Modelling of different circular end-of-use scenarios for smartphones

Abstract Purpose Repairing, refurbishing and remanufacturing are three strategies of the Circular Economy (CE), aiming at closing product cycles and maintaining materials and resources in the product cycle as long as possible. This paper analyses the environmental impacts of these three circular end-of-use scenarios (repairing, refurbishing and part remanufacturing) when performed on a common, “non-circular” smartphone. The underlying data used for this paper partly have been result of the Horizon 2020 project sustainablySMART, where circular product concepts have been developed and analysed in detail. Methods To analyse the environmental impacts of different circular end-of-use scenarios of smartphones, a Life Cycle Assessment (LCA) is performed. For considering the impact of a smartphone’s first life (e.g. materials, production), an economic allocation is used. Since the goal of the study was to better understand the environmental impacts of processing routes that enable multiple life cycles of a product, allocation according to the economic value is applied instead of applying system expansion. As system expansion provides just an aggregated view of the first and second product life cycles and no decision support at the end of the first life regarding the relevant CE strategy can be given. The economic allocation is based on the ratio between the residual market value and the original price from the scenario’s input stream of smartphones of the respective end-of-use scenario. To reach comparability of the results, a second-use-time-parameter is defined for each scenario. This parameter takes into account that the second use time reaches only a certain share from the average smart phone use time. Results This study shows that through all three circular strategies, a reduction in the investigated impact categories—Global Warming Potential (GWP) and Abiotic Depletion Potential (ADP)—can be achieved. Conclusions The analysed end-of-use scenarios repairing and refurbishing show the highest potential for smartphones in terms of Circular Economy, as most of the environmental impacts can be allocated to the device production, and the impact of additional steps to perform CE-strategies (e.g. collection of discarded phones, refurbishing) is rather low.

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Life Cycle Assessment of Households in Santiago, Chile: Environmental Hotspots and Policy Analysis

Sustainability ◽

10.3390/su13052525 ◽

2021 ◽

Vol 13 (5) ◽

pp. 2525

Author(s):

Camila López-Eccher ◽

Elizabeth Garrido-Ramírez ◽

Iván Franchi-Arzola ◽

Edmundo Muñoz

Keyword(s):

Global Warming ◽

Life Cycle Assessment ◽

Life Cycle ◽

Environmental Impacts ◽

Food Consumption ◽

Household Income ◽

Resource Scarcity ◽

Life Cycles ◽

The Impact ◽

Freshwater Eutrophication

The aim of this study is to assess the environmental impacts of household life cycles in Santiago, Chile, by household income level. The assessment considered scenarios associated with environmental policies. The life cycle assessment was cradle-to-grave, and the functional unit considered all the materials and energy required to meet an inhabitant’s needs for one year (1 inh/year). Using SimaPro 9.1 software, the Recipe Midpoint (H) methodology was used. The impact categories selected were global warming, fine particulate matter formation, terrestrial acidification, freshwater eutrophication, freshwater ecotoxicity, mineral resource scarcity, and fossil resource scarcity. The inventory was carried out through the application of 300 household surveys and secondary information. The main environmental sources of households were determined to be food consumption, transport, and electricity. Food consumption is the main source, responsible for 33% of the environmental impacts on global warming, 69% on terrestrial acidification, and 29% on freshwater eutrophication. The second most crucial environmental hotspot is private transport, whose contribution to environmental impact increases as household income rises, while public transport impact increases in the opposite direction. In this sense, both positive and negative environmental effects can be generated by policies. Therefore, life-cycle environmental impacts, the synergy between policies, and households’ socio-economic characteristics must be considered in public policy planning and consumer decisions.

