Elsevier,

Non-Destructive Testing and Condition Monitoring Techniques in Wind Energy, Volume , 1 January 2023

This chapter supports UN SDGs 7 and 13 by reviewing condition monitoring technologies and current research challenges and opportunities, enabling improved performance and durability of wind turbines, and supporting energy transition of which wind power is a key component.
Elsevier,

Wind Energy Engineering: A Handbook for Onshore and Offshore Wind Turbines, Volume , 1 January 2023

This chapter supports UN SDGs 7 and 13 by studying the impact of climate change on offshore wind operation, which is a key renewable energy source that will continue to grow as part of the energy transition and climate action.
This chapter advances UN SDG goal 7 as it enables improved energy forecasting, which is a critical technology for distributed generation and renewable energy integration.
In this paper the authors investigate the effects of climate changed and hydroclimatic extremes on hydropower production in India
Elsevier,

Renewable Energy - Volume 2: Wave, Geothermal, and Bioenergy Definitions, Developments, Applications, Case Studies, and Modelling and Simulation, Volume , 1 January 2023

This chapter aligns with SDGs 7 and 11, by describing the role and possibilities of wave energy to help support global (sustainable) energy systems.
A technology that has shown promising potential in supporting food and energy security, as well as supporting water security, is agrivoltaic (AV) systems.
An investigation into a new integrated model for pricing and financing a sustainable supply chain that can reduce manufacturing costs and thus encourage better participation by producers in green projects.
In this paper the authors discuss the geothermal potential of sedimentary basins, and their role in achieving the decarbonisation of the energy sector
This article supports SDGs 7,9 and 11 by proposing that the real-time online analysis, data integration, and prediction of future status, monitoring, decision-making, and self-healing of the power grid can be achieved, providing high security, reducing the risk of power grid accidents, and serving multiple fields of producers, consumers, and the entire country.
In this article, the authors used an Energy Transition Index to characterize the city-level energy transitions from energy system performance and transition readiness dimensions for 282 cities in China. They estimate that China’s energy and carbon intensity could decrease by 34% and 32%, respectively, and that carbon per capita could fall by 17% if each city modestly follows the sustainable development path forged by the best performing cities with similar economic structures.

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