Add to ORKGThis paper compares the manufacturing and refueling costs of a Fuel-Cell Vehicle (FCV) and a Battery Electric Vehicle (BEV) using an automobile model reflecting the largest segment of light-duty vehicles. We use results from widely-cited government studies to compare the manufacturing and refueling costs of a BEV and a FCV capable of delivering 135 horsepower and driving approximately 300 miles. Our results show that a BEV performs far more favorably in terms of cost, energy efficiency, weight, and volume. The differences are particularly dramatic when we assume that energy is derived from renewable resources
The Bush administrations Freedom Car initiative aims to establish the Fuel-Cell Vehicle (FCV) as a ...
This work presents a detailed breakdown of the energy conversion chains from intermittent electricit...
This study is dedicated to comparing the levelized operating costs of various types of power units a...
Low vehicle occupancy rates combined with record conventional vehicle sales justify the requirement ...
This paper compares battery electric vehicles (BEV) to hydrogen fuel cell electric vehicles (FCEV) a...
This paper compares the total cost of ownership (TCO) for fuel cell, battery electric, range extende...
This paper compares the total cost of ownership (TCO) for fuel cell, battery electric, range extende...
Thesis (S.M.)--Massachusetts Institute of Technology, Sloan School of Management, Technology and Pol...
Regulators, policy analysts, automobile manufacturers, environmental groups, and others are debating...
Plug-in fuel cell electric vehicles (PFCEVs) combine features of battery electric vehicles (BEVs) an...
This study is dedicated to comparing the levelized operating costs of various types of power units a...
Vehicles powered by fuel cells operate more efficiently, more quietly, and more cleanly than interna...
Light-duty vehicles contribute considerably to global greenhouse gas emissions. Fuel cell vehicles (...
This study evaluates eight-year ownership costs for battery electric vehicles (BEV) versus non-plugi...
This study evaluates eight-year ownership costs for battery electric vehicles (BEV) versus non-plugi...
The Bush administrations Freedom Car initiative aims to establish the Fuel-Cell Vehicle (FCV) as a ...
This work presents a detailed breakdown of the energy conversion chains from intermittent electricit...
This study is dedicated to comparing the levelized operating costs of various types of power units a...
Low vehicle occupancy rates combined with record conventional vehicle sales justify the requirement ...
This paper compares battery electric vehicles (BEV) to hydrogen fuel cell electric vehicles (FCEV) a...
This paper compares the total cost of ownership (TCO) for fuel cell, battery electric, range extende...
This paper compares the total cost of ownership (TCO) for fuel cell, battery electric, range extende...
Thesis (S.M.)--Massachusetts Institute of Technology, Sloan School of Management, Technology and Pol...
Regulators, policy analysts, automobile manufacturers, environmental groups, and others are debating...
Plug-in fuel cell electric vehicles (PFCEVs) combine features of battery electric vehicles (BEVs) an...
This study is dedicated to comparing the levelized operating costs of various types of power units a...
Vehicles powered by fuel cells operate more efficiently, more quietly, and more cleanly than interna...
Light-duty vehicles contribute considerably to global greenhouse gas emissions. Fuel cell vehicles (...
This study evaluates eight-year ownership costs for battery electric vehicles (BEV) versus non-plugi...
This study evaluates eight-year ownership costs for battery electric vehicles (BEV) versus non-plugi...
The Bush administrations Freedom Car initiative aims to establish the Fuel-Cell Vehicle (FCV) as a ...
This work presents a detailed breakdown of the energy conversion chains from intermittent electricit...
This study is dedicated to comparing the levelized operating costs of various types of power units a...