Climate change is currently affecting most of the cities across the globe in the past years with its climate severe events manifested in the year 2019. This objective of this paper is to focus on the strategic renewable energy and climate action plans of two seaside cities in Egypt to strengthen clean energy capacity and implementation based on each city’s strategy in 2030. Diagnostic studies were carried out to identify the gap in each city in terms of climate change and renewable energy. Prior to providing a detailed account of the concrete measures undertaken to reduce greenhouse gas (GHG) emissions and promote the development of sustainable energy, the national and regional strategies on climate change adaptation and renewable energy capacity and future needs were assessed to draw the gap at the local government level. Climate change risks by sectors in terms of vulnerability have been assessed and presented. The adaptation scoreboard of the Adaptation Cycle-Specific Steps (ACSS) for each city, based on the European Commission Joint Research Centre (EC-JRC) guidelines, including six steps has also been utilised to assess the climate actions in the city. In addition, risk assessment and vulnerability analysis were conducted using a set of parameters and interviews with local government officials. In order to conduct the risk assessment and vulnerability analysis on the city, as a first step, the climate hazard types were identified. Both Hurghada and Luxor were selected to assess the impact of each climate hazard type, where a series of vulnerable and impacted sectors, such as population (public health), infrastructure (transport, energy, water, and social), and the built environment (building stock and materials), as well as economy (tourist and agriculture) and biodiversity (coastal zone ecosystems and green zones) were diagnosed and assessed. The vulnerability analysis, which is based on the Future Cities Adaptation Compass Tool, Governors’ (Mayors) Adapt, and the European Climate Adaptation Platform, is carried out and presented. The results of the adopted climate adaptation actions in the city of Hurghada and the city of Luxor, including impacted sectors, are presented and discussed. Finally, the renewable energy action of upgrading the solar photovoltaic (PV) capacity in both the cities from 13 MW to 35 MW is also assessed and highlighted.