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PROJECT MANAGEMENT IN THE TRANSITION TO A CIRCULAR ECONOMY

Management of Development of Complex Systems ◽

10.32347/2412-9933.2021.45.21-26 ◽

2021 ◽

pp. 21-26

Author(s):

Sergey Bushuyev ◽

Denis Bushuiev ◽

Victoria Bushuieva ◽

Olena Verenych

Keyword(s):

Project Management ◽

Best Practices ◽

Organizational Development ◽

Circular Economy ◽

Cost Effective ◽

Life Cycles ◽

Development Projects ◽

Waste Products ◽

The World ◽

The Impact

The problem of creating effective models, methods and tools for strategic management of projects and programs for the development of organizations in the transition to a circular economy. Global trends in the development of organizations prove that the world is transforming with acceleration. The life cycle of knowledge and technologies for managing complex projects and programs is significantly reduced. The technical and technological complexity of organizational development projects increases due to innovations. These trends create significant challenges in the development of project management systems and programs for the formation of a circular economy in Ukraine. This is especially true of projects and programs in conditions of uncertainty about the impact of COVID 19 and anticipation of a global crisis after a pandemic. Today, the application of proven best practices (benchmarking) is no longer a way forward. Forming a vision, goals and strategy for the implementation of organizational development projects in advance makes our actions rigid, not flexible. When creating a project or program begins with focusing on what is valuable to our customers and the country, it is enough for us to use best practices. But the complexity and innovative orientation of development projects of organizations in the transition to a circular economy creates a number of challenges. One of the answers to these challenges is cost-effective work on project management and development programs, taking into account the trends of transition to a circular economy. Project management teams learn to distinguish between what is valuable and what doesn't matter, this is the path that management methodologies have taken for decades. A number of projects have taken the first steps in implementing the necessary cost-effective / flexible transition that supports sustainability and adaptability to turbulent environmental changes. In the conditions of modern destructive economic relations in the world community the problem of a choice of strategy of projects as drivers of development of the organizations is vital. One of the key approaches to the development of the EU is the transition to a circular economy with maximum utilization of both waste products and projects, and the disposal of project products after the end of product life cycles.

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Avaliação do ciclo de vida de habitações de alvenaria estrutural de blocos cerâmicos e painéis pré-moldados de concreto considerando diferentes zonas bioclimáticas

LALCA- Revista Latino Americana em Avaliação do Ciclo de Vida ◽

10.18225/lalca.v1i1.3823 ◽

2017 ◽

Vol 1 (1) ◽

pp. 138-167 ◽

Cited By ~ 4

Author(s):

Lucas Rosse Caldas ◽

Júlia Santiago de Matos Monteiro Lira ◽

Rosa Maria Sposto

Keyword(s):

