage systems are consequently applied to provide a solution for the mismatch between power production
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