The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
Realizing Sustainable Energy Quantum Computing Applications in Power Grids
|
|
Author(s): C. Sushama (Mohan Babu University, India), Sonal Jain (KIIT University, India), Soma Parija (KIIT University, India)and S. Aslam (Chaitanya Bharathi Institute of Technology (Autonomous), India)
Copyright: 2024
Pages: 18
Source title:
Real-World Challenges in Quantum Electronics and Machine Computing
Source Author(s)/Editor(s): Christo Ananth (Samarkand State University, Uzbekistan), T. Ananth Kumar (IFET College of Engineering, India)and Osamah Ibrahim Khalaf (Al-Nahrain University, Iraq)
DOI: 10.4018/979-8-3693-4001-1.ch021
Purchase
|
Abstract
Climate change and the desire to cut carbon emissions have increased demand for renewable energy. Quantum computing's revolutionary potential and unmatched processing capability could benefit capacity grids and other businesses. This research examines how quantum computing could improve power network efficiency to achieve sustainable energy goals. Quantum computing can solve complex power grid optimization problems. Current conventional approaches to power grid improvement have limits, but quantum computing can assist overcome them. Power grid optimization incorporates quantum methods like Grover's algorithm and the quantum approximate optimization algorithm. Quantum-resistant cryptographic techniques and quantum key distribution could secure power grid communication and data transfer. Given that quantum computing is still developing, the research examines the present obstacles to implementing quantum power grid solutions. Finally, quantum computing could improve power grid operations, security, and renewable energy consumption, helping accomplish sustainable energy goals.
Related Content
|
Humera Shaziya, Saif Ali Alsaidi.
© 2026.
30 pages.
|
|
Nizirwan Anwar, Titik Khawa Abdul Rahman, Husna Sarirah Husin.
© 2026.
26 pages.
|
|
S. Anand.
© 2026.
34 pages.
|
|
Rajeev Kumar, Meetu Malhotra, C. Kishor Kumar Reddy.
© 2026.
36 pages.
|
|
M. Srivarshini, R. Vanithamani.
© 2026.
36 pages.
|
|
Shashank Solanki, Rituraj Sinha.
© 2026.
26 pages.
|
|
Ushaa Eswaran, Vishal Eswaran.
© 2026.
40 pages.
|
|
|