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Life Cycle Assessment of Solar Fa?ade Concepts Based on Transparent Insulation Materials
摘要: Contemporary architecture and construction industry are trying to cope with increasing requirements concerning energy efficiency and environmental impacts. One of the available options is the active utilization of energy gains from the environment, specifically solar energy gains. These gains can be utilized by, for example, solar walls and facades. The solar fa?ade concept has been under development for more than a century. However, it has not achieved widespread use for various reasons. Rather recently the concept was enhanced by the application of transparent insulation materials that have the potential to increase the efficiency of such fa?ades. The presented study evaluates the environmental efficiency of 10 solar fa?ade assemblies in the mild climate of the Czech Republic, Central Europe. The evaluated fa?ade assemblies combine the principles of a solar wall with transparent insulation based on honeycomb and polycarbonate panels. The study applies Life-Cycle Assessment methodology to the calculation of environmental impacts related to the life cycle of the evaluated assemblies. The results indicate that even though there are several limiting factors, fa?ade assemblies with transparent insulation have lower environmental impacts compared to a reference assembly with standard thermal insulation. The highest achieved difference is approx. 84% (in favor of the assembly with transparent insulation) during a modelled 50-year fa?ade assembly service life.
关键词: transparent insulation,environmental impacts,fa?ade,building,Life-Cycle Assessment,low-emissivity
更新于2025-09-19 17:15:36
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Assessing the sustainability of emerging technologies: A probabilistic LCA method applied to advanced photovoltaics
摘要: A key source of uncertainty in the environmental assessment of emerging technologies is the unpredictable manufacturing, use, and end-of-life pathways a technology can take as it progresses from lab to industrial scale. This uncertainty has sometimes been addressed in life cycle assessment (LCA) by performing scenario analysis. However, the scenario-based approach can be misleading if the probabilities of occurrence of each scenario are not incorporated. It also brings about a practical problem; considering all possible pathways, the number of scenarios can quickly become unmanageable. We present a modelling approach in which all possible pathways are modelled as a single product system with uncertain processes. These processes may or may not be selected once the technology reaches industrial scale according to given probabilities. An uncertainty analysis of such a system provides a single probability distribution for each impact score. This distribution accounts for uncertainty about the product system’s final configuration along with other sources of uncertainty. Furthermore, a global sensitivity analysis can identify whether the future selection of certain pathways over others will be of importance for the variance of the impact score. We illustrate the method with a case study of an emerging technology for front-side metallization of photovoltaic cells.
关键词: sustainability assessment,LCA,uncertainty,global sensitivity analysis,Life cycle assessment,emerging technologies
更新于2025-09-19 17:13:59
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Storage systems for building-integrated photovoltaic (BIPV) and building-integrated photovoltaic/thermal (BIPVT) installations: Environmental profile and other aspects
摘要: In recent years there has been an increasing interest in Building-Integrated Photovoltaic (BIPV) and Building-Integrated Photovoltaic/Thermal (BIPVT) systems since they produce clean energy and replace conventional building envelope materials. By taking into account that storage is a key factor in the effective use of renewable energy, the present article is an overview about storage systems which are appropriate for BIPV and BIPVT applications. The literature review shows that there are multiple storage solutions, based on different kinds of materials (batteries, Phase Change Material (PCM) components, etc.). In terms of BIPV and BIPVT with batteries or PCMs or water tanks as storage systems, most of the installations are non-concentrating, fa?ade- or roof-integrated, water- or air-based (in the case of BIPVT) and include silicon-based PV cells, lead-acid or lithium-ion batteries, paraffin- or salt-based PCMs. Regarding parameters that affect the environmental profile of storage systems, in the case of batteries critical factors such as material manufacturing, accidental release of electrolytes, inhalation toxicity, flammable elements, degradation and end-of-life management play a pivotal role. Regarding PCMs, there are some materials that are corrosive and present fire-safety issues as well as high toxicity in terms of human health and ecosystems. Concerning water storage tanks, based on certain studies about tanks with volumes of 300 L and 600 L, their impacts range from 5.9 to 11.7 GJprim and from 0.3 to 1.0 t CO2.eq. Finally, it should be noted that additional storage options such as Trombe walls, pebble beds and nanotechnologies are critically discussed. The contribution of the present article to the existing literature is associated with the fact that it presents a critical review about storage devices in the case of BIPV and BIPVT applications, by placing emphasis on the environmental profile of certain storage materials.
