By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
A solar fan is a device that uses the power of the sun to generate cooling and ventilation. It is a type of renewable energy technology, as it converts the sun’s natural energy into usable electricity.
The energy is then used to power a fan, which generates air circulation and cooling. Solar fans are becoming increasingly popular as an energy-efficient way to cool and ventilate indoor and outdoor spaces.
The main advantage of a solar fan is that it is powered by the sun, eliminating the need for expensive and potentially hazardous electricity.
Solar fans are also easy to install, as they require no complex wiring or plumbing. Additionally, they are low maintenance and don’t require regular maintenance checks or replacement parts.
Solar fans come in a variety of designs and configurations. Some are designed to mount on the roof of a building, while others are designed to be mounted on a wall or window.
Some solar fans are designed to be used outdoors, while others are designed for indoor applications. In addition, some solar fans are designed to be used in conjunction with existing HVAC systems, while others are designed to run independently.
Solar fans are an eco-friendly alternative to traditional air conditioning and ventilation systems. They are energy-efficient, cost-effective, and easy to install. They are also a great way to reduce your energy costs and help reduce your carbon footprint.
The Global Solar fan market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Two solar-powered irrigation systems were introduced by the UN Food and Agriculture Organisation (FAO). By providing water for irrigation in the livestock corridor districts, the initiatives contribute to efforts to increase the resilience of rural populations and agricultural production systems.
The region has historically experienced water scarcity, particularly during periods of drought, which has an impact on both private and public agricultural operations.
By providing water for irrigation, especially in areas susceptible to drought and climate variability, the system aims to increase the resilience of rural people and agricultural production systems while also enhancing the capacity of communities and farmers to adapt to climate change.
The first large-scale solar mini-grid irrigation systems in Africa will be developed as part of the Distributed Renewable Energy – Agriculture Modalities (DREAM) initiative, giving farmers access to dependable, reasonably priced, and environmentally friendly irrigation. Nine mini-grids powered by renewable energy and irrigation equipment will be installed throughout Ethiopia to kick off the project.
They are excited to announce the introduction of the DREAM initiative, which will assist with the installation of solar mini-grids that will supply farmers and nearby communities with dependable and reasonably priced electricity for irrigation.
The Ministry’s National Irrigation Strategy (NIS) calls for expanding commercially viable, environmentally friendly, climate resilient, and technologically advanced irrigation schemes as well as implementing integrated development to achieve national food security and food sovereignty through the use of Distributed Renewable Energy (DRE).
The DREAM project, which uses solar mini-grids for renewable energy, is one of the initiatives that will help promote the use of contemporary irrigation techniques because the country has a low level of irrigated farmland.
The MoA is dedicated to supporting the successful execution of this pilot project, including its scale-up phase in the future, in accordance with its mandates to work with line ministries and other partners to improve agricultural transformation and thereby contribute to the realisation of vision to have a transformed agriculture. The DREAM project has officially begun, marking the beginning of a long journey connecting irrigated farmland and off-grid renewable energy.