Reinforced Concrete ◽

Environmental Impacts ◽

Energy Use ◽

Precast Concrete ◽

Secondary Data ◽

Environmental Modeling ◽

Life Cycles ◽

Housing Projects ◽

Concrete Panels ◽

The Impact

O setor da construção civil é apontado como um grande consumidor de recursos naturais e causador de diversos impactos ambientais. Neste sentido, verificam-se, nos últimos anos, iniciativas do setor para melhoria da qualidade e aumento da eficiência de seus processos, entre eles o desenvolvimento de sistemas construtivos mais racionalizados e industrializados, podendo ser citados a alvenaria estrutural e painéis pré-moldados de concreto armado. No entanto, o setor ainda carece de formas de avaliar os reais impactos ambientais desses diferentes sistemas, ao longo de seus ciclos de vida. Assim, o presente estudo buscou aplicar a metodologia de Avaliação do Ciclo de Vida (ACV) para a comparação de impactos ambientais de dois projetos de habitação de interesse social (HIS), sendo um de alvenaria estrutural de blocos cerâmicos e outro de painéis pré-moldados de concreto armado, considerando o impacto dos diferentes desempenhos térmicos desses sistemas em seis zonas bioclimáticas brasileiras. O estudo apresentado é do tipo “berço ao portão com opções”, em que os estágios de produção, substituição dos materiais e uso de energia da habitação foram considerados. Foram utilizados dados secundários, modelagem ambiental no software SimaPro e simulação termoenergética no software DesignBuilder. A habitação de painéis pré-moldados de concreto apresentou maiores impactos ambientais nas seis zonas bioclimáticas estudadas, sendo que a cidade de Teresina foi a maior e Curitiba a menor. O estágio de uso se mostrou o mais significativo para todas categorias de impacto ambiental avaliadas. Conclui-se a importância de se avaliar o desempenho térmico em diferentes zonas bioclimáticas para estudos de ACV aplicados às edificações brasileiras.Resumen El sector de la construcción es señalado como um grande consumidor de recursos naturales por consiguiente de diversos impacto ambientales. En este sentido, se observan en los últimos años iniciativas para beneficio de la calidad y la eficiencia en sus procesos, como por ejemplo el desarrollo de sistemas constructivos más racionalizados e industrializados, pudieran citarse la albañilería estructural y paneles pre-fabricados de hormigón armado. Sin embargo, este sector aún carece de caminos para evaluar los reales impactos ambientales de los diferentes sistemas a lo largo de su ciclo de vida. En este contexto, el presente estudio busco aplicar la metodología de Análisis de Ciclo de Vida (ACV) para comparar los impactos ambientales de dos proyectos de viviendas de interés social (HIS), siendo en este caso uno de ellos de albañilería estructural utilizando bloques cerámicos y el otro, con utilización de paneles pre-fabricados de hormigón armado. El presente estudio es un “cuna a la puerta con opciones” en donde cada etapa que comprendía producción, substitución y el uso de energía en la vivienda fue considerada. Fueron utilizados para procesar los datos, para el modelo ambiental el software SimaPro y para la simulación termo energética DesignBuilder. La vivienda de paneles pre-fabricados de hormigón presentó mayor impacto ambiental en las seis zonas bioclimáticas estudiadas, donde en el caso de la ciudad de Teresina se presento el mayor impacto y en Curitiba el menor. La etapa de uso se mostró lo más significativo para todas las categorías de impacto ambiental evaluadas. Se concluye que evaluar el desempeño térmico en diferentes zonas bioclimáticas es de grande importancia para estudios de ACV aplicados en las viviendas brasileiras. Abstract The construction industry is a large consumer of natural resources and is responsible for several environmental impacts. In this sense, it is verified, in recent years, initiatives of the sector to improve the quality and increase the efficiency of its processes, among them the development of more rationalized and industrialized construction systems, such as structural masonry and precast reinforced concrete panels. However, the sector still lacks ways to assess the real environmental impacts of these different systems, throughout their life cycles. Thus, the present study aimed to apply the Life Cycle Assessment (LCA) methodology for the comparison of environmental impacts of two social housing projects (HIS), one of ceramic brick structural masonry and another one of precast reinforced concrete panels, considering the impact of the different thermal performances of these systems in six Brazilian bioclimatic zones. The study presented is “cradle-to-gate with options” type, including the stages of production and replacement of materials and energy use of the house were considered. Secondary data were used, environmental modeling in SimaPro software and thermal-energetic simulation in DesignBuilder software were done. The precast concrete panel’s house presented larger environmental impacts in the six bioclimatic zones, since the city of Teresina was the largest and Curitiba the smallest. The use stage was the most significant for all environmental impact categories assessed. We conclude the importance of evaluating the thermal performance in different bioclimatic zones for LCA studies applied to Brazilian buildings.

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Environmental performance of collection boxes for end of life mobile phones

Waste Management & Research ◽

10.1177/0734242x19857468 ◽

2019 ◽

Vol 37 (8) ◽

pp. 851-859

Author(s):

Markéta Šerešová ◽

Miloš Polák ◽

Vladimír Kočí

Keyword(s):

