Life Cycle Assessment on Electric Moped Scooter Sharing

Schelte, Nora; Severengiz, Semih; Schünemann, Jaron; Finke, Sebastian; Bauer, O.; Metzen, Matthias

doi:10.3390/su13158297

Cited by 23 publications

(37 citation statements)

References 36 publications

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“…Similarly, the rise of e-moped shared scooters has generated concerns about the business model's long-term sustainability since the worst-case scenario can be 40% more hurtful than the original one. Promisingly, the best-case scenario includes solar-powered e-mopeds and batteries swapped with the assistance of an electric van to achieve 20 gCO 2eq /p-km [57]. So, the study by Schelte et al [57] suggests reducing the impacts of aluminum through recycling processes or using renewable energy sources in the manufacturing stage of micromobility vehicles.…”

Section: Life Cycle Assessment Applied To Micromobilitymentioning

confidence: 99%

“…Promisingly, the best-case scenario includes solar-powered e-mopeds and batteries swapped with the assistance of an electric van to achieve 20 gCO 2eq /p-km [57]. So, the study by Schelte et al [57] suggests reducing the impacts of aluminum through recycling processes or using renewable energy sources in the manufacturing stage of micromobility vehicles. Moreover, the typical operational services performed by vans might start to be replaced by electrical cargo bikes.…”

Section: Life Cycle Assessment Applied To Micromobilitymentioning

confidence: 99%

“…For those, more than 20% of the life cycle CO 2eq emissions are due to electricity production, based on the European mix of 2021, which may be mitigated if renewables replace fossil fuels [59]. Finally, Schelte et al [57] advise on the importance of considering other socio-economic sustainability factors such as road safety in further research.…”

Section: Life Cycle Assessment Applied To Micromobilitymentioning

confidence: 99%

“…From the LCT perspective, studies to perform can be life cycle assessment (LCA), life cycle costing (LCC), social LCA, and life cycle sustainability assessment (LSCA) [52]. Integrated programs that combine LCA tools with other methodologies have the potential to assist in the evaluation of the urban complexity, particularly larger-scale systems such as mobility-related ones [50][51][52]; • Current analysis of environmental indicators results from LCA must include skepticism, while all the proposals available in a sensitivity analysis of references [49,[53][54][55][56][57][58][59] result in emerging research opportunities to explore and re-evaluate, such as, for instance:…”

mentioning

confidence: 99%

“…Considering the effects of replacing steel and aluminum with other materials such as bamboo [55,56]; Recycling aluminum using renewable energy to power the process [57,59]; Replacing trips performed by vans with trips performed by cargo bikes to locally replace the batteries of electrical PMDs [57,58]; E-scooter providers and public transport should work on a joint and multimodal concept [53]; Quantifying more precisely the lifetime and PMD kilometers traveled to increase the accuracy of the LCA [53];…”

mentioning

confidence: 99%

See 4 more Smart Citations

A Literature Review of Emerging Research Needs for Micromobility—Integration through a Life Cycle Thinking Approach

Marques

Coelho

2022

Future Transportation

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Micromobility is an increasingly attractive option, particularly over short distances. Walking, biking, and other modes of transport, such as e-scooters, are gaining popularity. Furthermore, a trend is emerging to introduce appealing items onto the market that incorporate new/more sustainable materials to improve wellbeing. Significant research questions concern the understanding of emerging research needs and the environmental, social, and economic effects of sustainability in the micromobility transport system, specifically because of developing and implementing new products, boosting the safety and comfort of ergonomic personal mobility devices (PMDs), and assuring security and privacy while digitalization arises. Such research topics can raise policymakers’ and the public’s awareness while providing impactful information for decision-makers. This paper provides a literature review of the most recent research on micromobility-related topics. It uses scientific databases, a keywords list, and defined inclusion criteria to select data, analyze content, and perform a bibliometric analysis. The findings highlight the significance of using Life Cycle Assessment (LCA) tools together with other methodologies to aid in the evaluation of urban complexity. Finally, using a life cycle thinking (LCT) approach, we propose a framework for comprehensively integrating identified research needs.