关键词: ecotoxicity,Building-Integrated Photovoltaic/Thermal (BIPVT),embodied energy,Human toxicity,Life Cycle Assessment (LCA),CO2 emissions,Building-Integrated Photovoltaic (BIPV),Storage materials
更新于2025-09-19 17:13:59
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Environmental Criteria for Assessing the Competitiveness of Public Tenders with the Replacement of Large-Scale LEDs in the Outdoor Lighting of Cities as a Key Element for Sustainable Development: Case Study Applied with PROMETHEE Methodology
摘要: The technological change to LEDs is an unstoppable reality which, little by little, is becoming increasingly important in terms of the lighting inside and outside our homes. The exterior lighting of our cities is moving decisively and clearly towards the incorporation of this technology in urban spaces. The energy efficiency, light quality, and economic benefits of LED technology are an unquestionable reality. This is causing public administration projects involving large-scale switches to LEDs to be promoted and financed; however, it is beginning to be observed that the commitment to the policies decided by this technology should take into account some environmental aspects which have not been studied to date. The environmental impact of the substitutions is caused by the need to valorize the replaced luminaires. Until now, most have been stored without the possibility of use, reuse, or recovery. The environmental impact produced in the manufacture of LED luminaires that replace the old sodium vapor (VSAP) or metal halide (MH) discharge lamps must also be considered. In addition, in the administrative clauses specifications that govern the public tenders, it is observed that the fundamental environmental aspects both of recycling the old lamps, and of the life cycle analysis (LCA) of the luminaires that are replacing them, have not been contemplated or valued with sufficient weight. In addition, there are very few public substitution contests in which environmental criteria are rewarded or valued in an important way. This work intends to summarize a methodological proposal using the techniques of multiple decision-making criteria for the selection of bidding companies for public outdoor lighting competitions. We propose the use of the PROMETHEE method multi-criteria analysis for the application of the most commonly used criteria for the luminaire LED selection process, including an environmental impact assessment with LCA techniques, and propose this as a case or model guide in the public contests of cities. A model of the bidding conditions that addresses and assesses the environmental aspects which are absolutely key to sustainable development is supported by the ecological criteria of the circular economy.
关键词: environmental criteria,circular economy,Life cycle assessment LCA,lighting pollution,lighting public tender,PROMETHEE,recycling waste,LED luminaires,decision tool,streetlight waste
更新于2025-09-16 10:30:52
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Environmental Performance of Emerging Photovoltaic Technologies: Assessment of the Status Quo and Future Prospects Based on a Meta-Analysis of Life-Cycle Assessment Studies
摘要: Emerging photovoltaic technologies are expected to have lower environmental impacts during their life cycle due to their extremely thin-film technology and resulting material savings. The environmental impacts of four emerging photovoltaics were investigated based on a meta-analysis of life-cycle assessment (LCA) studies, comprising a systematic review and harmonization approach of five key indicators to describe the environmental status quo and future prospects. The status quo was analyzed based on a material-related functional unit of 1 watt-peak of the photovoltaic cell. For future prospects, the functional unit of 1 kWh of generated electricity was used, including assumptions on the use phase, notably on the lifetime. The results of the status quo show that organic photovoltaic technology is the most mature emerging photovoltaic technology with a competitive environmental performance, while perovskites have a low performance, attributed to the early stage of development and inefficient manufacturing on the laboratory scale. The results of future prospects identified improvements of efficiency, lifetime, and manufacturing with regard to environmental performance based on sensitivity and scenario analyses. The developed harmonization approach supports the use of LCA in the early stages of technology development in a structured way to reduce uncertainty and extract significant information during development.
关键词: perovskite solar cell,life-cycle assessment,harmonization,Meta-analysis,organic photovoltaic,emerging technology
更新于2025-09-16 10:30:52
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Comparative life cycle assessment of fixed and single axis tracking systems for photovoltaics
摘要: Single axis tracking systems (SATS) are becoming one of the most common types of solar photovoltaic (PV) installations due to improved performance compared to fixed systems. The impact of SATS in terms of various environmental indicators has yet to be fully quantified. The main goal of this study is to understand the environmental differences between fixed and SATS PV systems. For this reason, a comparative LCA between fixed and SATS was performed. A secondary goal is to determine the environmental impact of both systems under different scenarios that includes manufacturing in high and low CO2 intensive electricity grids, installation in different locations and different energy displacement options. The study is attributional and has been calculated with the cut-off modeling of ecoinvent 3.1. Calculations were performed with the software openLCA 1.7.4 with impacts obtained based on ReCiPe, cumulative energy demand and cumulative exergy demand methods.
关键词: Solar energy,Sustainability,Single axis tracking systems,Life cycle assessment,Carbon payback time
更新于2025-09-16 10:30:52
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Estimating the environmental footprint of a grid-connected 20 MWp photovoltaic system
摘要: Balance-of-system components represent a growing share of environmental impacts in photovoltaic utility-scale solar energy systems. There are, however, no effective methods to carry out screening type life-cycle assessment during the planning phase of the power plant to minimize these impacts. This paper uses the European Commission’s novel product environmental footprint methodology to explore the life-cycle impacts of a case study in Hungary and applies two life-cycle models with different system boundaries and assumptions. The first model represents a full-fledged assessment with a detailed inventory, while the other, simplified model can be directly linked to the main plant design parameters. Our results show that: a) the production of photovoltaic modules account for around half of the total aggregated environmental impacts, b) compared to the Hungarian grid mix, the new power plant reduces the environmental footprint by 75%. It is also shown that the simplified model captures the overwhelming majority of impacts, thus, it is applicable during the eco-design of similar systems.
