Graphene production line environmental assessment

Prospective Life Cycle Assessment of Graphene Production by

2014年3月19日  One promising future bulk application of graphene is as composite additive Therefore, we compare two production routes for insolution graphene using a cradletogate 2023年12月1日  The results could provide references for exploring the environmental consequences of graphene under largescale manufacture and identifying early the potential Environmental impacts of graphene at industrial production scale 2021年12月28日  We provide an overview on the life cycle environmental impact assessment, with a focus on global warming potential and energy demand, carried out on different A review on sustainable production of graphene and related life 2021年2月15日  This study compares prior life cycle assessment (LCA) studies on graphenebased materials (GBMs) with new results from original data on ball milling of fewlayer graphene The analysis thus offers an overview of the Towards a more environmentally sustainable

FormSpecific Prospective Environmental Risk

6 天之前  This study seeks to close the knowledge gap regarding the environmental risks posed by different GBM forms─pristine graphene, graphene oxide, and reduced graphene oxide─, offering a targeted environmental risk 2017年2月13日  Schematic illustration of the three most patented types of graphene production processes: Exfoliation (a), chemical vapour deposition (b), and epitaxial growth (c) Graphical representation ofReview of environmental life cycle assessment studies As graphenebased materials (GBMs) such as pristine graphene, graphene oxide, and reduced graphene oxide show great potential to be integrated in various applications, the need for FormSpecific Prospective Environmental Risk Assessment of In this paper, life cycle impacts of five production processes for graphene are reviewed: Chemical reduction of graphite oxide, ultrasonication exfoliation, thermal exfoliation, chemical vapourReview of environmental life cycle assessment studies of graphene

Prospective Life Cycle Assessment of Epitaxial Graphene

Epitaxial growth is a potential production process for the new material graphene, where it is grown on silicon carbide (SiC) wafers at high temperatures We provide first estimates of the life 2022年9月20日  Graphene Flagship News Graphene Flagship researchers published three studies related to the sustainable production of graphene related materials (GRMs) and their Life Cycle Assessment (LCA) – the best tool to Life cycle assessment of graphene and related materials2014年3月19日  Request PDF Prospective Life Cycle Assessment of Graphene Production by Ultrasonication and Chemical Reduction One promising future bulk application of graphene is as composite additiveProspective Life Cycle Assessment of Graphene Production by 2020年1月1日  Graphene is a single layer of carbon atoms arranged hexagonally with an hybridized electronic configuration (Zhu et al, 2010)It offers high thermal conductivity (Balandin et al, 2008), high mechanical properties (Lee et al, 2008), and has potential for a range of energy applicationsOne specific application of graphene, in the form of nanoplatelets, is as the active A comparative life cycle assessment of graphene and activated

(PDF) A review on sustainable production of graphene and

2021年12月1日  We provide an overview on the life cycle environmental impact assessment, with a focus of global warming potential and energy demand, carried out on different graphene productions methods for 2021年2月15日  Purpose This study compares prior life cycle assessment (LCA) studies on graphenebased materials (GBMs) with new results from original data on ball milling of fewlayer graphene The analysis thus offers an overview of the current state of knowledge on the environmental sustainability of GBM production Possible future development pathways and Towards a more environmentally sustainable production of graphene 2017年6月26日  Semantic Scholar extracted view of "Review of environmental life cycle assessment studies of graphene production" by Rickard Arvidsson Skip to search form Skip to main content , title={Review of environmental life cycle assessment studies of graphene production}, author={Rickard Arvidsson}, journal={Advanced Materials Review of environmental life cycle assessment studies of graphene 2022年2月1日  Since its advent, graphene has been hailed as a revolutionary twodimensional (2D) carbonbased nanomaterial for the 21st century At present, graphenefamily nanomaterials (GFNs), a class of similar graphenelike structured materials with various sizes, layers, surface chemistry, and defects, are creatively designed and applied because of their unique Environmental and health effects of graphenefamily

Environmental assessment of cement production with added graphene

2024年9月1日  Despite the above, it is important to acknowledge some gaps in the literature on these topics persist First, studies on the life cycle environmental impacts of cement production in the Global North can now be considered to be outdated (most are previous 2014) due to older background databases and impact assessment methodologies (Bueno et al, 2016; Lu et al, the first LCA of epitaxial graphene production The main challenge when conducting an assessment of this process is that no largescale production yet exists This implies the need to use prospective LCA methodology in order to assess future potential environmental impacts of epitaxial graphene production In the LCA field, the term prospectiveProspective Life Cycle Assessment of Epitaxial Graphene Production 2023年12月1日  Graphene technology is currently in a stage of rapid development, with improved industrial production capacity and lower manufacturing costs in the near future (Hong et al, 2022; Xiao et al, 2019; Zou et al, 2018)As nanomaterials with high thermal conductivity, high electron mobility, chemical inertness, extreme mechanical strength, and high electrical conductivity, Environmental impacts of graphene at industrial production A comparative life cycle assessment of graphene and activated carbon in a supercapacitor application Matteo Cossuttaa*, Viliam Vretenarbd, Teresa A Centenoc, Peter Kotruszd, Jon McKechniea, Stephen J Pickeringe *Corresponding author a Bioprocess, Environmental and Chemical Technologies Research Group, Faculty of Engineering,A comparative life cycle assessment of graphene and activated