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Section: Life Cycle Assessment Applied To Micromobilitymentioning

confidence: 99%

Section: Life Cycle Assessment Applied To Micromobilitymentioning

confidence: 99%

Section: Life Cycle Assessment Applied To Micromobilitymentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

See 3 more Smart Citations

A Literature Review of Emerging Research Needs for Micromobility—Integration through a Life Cycle Thinking Approach

Marques

Coelho

2022

Future Transportation

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Life cycle assessment of electric scooters for mobility services: A green mobility solutions

Ishaq

Nawaz

2022

Intl J of Energy Research

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Summary The gradual rise in global warming owing to fossil fuels usage is causing massive environmental problems and global temperature rise and countries are focusing on the negative emissions technologies (NETs) to restrict the average global temperature rise to 1.5°C by 2050. As Italy instigates its stable recovery from the coronavirus emergency, the Italian government is offering Italian people financial support of up to €500 to buy a personal bicycle or e‐scooter, to reduce dependence on private cars and global warming issues and people inItaly have greeted this opportunity for new personal e‐scooters. This paper aims to employ a life cycle assessment (LCA) on the personally owned electric scooters (PEOS) that are circulating in Turin. The results are reported for five impact categories: global warming potential (GWP), acidification potential, eutrophication potential, ozone layer depletion, and human toxicity potential. We found that the environmental load associated with the usage and charging of e‐scooters is less compared with the materials and manufacturing burdens of e‐scooters. Regarding the GWP, the results of Analysis methodology of the use of the PEOS generate 21 g of CO2‐eq. per passenger‐kilometer dominated by around 50% from materials processing, 17.5% from Li‐ion battery production, 1.6% from transportation, and 30.9% from usage and charging of e‐scooter. Four scenarios are compared with the base case situation, which are the substitution of alternate materials, use of 50% recycled aluminum, transportation of e‐scooters via plan, and charging with solar power. Results from these scenarios are proved to be highly sensitive to baseline scenarios. Results also revealed that PEOS has higher (21 g CO2 eq./km) environmental consequences on the global warming potential as compared to bicycles (8 g CO2 eq./km) and lower (21 g CO2 eq./km) environmental impacts as compared with electric bicycles (40 g CO2 eq./km) and battery electric vehicles (80 g CO2 eq./km).

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Converted and Shared Light Electric Vehicles in Ghana: A Technical and Economic Analysis Based on Converted ICE Motorbikes and e-mopeds

Adjei,

Sperling,

Atia-Abugbilla

et al. 2023

Lecture Notes in Mechanical Engineering

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This paper sets out to examine the economic and technical viability of LEVs in Ghana as a business model. It further examines the profitability of converted motorbikes which are adapted from ICE motorbikes. The business model is built on technical requirements of the ICE conversion in Ghana. The authors used a case study approach to analyze an exemplary business model based on 40 e-mopeds and 20 stand-alone solar charging stations deployed on the campus of KNUST until December 2021. A further analysis was also done on the process of converting an ICE motorbike to create a minimum viable product which runs on electricity. The business model examines the profitability of such converted motorbikes taking into account production and assembly costs whiles also considering fixed costs. The results of the analysis prove that a single e-moped deployed in the model was profitable after 6.3 years and a converted motorbike was profitable compared to a conventional motorbike between 22500 km to 32500 km of use depending on the purchase scenario. The discussion and results provide a good basis for further research and give support to sustainable business models and manufacturing of LEVs.

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Life Cycle Assessment on Electric Moped Scooter Sharing

Cited by 23 publications

References 36 publications

A Literature Review of Emerging Research Needs for Micromobility—Integration through a Life Cycle Thinking Approach

A Literature Review of Emerging Research Needs for Micromobility—Integration through a Life Cycle Thinking Approach

Life cycle assessment of electric scooters for mobility services: A green mobility solutions

Converted and Shared Light Electric Vehicles in Ghana: A Technical and Economic Analysis Based on Converted ICE Motorbikes and e-mopeds

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