Search Result "Renewable energy."
Research Challenges in Renewable Energy Sources
Ebook: Intelligent Technologies for Research and Engineering
Volume: 2 Year: 2024
Author(s): M. C. Madhu,N. A. Prashanth
Doi: 10.2174/9789815165586124020029
Computing Technologies for Renewable Energy Sources Integration
Ebook: Image Processing in Renewable Energy Resources: Opportunities and Challenges
Volume: 1 Year: 2022
Author(s): Alpesh M. Patel,Sunil Kumar Singal
Doi: 10.2174/9789815036992122010005
Prospects for Photobiological Hydrogen as a Renewable Energy
Journal: Current Biotechnology
Volume: 5 Issue: 3 Year: 2016 Page: 173-191
Author(s): Ian L. Ross,Melanie Oey,Evan Stephens,Ben Hankamer
An Empirical Analysis of Renewable Energy Grid Connected Supply: AReview
Journal: Current Materials Science
Volume: 17 Issue: 0 Year: 2024 Page: 1-10
Author(s): Shyamal Kumar Kundu,Md. Shahrukh Khan
A Perspective in Renewable Energy Production from Biomass Pyrolysis - Challenges and Prospects
Journal: Current Organic Chemistry
Volume: 19 Issue: 5 Year: 2015 Page: 423-436
Author(s): Yeek-Chia Ho, Kuan-Yeow Show
Using Renewable Electricity, Energy Storage, and Renewable Fuel to Produce Carbon-Neutral Process Heat and Power
Ebook: Global Emerging Innovation Summit (GEIS-2021)
Volume: 1 Year: 2021
Author(s): Frank Bruno,Shane Sheoran,Martin Belusko,Rhys Jacob
Doi: 10.2174/9781681089010121010061
Measurement Systems for Renewable Energy
Ebook: Recent Advances in Renewable Energy
Volume: 3 Year: 2018
Author(s): A. A. Nikoglou,P. K. Rouni,E. P. Hinis
Doi: 10.2174/9781681087191118030010
Renewable Energy via Photocatalysis
Journal: Current Organic Chemistry
Volume: 17 Issue: 21 Year: 2013 Page: 2538-2558
Author(s): Ravikrishnan Vinu,Giridhar Madras
Densification and Pyrolysis of Lignocellulosic Biomass for Renewable Energy
Journal: Current Organic Chemistry
Volume: 20 Issue: 23 Year: 2016 Page: 2480-2488
Author(s): Hui Wang,Bo Zhang,Shuangning Xiu,Rui Li,Jian Shi
Non-renewable Resources and Environmental Sustainability
Ebook: Technology for a Sustainable Environment
Volume: 1 Year: 2023
Author(s):
Doi: 10.2174/9789815124033123010004