Stainless Steel ◽

End Of Life ◽

Environmental Impacts ◽

Life Stage ◽

Energy Performance ◽

Life Cycles ◽

Electronic Equipment ◽

The European Union ◽

The Individual ◽

The Impact

Managing waste electrical and electronic equipment is currently one of the top priority challenges of waste management in the European Union. The collection and subsequent processing of waste electrical and electronic equipment are realized by means of the so-called collective systems that employ collection boxes varying in size and materials used for their production. This study focuses on quantifying and comparing environmental impacts of often-used collection boxes on the example of mobile phone collection. The comparison was based on volume (20 l, 60 l, and 70 l) and on the material used for the construction of the box (polypropylene, corrugated cardboard, and stainless steel). Other parameters, such as lifetime, material and energy performance for production, end of life stage, and waste generation were taken in account. The evaluation was carried out using the method of life cycle assessment with the characterization model CML 2001 created in GaBi 8. The goal of the study was to identify the box with the smallest environmental impact and to identify the hotspots in the life cycles of the individual collection boxes. The results of the study show that polypropylene boxes are the most environmentally suitable for collecting small waste electrical and electronic equipment as they produce the lowest environmental impacts in all of the impact categories evaluated, while boxes made of stainless steel have been found to represent the least environmentally friendly option. The results of the study provide and suggest to the collective system basic data for choosing the type of collection box.

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A Comparative Environmental Assessment of Heat Pumps and Gas Boilers towards a Circular Economy in the UK

Energies ◽

10.3390/en14113027 ◽

2021 ◽

Vol 14 (11) ◽

pp. 3027

Author(s):

Selman Sevindik ◽

Catalina Spataru ◽

Teresa Domenech Aparisi ◽

Raimund Bleischwitz

Keyword(s):

Environmental Impacts ◽

Circular Economy ◽

Heat Pumps ◽

Life Cycle Approach ◽

Future Scenarios ◽

Baseline Model ◽

Ground Source Heat Pumps ◽

The Future ◽

The Uk ◽

The Impact

This research compares the potential environmental impacts of heat pumps with gas boilers and scenario analysis through utilising the life cycle approach. The study analyses the current situation with the baseline model and assesses future applications with Circular Economy (CE), Resource Efficiency (RE) and Limited Growth (LG) scenarios. Then, hybrid applications of low-carbon technologies and different manufacturing scenarios are investigated according to baseline and CE scenarios. Our results show that the use and manufacturing phases are responsible for 74% and 14% of all environmental impacts on average as expected. Even though the electricity mix of the UK has decarbonised substantially during the last decade, heat pumps still have higher lifetime impacts than gas boilers in all environmental categories except climate change impact. The carbon intensity of heat pumps is much lower than gas boilers with 0.111 and 0.097 kg CO2e for air source heat pumps and ground source heat pumps, whereas the boiler stands as 0.241 kg CO2e. Future scenarios offer significant reductions in most of the impact categories. The CE scenario has the highest potential with a 44% reduction for heat pumps and 27% for gas boilers on average. RE and LG scenarios have smaller potential than the CE scenario, relatively. However, several categories expect an increase in future scenarios such as freshwater ecotoxicity, marine ecotoxicity and metal depletion categories. High deployment of offshore wind farms will have a negative impact on these categories; therefore, a comprehensive approach through a market introduction programme should be provided at the beginning before shifting from one technology to another. The 50% Hybrid scenario results expect a reduction of 24% and 20% on average for ASHP and GSHP, respectively, in the baseline model. The reduction is much lower in the CE scenario, with only a 2% decrease for both heat pumps because of the reduction in heat demand in the future. These results emphasise that even though the importance of the use phase is significant in the baseline model, the remaining phases will play an important role to achieve Net-Zero targets in the future.

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PENERAPAN CORPORATE SOCIAL RESPONSIBILITY DALAM PENGELOLAAN WAKAF PRODUKTIF

ISTITHMAR: Jurnal Pengembangan Ekonomi Islam ◽

10.30762/itr.v3i1.2035 ◽

2020 ◽

Vol 3 (1) ◽

Author(s):

Masruchin Masruchin

Keyword(s):