Environmental assessment of cement production with added graphene

DOI: 101016/jcesys2024 Corpus ID: ; Environmental assessment of cement production with added graphene @article{Tarpani2024EnvironmentalAO, title={Environmental assessment of cement production with added graphene}, author={Raphael Tarpani and Akilu Yunusa‐Kaltungo and Meini Su and Patrick Manu and Clara Man Cheung and Michael Watson To our knowledge, this article represents the first LCA of epitaxial graphene production The main challenge when conducting an assessment of this process is that no largescale production yet exists This implies the need to use prospective LCA methodology in order to assess future potential environmental impacts of epitaxial graphene productionProspective Life Cycle Assessment of Epitaxial Graphene Production Keywords Life cycle assessment Graphene Harmonised comparison Prospective model Ecodesign suggestions the environmental impacts of production processes fromTowards a more environmentally sustainable production of graphene 2019年1月25日  Reduced graphene oxide (rGO) is widely seen as the most promising route for the lowcost mass production of graphene for many applications ranging from ultrathin electrodes to structural nanocomposites The Hummers and Marcano methods are the two most successful approaches for producing highperformance rGO, but have been criticized for producing toxic [PDF] Environmental impact of the production of graphene

Comparative LCA of different graphene production routes

papers In this study, original data from graphene production would, in these cases, improve the reliability of the modelling and provide further insights into how production parameters influence life cycle environmental impacts The current analysis also expands the number of production routes investigated by previous studies In order to 2021年6月8日  Purpose of Review The purpose of this review is to consolidate exposure assessment methods for occupational research on engineered nanomaterials (ENMs) published within the past 5 years (2015–2020) Recent Findings The three ENMs that generated the highest volume of new research include titanium dioxide, graphene, and aluminum oxide A multi Occupational Exposures to Engineered Nanomaterials: a 2021年10月4日  Porous carbon aerogel material has gained an increasing attraction for developing supercapacitor electrodes due to its costeffective synthesis process and relatively high electrochemical performance However, the environmental performances of supercapacitor electrodes produced from different carbon aerogel materials are never comparatively studied, Environmental life cycle assessment of supercapacitor electrode 2022年12月16日  The environmental impacts associated with sawdust production were neglected in this study because it is residue from the wood processing industry and is usually considered waste that has zero emission burdens 59, 60 In terms of renewable energy for decarbonizing FG production, hydroelectricity was assumed to be used because hydropower Graphene environmental footprint greatly reduced when derived

Environmental assessment of cement production with added graphene

Cement production significantly contributes to climate change, necessitating alternatives to mitigate the environmental impacts of this essential construction material This study evaluates 18 environmental impacts of producing Ordinary Portland Cement (OPC) and Graphene (Gr) using life cycle assessment (LCA) Additionally, we explore whether mixing OPC and Gr can lower 2024年8月25日  It was shown that the direct energy use for the production of graphene foils in the baseline scenario based on theorical calculation is 22 kJ/cm 2, which is lower compared to 44 kJ/cm 2 in the ITO baseline (Arvidsson et al, 2016)However, in the given sensitivity analysis, the direct energy use is 160 kJ/cm 2 in high scenario, which is further higher than that of ITO Life cycle assessment of rolltoroll produced chemical vapor 2020年6月16日  Today, engineered nanomaterials are frequently used Nanosized titanium dioxide (TiO2) has been extensively used for many years and graphene is one type of emerging nanomaterial Occupational Emissions and exposures of graphene nanomaterials, 2013年11月29日  life cycle environmental impact of graphene production for use in composite bulk materials A number of graphene production routes for laboratoryscale have been suggested20,21 It is not trivial to identify which of those routes are of relevance for industrialscale production of graphene Patents should, to a larger extent than scientificProspective Life Cycle Assessment of Graphene Production by

