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| 1 |
ID:
192705
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| Summary/Abstract |
The environmental impact of the transport sector has a significant contribution in the carbon emissions. To reduce fossil fuel consumption and promote clean fuel, many countries are considering hydrogen as an alternative fuel and a bridge to sustainable development and achieve net zero target. Indian government has taken multiple policy initiatives to promote hydrogen fuel adoption in India. But nevertheless, the major presence of the multiple barriers limits the mass adoption of hydrogen as a preferred fuel. Therefore, identification and assessment of the key internal and external barriers of the hydrogen fuel vehicles adoption is required to mitigate the climate change issues. This study has identified and analyzed the barriers. The criticality assessment of the barriers is done by fuzzy based hybrid approach analytic hierarchy process. Later, sensitivity experiments are conducted to verify the robustness of the model. The findings of the study show that technical barriers are most critical barriers in the adoption of hydrogen fuel vehicles in India. The result of the study also indicates that India would require to build the hydrogen supply network and infrastructure, improve consumer awareness, favourable policies and develop efficient production technology for the mass adoption of hydrogen as a fuel.
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| 2 |
ID:
105749
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| Publication |
2011.
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| Summary/Abstract |
In order to cope with climate change, the development and deployment of Hydrogen Fuel Cell Vehicles (HFCVs) is becoming more important. In this study, we developed a forecasting model for HFCVs based on the generalized Bass diffusion model and a simulation model using system dynamics. Through the developed model, we could forecast that the saturation of HFCVs in Korea can be moved up 12 years compared with the US. A sensitivity analysis on external variables such as price reduction rates of HFCVs and number of hydrogen refueling stations is also conducted. The results of this study can give insights on the effects of external variables on the market penetration of HFCVs, and the developed model can also be applied to other studies in analyzing the diffusion effects of HFCVs.
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| 3 |
ID:
128718
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