Environmental Impacts ◽

Infrastructure Development ◽

Religious Activities ◽

Short Term ◽

Local Society ◽

Business Units ◽

Corporate Social ◽

The Impact ◽

A Company ◽

Social And Environmental Impacts

Corporate Social Responsibilityis a concept that a company has various forms of responsibility to all stakeholders including consumers, employees, shareholders, communities and the environment in all aspects of the company's operations that include economic, social, and environmental aspects. Therefore CSR is closely related to "sustainable development", in which a company, in carrying out its activities must base its decisions not only on the impact on economic aspects, such as the level of profits or dividends (profits), but also must consider the social and environmental impacts that arise from that decision, both for the short term and the longer term.Pondok Modern Darussalam Gontor (PMDG), in managing its Productive Waqf by establishing business units which mostly involve workers from the local society around PMDG. They are employed according to their skills. This is a form of implementing CSR in order to help advance and improve the welfare of the local society. The existence of these various business units is one of the educational facilities and as a form of CSR application which is actually intended to educate in the fields of independence, entrepreneurship, sincerity and sacrifice.PMDG involvement in social activities that are useful for the local society such as infrastructure development and village facilities, regeneration of students who are from around PMDG to be able to get higher education with funding from the PMDG, doing guidance to the local society through various religious activities, educational and economic activities is a form of PMDG responsibility to the local society environment and also to all stakeholders such as students, Ustadz, employees, so as to provide social and environmental impacts for the short term and the longer term.Keywords: Corporate Social Responsibilityandproductive waqf.

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Green Deal as a Climate Changes Dam on the Road to Health

European Journal of Public Health ◽

10.1093/eurpub/ckaa165.295 ◽

2020 ◽

Vol 30 (Supplement_5) ◽

Author(s):

M Jevtic ◽

C Bouland

Keyword(s):

Public Health ◽

Climate Change ◽

Circular Economy ◽

Clinical Medicine ◽

Health Sector ◽

The Public ◽

The Road ◽

National Public Health ◽

On The Road ◽

The Impact

Abstract Public health professionals (PHP) have a dual task in climate change. They should persuade their colleagues in clinical medicine of the importance of all the issues covered by the GD. The fact that the health sector contributes to the overall emissions of 4.4% speaks to the lack of awareness within the health sector itself. The issue of providing adequate infrastructure for the health sector is essential. Strengthening the opportunities and development of the circular economy within healthcare is more than just a current issue. The second task of PHP is targeting the broader population. The public health mission is being implemented, inter alia, through numerous activities related to environmental monitoring and assessment of the impact on health. GD should be a roadmap for priorities and actions in public health, bearing in mind: an ambitious goal of climate neutrality, an insistence on clean, affordable and safe energy, a strategy for a clean and circular economy. GD provides a framework for the development of sustainable and smart transport, the development of green agriculture and policies from field to table. It also insists on biodiversity conservation and protection actions. The pursuit of zero pollution and an environment free of toxic chemicals, as well as incorporating sustainability into all policies, is also an indispensable part of GD. GD represents a leadership step in the global framework towards a healthier future and comprises all the non-EU members as well. The public health sector should consider the GD as an argument for achieving goals at national levels, and align national public health policies with the goals of this document. There is a need for stronger advocacy of health and public-health interests along with incorporating sustainability into all policies. Achieving goals requires the education process for healthcare professionals covering all of topics of climate change, energy and air pollution to a much greater extent than before.

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Development of the Circular Bioeconomy: Drivers and Indicators

Sustainability ◽

10.3390/su13010413 ◽

2021 ◽

Vol 13 (1) ◽

pp. 413

Author(s):

Maximilian Kardung ◽

Kutay Cingiz ◽

Ortwin Costenoble ◽

Roel Delahaye ◽

Wim Heijman ◽

...

Keyword(s):

Circular Economy ◽

Food Production ◽

Conceptual Analysis ◽

Green Economy ◽

Political Agenda ◽

Analysis Framework ◽

Stakeholder Consultation ◽

Time Period ◽

The Impact ◽

The Eu

The EU’s 2018 Bioeconomy Strategy Update and the European Green Deal recently confirmed that the bioeconomy is high on the political agenda in Europe. Here, we propose a conceptual analysis framework for quantifying and analyzing the development of the EU bioeconomy. The bioeconomy has several related concepts (e.g., bio-based economy, green economy, and circular economy) and there are clear synergies between these concepts, especially between the bioeconomy and circular economy concepts. Analyzing the driving factors provides important information for monitoring activities. We first derive the scope of the bioeconomy framework in terms of bioeconomy sectors and products to be involved, the needed geographical coverage and resolution, and time period. Furthermore, we outline a set of indicators linked to the objectives of the EU’s bioeconomy strategy. In our framework, measuring developments will, in particular, focus on the bio-based sectors within the bioeconomy as biomass and food production is already monitored. The selected indicators commit to the EU Bioeconomy Strategy objectives and conform with findings from previous studies and stakeholder consultation. Additionally, several new indicators have been suggested and they are related to measuring the impact of changes in supply, demand drivers, resource availability, and policies on sustainability goals.