关键词: Life cycle assessment,Environmental footprint,Photovoltaics
更新于2025-09-16 10:30:52
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Optimal integration of microalgae production with photovoltaic panels: environmental impacts and energy balance
摘要: Background: Microalgae are 10 to 20 times more productive than the current agricultural biodiesel producing oleaginous crops. However, they require larger energy supplies, so that their environmental impacts remain uncertain, as illustrated by the contradictory results in the literature. Besides, solar radiation is often too high relative to the photosynthetic capacity of microalgae. This leads to photosaturation, photoinhibition, overheating and eventually induces mortality. Shadowing microalgae with solar panels would, therefore, be a promising solution for both increasing productivity during hotter periods and producing local electricity for the process. The main objective of this study is to measure, via LCA framework, the energy performance and environmental impact of microalgae biodiesel produced in a solar greenhouse, alternating optimal microalgae species and photovoltaic panel (PV) coverage. A mathematical model is simulated to investigate the microalgae productivity in raceways under meteorological conditions in Sophia Antipolis (south of France) at variable coverture percentages (0% to 90%) of CIGS solar panels on greenhouses constructed with low-emissivity (low-E) glass. Results: A trade-off must be met between electricity and biomass production, as a larger photovoltaic coverture would limit microalgae production. From an energetic point of view, the optimal configuration lies between 10 and 20% of PV coverage. Nevertheless, from an environmental point of view, the best option is 50% PV coverage. However, the difference between impact assessments obtained for 20% and 50% PV is negligible, while the NER is 48% higher for 20% PV than for 50% PV coverage. Hence, a 20% coverture of photovoltaic panels is the best scenario from an energetic and environmental point of view. Conclusions: In comparison with the cultivation of microalgae without PV, the use of photovoltaic panels triggers a synergetic effect, sourcing local electricity and reducing climate change impacts. Considering an economic approach, low photovoltaic panel coverage would probably be more attractive. However, even with a 10% area of photovoltaic panels, the environmental footprint would already significantly decrease. It is expected that significant improvements in microalgae productivity or more advanced production processes should rapidly enhance these performances.
关键词: Chlorococcum sp.,Renewable energy,Raceway,Desmodesmus sp.,Biodiesel,Life cycle assessment
更新于2025-09-16 10:30:52
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Environmental evaluation of Waste to Energy plant coupled with concentrated solar energy
摘要: Life Cycle Assessment (LCA) was applied to evaluate the environmental impact of a hybrid energy system based on the integration of a Waste to Energy plant with concentrated solar energy plant. In the Waste to Energy (WtE) section only saturated steam is produced, while the superheating takes place in an external superheater fed by the concentrated solar energy or, when this is not enough, by a natural gas backup boiler. Different couples of pressure and temperature, for the superheated steam (51 bar, 440 °C; 60 bar, 480 °C; 70 bar, 520 °C), different values for the solar multiple (1.5, 2.0 and 2.5) and different values for the thermal storage capacity (6 h, 10 h and 14 h) were considered, leading to 27 possible cases. Construction, operation and end-of-life phases were included in the LCA system boundary. Calculated global warming indicator, in kg of equivalent CO2 per MJ of produced electricity, slightly decreases for increasing steam parameter cases and for increasing storage hour cases, while a more relevant reduction was observed for increasing solar multiple values. The main contribution to global warming derives from the operation phase of the WtE part (67-86% of the operation), while the remaining part (14-33%) is given by the solar section, for which, in turn, the main contribution is the impact deriving from the natural gas combustion in the backup boiler.
关键词: WtE plant,life cycle assessment,global warming,concentrated solar energy
更新于2025-09-12 10:27:22
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Commercial-scale hybrid solar photovoltaic - diesel systems in select Arab countries with weak grids: An integrated appraisal
摘要: Solar photovoltaic (PV) diesel hybrid systems are effective solutions for sustainable energy transition in countries where utility grids are intermittent. An ‘integrated appraisal’ of ’hybrid solar (PV) - diesel’ systems are carried out to assess their overall energetic, environmental, financial and economic performances. The study carries out the analysis of hybridized solar photovoltaic energy using first-hand data and information collected from the Palestinian, Lebanese and Iraqi commercial and/or industrial sectors, adopting several scenarios of tariff and diesel fuel prices, capital costs assumptions, solar PV curtailment, and values for environmental damage adopted from life-cycle impact assessment methods that allow for monetization and are globally valid. Results show that hybrid PV-diesel systems have largely beneficial energy, environmental and economic performances in all three countries, whereas their financial performance are also positive for Palestine and Lebanon, however less promising in Iraq, mainly due Iraq’s heavily subsidized electricity tariff. The study concludes with policy recommendations focused on promoting solar PV in the commercial and/or industrial sectors, namely: the gradual phasing-out of fossil fuel subsidies, the effective execution of net-metering, the provision of subsidized sustainable energy loans, and carefully designed energy management systems.
关键词: Life-cycle assessment,Arab countries,Cost-benefit analysis,Hybrid solar PV-Diesel
更新于2025-09-12 10:27:22