Impact of Increased Tire Pressure on Fuel Consumption and Environment for Fuel-Cell-Assisted Shared Bicycles

Hosobuchi, Emi; Misaki, Chiharu; Katayama, Noboru; Dowaki, Kiyoshi

doi:10.3775/jie.100.116

J. Jpn. Inst. Energy

2021

DOI: 10.3775/jie.100.116

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Impact of Increased Tire Pressure on Fuel Consumption and Environment for Fuel-Cell-Assisted Shared Bicycles

Emi Hosobuchi

Chiharu Misaki

Noboru Katayama

et al.

Abstract: This study evaluated the use of a fuel-cell-assisted bicycle (H-bike) in bicycle sharing. Two pertinent issues arise. First, the number of start-stops and distance traveled lead to power consumption levels so high that they exceed those of households. Second, the H-bikes are 3 kg heavier than conventional bicycles. Reduction in rolling resistance due to increased tire pressures may afford a solution to these problems. The purpose of this study was to investigate whether increasing the tire pressure can reduce … Show more

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Dynamic LCA of fuel cell-assisted bike in consideration of Pt catalyst degradation in various operating conditions

Nagado,

Sakai,

Ezawa

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

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Fuel cell (FC) systems have recently become increasingly popular in large applications, such as FC vehicles and stationary FC power systems for residences. The use of FC systems in smaller applications, such as electrically power-assisted bicycles and drones, is expected to expand. FC systems exert a low environmental impact during operation. However, in the future, the environmental impact during the manufacturing phase ought to be additionally considered. There is a concern that the sale of products may be restricted, if they fail to meet legal standards, such as the life cycle assessment (LCA) regulations in the EU countries. For instance, in TC 105 of the International Electrotechnical Commission (IEC), the technical specification of LCA methodology for a stationary FC co-generation system was issued. This study evaluates the abiotic depletion potential (ADP) in the manufacturing phase and global warming potential (GWP). As the platinum (Pt) catalyst of FC significantly impacts the environment, more than lithium and cobalt, used in conventional lithium-ion batteries, each FC application ought to be designed considering all life cycle stages, while optimizing performance product life. As a promising example, we analyzed the performance drop caused by Pt degradation during the use phase of the assisted bicycle. Moreover, the dynamic performance of the FC-assisted bikes with an FC device and the supplemental power source of a Li-ion battery were evaluated under various operating conditions.

show abstract

Dynamic LCA of fuel cell-assisted bike in consideration of Pt catalyst degradation in various operating conditions

Nagado,

Sakai,

Ezawa

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

show abstract

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Impact of Increased Tire Pressure on Fuel Consumption and Environment for Fuel-Cell-Assisted Shared Bicycles

Cited by 1 publication

References 8 publications

Dynamic LCA of fuel cell-assisted bike in consideration of Pt catalyst degradation in various operating conditions

Dynamic LCA of fuel cell-assisted bike in consideration of Pt catalyst degradation in various operating conditions

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