Energy Utilization in Transportation Electrification

As electric vehicles and electrified transportation networks are under explosive development worldwide, the UAE transportation and power network are facing both challenges and opportunities for tremendous changes. The integration of electric vehicle infrastructures into power networks in the UAE requires a roadmap that includes the establishment of a regulatory framework, feasibility study, development of public-private partnerships, upgrade of power grid infrastructure, introduction of time-of-use tariffs, promotion of renewable energy, ensuring interoperability, and monitoring and evaluation. By integrating electric vehicle infrastructures into the power networks, the UAE can reduce its dependence on fossil fuels, improve air quality, and promote sustainable transportation. Therefore, there are significant opportunities for EV adoption in UAE, such as the government's incentives and the country's favorable weather conditions for EVs. Additionally, the UAE has vast potential for solar energy, which can be utilized to power EVs and its associated infrastructure that include massive deployment and distributed battery energy storage systems. However, the main challenge is need to coordinate large number of EVs/Charging Station and secure the stable and economical operation of the smart grid. On the other side, hybrid EV charging stations can improve the power flexibility by enabling the integration of renewable energy sources and energy storage systems. Consequently, it enhances resilience of power grid by providing backup power during power outages and emergency situations. Also, the distributed energy storage elements can store excess energy generated by renewable sources and use it to provide power to the EV charging stations during periods of low supply or high demand.


Fig. Technologies, key benefits and challenges of Electric Vehicle (EV) charging station.


In addition, the EVs/Charging stations can play a vital role on load management. For example, Vehicle-to-grid (V2G) services by discharging power back into the grid during periods of high demand or low supply. This can help balance the load and supply of electricity, reduce the need for expensive peaking power plants, and increase the use of renewable energy. APEC group developed several projects that contribute significantly to the Micro-grid Networks with Renewable Energy IntegrationElectrified Transportation Networks Smart Charging Stations Increased Power FlexibilityImproved Power Quality and ReliabilityEnhanced Coupling Between Power and Transportation Networks Reduced Greenhouse Gas EmissionsImproved Energy SecuirityImprovement of Transportation and Power Nexus under Smart Charging Stations Improved Load ManagmentIncreased EfficiencyRenewable IntegrationEnergy StorageData CollectionKey Benefits and Features of Hybrid Microgrids of Charging StationsEnhanced ResilienceV2G & Grid Support IoTIntegrated REN and ESSBidirectional Charge Including Wireless/Fast/Superfast TechnologiesV2GAIBlockchainAdvanced Technologies for AC/DC Hybrid Charging Stations in the Nexus Load managementEnergy storage(Batteries, Capacitors)Integration of renewable energy sourcesIntegration of renewable energy sourcesKey Facilities in Charging Stations to Support the Interlinks Bidirectional power converters energy transition considering transportation electrification powered from renewables dominated power system.

P1: Energy Storage System Facilities for Electric Power and Electrified Transportation Systems

P2: Center of technologies for the design and operation of 100% Renewable Power Systems

P3: Electric Vehicles Charging Infrastructure and Protocols

P5: Efficient Power Train for high power vehicles (SUVS, Buses and Trucks)

P6: Efficient Bidirectional Wireless Charging

P7: Ferrite Based High-Speed Coreless Permanent Magnet Motor for Traction Application

Energy utilization takes various forms, including electrical, mechanical, thermal, and more. Khalifa University's research teams concentrate on advancing technologies, control strategies, and policies to enhance the efficient utilization of energy across different sectors. Several research projects exemplify this commitment to optimizing energy use.

Key Points:

Diverse Forms of Energy Utilization

  • Encompasses electrical, mechanical, thermal, and other means.

University Focus on Advancements

  • Khalifa University's research teams prioritize developing advanced technologies.
  • Emphasis on control strategies and policies for efficient energy utilization.

Research Project Examples:

  • Numerous projects demonstrate the commitment to improving energy efficiency.
  • Projects span various sectors to address diverse energy utilization challenges.


Hydrogen utilization

Work at RICH

Sustainable fuels

  • from captured Co2 and Hydrogen (this slide is proposed for the new webpage of the RICH Center)
  • Fuel cells for hydrogen power generation
  • Ammonia as a carbon-less fuel
  • Upgrading of bio-oil and diesel
  • Hydrogen for heavy transportation
  • Techno-economic assessment of all technologies

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