Embodied Energy Analysis of Solar Powered Vehicle
By: Shakya, Ravindra.
Contributor(s): Saxena, Gaurav.
Publisher: Ghaziabad MAT Journals 2021Edition: Vol.6(2), May-Aug.Description: 20-27p.Subject(s): Mechanical EngineeringOnline resources: Click here to access online In: Journal of thermal energy systemsSummary: Supervene in the evolution of technology that utilizes unconventional energy innovation, previous to, the use of solar energy as the reserve energy source of onboard fuel has not been exhaustively examined in the expression of embodied energy analysis i.e. by understudy all considerations on energy analysis, this embodied energy analysis method is one method which can be utilized/reach down, to the assessment of the environmental impact of different embodied element or system. The increase in energy harnessed, the greater the effect on the environment. The main purpose of this discourse is to understand the annual performance of Environmental analysis such as embodied energy, energy payback time (EPBT), CO2 emission, CO2 mitigation, and earned carbon credit for a hybrid/solar-powered vehicle.Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
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Articles Abstract Database | School of Engineering & Technology Archieval Section | Not for loan | 2023-0570 |
Supervene in the evolution of technology that utilizes unconventional energy innovation, previous to, the use of solar energy as the reserve energy source of onboard fuel has not been exhaustively examined in the expression of embodied energy analysis i.e. by understudy all considerations on energy analysis, this embodied energy analysis method is one method which can be utilized/reach down, to the assessment of the environmental impact of different embodied element or system. The increase in energy harnessed, the greater the effect on the environment. The main purpose of this discourse is to understand the annual performance of Environmental analysis such as embodied energy, energy payback time (EPBT), CO2 emission, CO2 mitigation, and earned carbon credit for a hybrid/solar-powered vehicle.
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