Magic or Malice? Assessing the Environmental Impacts of Graphene

Although graphene may not have been as immediately impactful as popular science anticipated it to be, this has allowed the discussion and assessment of graphene’s environmental impacts In order to mitigate environmental disasters, graphene’s effects on ecosystems and organisms require deep understanding in order to minimize ecological risks2017年1月12日  Environmental assessment of nanomaterials is conducted using LCA and some of the LCA reports are available in the literature for other carbon nanomaterials [9, 10] An environmental perspective comparison of the two graphene production routes, (1) chemical reduction and (2) ultrasonication, was performed by Arvidsson et al Biotechnological Production Process and Life Cycle Assessment of Graphene2014年3月27日  Two production routes for insolution graphene are compared using a cradletogate lifecycle assessment focusing on potential differences in energy use, blue water footprint, human toxicity, and ecotoxicity, to demonstrate the possibility to conduct prospective life cycle assessment studies of products at early stages of technological development One promising Prospective life cycle assessment of graphene production by 2013年11月29日  life cycle environmental impact of graphene production for use in composite bulk materials A number of graphene production routes for laboratoryscale have been suggested20,21 It is not trivial to identify which of those routes are of relevance for industrialscale production of graphene Patents should, to a larger extent than scientificProspective Life Cycle Assessment of Graphene Production by

Investigating the environmental costs of utilizing graphene

2022年4月15日  In the present work, the environmental burden of three novel GBM (graphenebased material) filters (porous graphene, graphene oxidebased foam and hybrid combination) are quantified and compared at a flow rate of 1 m 3 /d by way of life cycle impact assessment with an alternative solution, an AOPPPT (advanced oxidation process by pulsed power treatment)2013年3月13日  ABSTRACT Several future applications have been suggested for the nanomaterial graphene, and its production is increasing dramatically This study is a review of riskrelated information on graphene with the purpose of outlining potential environmental and health risks and guide future riskrelated research Available information is presented Review of Potential Environmental and Health Risks of the Graphene is an important functional material that could contribute to our sustainable development, but the sustainability of the production and use of graphene is often overlooked In a recent One Earth article, Jia et al evaluate the life cycle environmental impacts of graphene made from biomass waste Here, we furtherThe pursuit of more sustainable production techniques and uses The graphene “gold rush” began in 2004, catalyzed by the simple yet revolutionary use of Scotch tape to peel graphene flakes off a chunk of graphite (Novoselov et al, 2004)Graphene, originating from graphite, is twodimensional oneatomthick honeycomb lattice, where each carbon atom is connected to its three nearest neighbors by σbonds and a delocalized πbond Grapheneencapsulated nanocomposites: Synthesis, environmental

Formspecific prospective environmental risk assessment of graphene

pristine graphene, graphene oxide, and reduced graphene oxide and determined their final sinks in technical and environmental compartments The majority of compartments exhibit distribution patterns of the different forms similar to that of the production compartment positioned in the flow diagram’s upper left corner (Figure 1)2023年7月23日  The environmental burdens of the production routes for the preparation of EEG and HG were investigated by cradletogate life cycle Arvidsson R, Kushnir D, Sandén B A, Molander S (2014) Prospective life cycle assessment of graphene production by ultrasonication and chemical reduction Environmental Science Technology, 48(8 Synthesis, characterization and life cycle assessment of 2021年2月1日  Purpose This study compares prior life cycle assessment (LCA) studies on graphenebased materials (GBMs) with new results from original data on ball milling of fewlayer graphene(PDF) Towards a more environmentally sustainable production of graphene Tarpani R, YunusaKaltungo A, Su M, Manu P, Cheung C, Watson M et al Environmental assessment of cement production with added graphene Cleaner Environmental Systems 2024 Sept 1; Epub 2024 Jun 28 doi: 101016/jcesys2024Environmental assessment of cement production with added graphene

Environmental and Health Impacts of Graphene and Other Two

2024年2月13日  Twodimensional (2D) materials have attracted tremendous interest ever since the isolation of atomically thin sheets of graphene in 2004 due to the specific and versatile properties of these materials However, the increasing production and use of 2D materials necessitate a thorough evaluation of the potential impact on human health and the 2022年11月28日  Since the process is a gas phase reaction without any catalysts, the resulting graphene is elementally pure; the carbon content is 998%, and very consistent from batch to batch This type of process has an environmental advantage in terms of energy demand when compared to industrial graphene production methods with large energy demandUnderstanding Environmental Impact is Critical The Graphene life cycle environmental impact of graphene production for use in composite bulk materials A number of graphene production routes for laboratoryscale have been suggested20,21 It is not trivial to identify which of those routes are of relevance for industrialscale production of graphene Patents should, to a larger extent than scientificProspective Life Cycle Assessment of Graphene Production by 2018年11月2日  Graphene and its derivatives are heralded as “miracle” materials with manifold applications in different sectors of society from electronics to energy storage to medicine The increasing exploitation of graphenebased materials (GBMs) necessitates a comprehensive evaluation of the potential impact of these materials on human health and the environment Safety Assessment of GrapheneBased Materials: Focus on

Prospective Life Cycle Assessment of Epitaxial Graphene Production

2016年12月1日  For this purpose, we applied prospective life cycle assessment (LCA) for three production scenarios (lab, pilot, and an industrial scenario), which reflect different production scales and

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