Analysis and Prospect of Hybrid Wind-PV-ESS System under the Background of Carbon Peaking and Carbon Neutrality-Reference-Cited by-同舟云学术

Analysis and Prospect of Hybrid Wind-PV-ESS System under the Background of Carbon Peaking and Carbon Neutrality

Published:2023-04-14 Issue: Volume:43 Page:84-97
ISSN:2791-0210
Container-title:Highlights in Science, Engineering and Technology
language:
Short-container-title:HSET

Author:

Zhu Yuan

Abstract

With the large-scale use of fossil energy, the issue of rising temperatures caused by global warming is getting worse as time goes on, and various countries have successively launched the “carbon peaking and carbon neutrality goal” (double carbon goal). As a major country, China has a great challenge to achieve the double carbon goal, so the status of new energy is even more important. While wind energy and light energy occupy an important position in new energy sources, optimizing their utilization is a top priority. This paper includes the following sections: the fundamentals of wind power generating and some optimization of blade technology, the basic idea behind how photovoltaic cells produce electricity and the characteristics and comparison of several photovoltaic cells, a simple classification of MPPT technology, common energy storage technologies: flywheel, super capacitor, principle of hydrogen battery, Optimization of wind-solar storage combined debugging technology, etc.

Publisher

Darcy & Roy Press Co. Ltd.

Reference25 articles.

1. Li Y, Wang H, Wang Y, et al. 2021 Background and routs of carbon neutrality and its nature-derived thermal solutions J. Integrated Intelligent Energy. 43 (11): 5 - 14.

2. Lu C. 2021 Opening a New Era of Major Changes in China's Energy System and Innovative Development of clean and renewable energy-deeply understanding the great historical significance of the Targets of Carbon Peak and Carbon Neutralization [J]. Renming Luntan·Xueshu Qianyan, 2021 (14): 28 - 41.

3. Li J. 2021 Research on optimal design and application of fan blades based on efficiency improvement J. The Journal of New Industrialization. 11 (7): 165 - 166, 168.

4. Yan D, Liu Y, Wan Y, et al. 2021 Effect and impact of crystalline silicon solar energy in the “double carbon" economy J. China Nonferrous Metallurgy. 50 (5): 1 - 6.

5. China Photovoltaic Society. 2020 Report on 2020 China PV technology development−Research progress of crystalline silicon solar cells J. Solar Energy. (10): 5 - 12.