Mehedi Hasan scite author profile

Purpose: Lithium-ion batteries that are commonly used in electric vehicles and plug-in electric hybrid vehicles cannot be simply discarded at the end of vehicle application due to the materials of which they are composed. In addition the US Department of Energy has estimated that the cost per kWh of new lithium-ion batteries for vehicle applications is four times too high, creating an economic barrier to the widespread commercialization of plug-in electric vehicles. (USDOE, 2014). Thus, reducing this cost by extending the application life of these batteries appears to be necessary. Even with an extension of application life, all batteries will eventually fail to hold a charge and thus become unusable. Thus environmentally safe disposition must be accomplished. Addressing these cost and environmental issues can be accomplished by remanufacturing end of vehicle life lithium ion batteries for return to vehicle applications as well as repurposing them for stationary applications such as energy storage systems supporting the electric grid. In addition, environmental safe, "green" disposal processes are required that include disassembly of batteries into component materials for recycling. The hypotheses that end of vehicle application remanufacturing, repurposing, and recycling are each economic are examined. This assessment includes a forecast of the number of such batteries to ensure sufficient volume for conducting these activities.

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Design of a Scalable Low-Power 1-Bit Hybrid Full Adder for Fast Computation

Hasan

Hossein

Hossain

et al. 2020

IEEE Trans. Circuits Syst. II

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Smart parking systems: comprehensive review based on various aspects

Fahim

Hasan

Chowdhury

2021

Heliyon

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Parking allocation has become a major problem in modern cities for which numerous smart parking systems (SPS) have been developed. This paper aims to provide comprehensive study, comparison and extensive analysis of SPSs in terms of technological approach, sensors utilized, networking technologies, user interface, computational approaches, and service provided. Moreover, the paper fills up the research gap by providing a clear insight into the suitability of SPSs in various environmental conditions and highlights their advantages/disadvantages. The extensive comparison among multiple aspects of SPSs would enable researchers, designers, and policymakers to identify the best suited SPS and understand the current trends in this sector.

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Smart Home Systems: Overview and Comparative Analysis

Hasan

Biswas

Bilash

et al. 2018

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Gate Diffusion Input technique based full swing and scalable 1-bit hybrid Full Adder for high performance applications

Hasan

Zaman

Hossain

et al. 2020

Engineering Science and Technology, an International Journal

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Bioelectricity: a new approach to provide the electrical power from vegetative and fruits at off-grid region

et al. 2018

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A Novel Hybrid Full Adder Based on Gate Diffusion Input Technique, Transmission Gate and Static CMOS Logic

Hasan

Saha

Sorwar

et al. 2019

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A high-speed 4-bit Carry Look-Ahead architecture as a building block for wide word-length Carry-Select Adder

Hasan

Hossain

Siddique

et al. 2021

Microelectronics Journal

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Mehedi Hasan

Feasibility assessment of remanufacturing, repurposing, and recycling of end of vehicle application lithium-ion batteries

Design of a Scalable Low-Power 1-Bit Hybrid Full Adder for Fast Computation

Smart parking systems: comprehensive review based on various aspects

Smart Home Systems: Overview and Comparative Analysis

Gate Diffusion Input technique based full swing and scalable 1-bit hybrid Full Adder for high performance applications

Bioelectricity: a new approach to provide the electrical power from vegetative and fruits at off-grid region

A Novel Hybrid Full Adder Based on Gate Diffusion Input Technique, Transmission Gate and Static CMOS Logic

A high-speed 4-bit Carry Look-Ahead architecture as a building block for wide word-length Carry-Select Adder

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