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Advances of 2nd Life Applications for Lithium Ion Batteries from Electric Vehicles Based on Energy Demand

Sustainability ◽

10.3390/su13105726 ◽

2021 ◽

Vol 13 (10) ◽

pp. 5726

Author(s):

Aleksandra Wewer ◽

Pinar Bilge ◽

Franz Dietrich

Keyword(s):

Life Cycle ◽

Lithium Ion Batteries ◽

Electric Vehicles ◽

Energy Demand ◽

Lithium Ion ◽

Life Cycles ◽

Future Research ◽

Research Areas ◽

Study Results ◽

The Impact

Electromobility is a new approach to the reduction of CO2 emissions and the deceleration of global warming. Its environmental impacts are often compared to traditional mobility solutions based on gasoline or diesel engines. The comparison pertains mostly to the single life cycle of a battery. The impact of multiple life cycles remains an important, and yet unanswered, question. The aim of this paper is to demonstrate advances of 2nd life applications for lithium ion batteries from electric vehicles based on their energy demand. Therefore, it highlights the limitations of a conventional life cycle analysis (LCA) and presents a supplementary method of analysis by providing the design and results of a meta study on the environmental impact of lithium ion batteries. The study focuses on energy demand, and investigates its total impact for different cases considering 2nd life applications such as (C1) material recycling, (C2) repurposing and (C3) reuse. Required reprocessing methods such as remanufacturing of batteries lie at the basis of these 2nd life applications. Batteries are used in their 2nd lives for stationary energy storage (C2, repurpose) and electric vehicles (C3, reuse). The study results confirm that both of these 2nd life applications require less energy than the recycling of batteries at the end of their first life and the production of new batteries. The paper concludes by identifying future research areas in order to generate precise forecasts for 2nd life applications and their industrial dissemination.

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Effect of Barley Sowing Density on the Integrated Weed Management of Lolium rigidum (Annual Ryegrass) in Mediterranean Dryland: A Modeling Approach

Agronomy ◽

10.3390/agronomy11081565 ◽

2021 ◽

Vol 11 (8) ◽

pp. 1565

Author(s):

María Belén D’Amico ◽

Guillermo R. Chantre ◽

Guillermo L. Calandrini ◽

José L. González-Andújar

Keyword(s):

Weed Management ◽

Life Cycles ◽

Integrated Weed Management ◽

Future Research ◽

Seed Removal ◽

Weed Infestation ◽

High Control ◽

Weed Dynamics ◽

The Impact

Population models are particularly helpful for understanding long-term changes in the weed dynamics associated with integrated weed management (IWM) strategies. IWM practices for controlling L. rigidum are of high importance, mainly due to its widespread resistance that precludes chemical control as a single management method. The objective of this contribution is to simulate different IWM scenarios with special emphasis on the impact of different levels of barley sowing densities on L. rigidum control. To this effect, a weed–crop population model for both L. rigidum and barley life cycles was developed. Our results point out: (i) the necessity of achieving high control efficiencies (>99%), (ii) that the increase of twice the standard sowing density of barley resulted in a reduction of 23.7% of the weed density, (iii) non-herbicide-based individual methods, such as delayed sowing and weed seed removal at harvest, proved to be inefficient for reducing drastically weed population, (iv) the implementation of at least three control tactics (seed removal, delay sowing and herbicides) is required for weed infestation eradication independently of the sowing rate, and (v) the effect of an increase in the sowing density is diluted as a more demanding weed control is reached. Future research should aim to disentangle the effect of different weed resistance levels on L. rigidum population dynamics and the required efficiencies for more sustainable IWM programs.

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