- Africa is today one of the most populous, economically underdeveloped and resource-poor continents in the world. Of the hundreds of millions of African people, more than half do not have access to electricity. Faced with this situation, African governments and the international community have begun efforts to promote photovoltaic electricity and the use of solar energy as a solution to Africa's energy problems.
- With the fast improvement of electric vehicles (EVs), the interest for EV charging foundation has been developing dramatically. EV charging heaps, otherwise called EV chargers or EV charging stations, assume a significant part in empowering the boundless reception of EVs by giving helpful and solid charging choices for EV proprietors.
- Compact Electric Vehicle (EV) charging alludes to the capacity to charge electric vehicles in a hurry, without being limited to fixed charging stations. This development tends to the test of restricted charging framework and gives adaptability to EV proprietors, permitting them to re-energize their vehicles any place they are. One fundamental part of versatile EV charging arrangements is the Type 2 Portable EV Charger, which assumes a critical part in working with helpful and productive charging.
- Using Photovoltaics To Produce Drinkable Water From Air Humidity We Call It Solar2Water: news-746-442 On 20 September 2021, scientists at Northumbria University in the UK have successfully developed a new photovoltaic product called Solar2Water. The product extracts water from air humidity to produce drinkable water by using photovoltaic power generation technology. Compared to conventional atmospheric water generators, the Solar2Water can produce twice as much water as conventional water generators and can operate efficiently with the same energy input regardless of air humidity. The Solar2Water system's development team overcame the limitations of conventional atmospheric water generators, making the system extremely practical and adaptable. solar2Water runs entirely on solar energy and includes two solar panels and a battery for continuous operation. The system is designed to be user-friendly and has a robust construction that allows it to be used in any environment without the need for special training. Muhammad Wakil Shahzad, a professor at Northumbria University, successfully developed the Solar2Water pilot system after receiving seed funding from the university and proof-of-concept funding from the Northern Accelerator. Everyday The system is currently capable of producing 15 to 20 litres of drinking water ，The goal of the R&D team is to expand the water production capacity to 50 litres per day to meet the drinking water needs of small communities. The successful development of Solar2Water will have far-reaching implications for the future. First of all, Solar2Water has a huge potential to solve the global drinking water problem. In many areas, the lack of water resources makes it difficult for people to drink water. Solar2Water can extract water from the air using light energy and provide a reliable and sustainable drinking water solution for these areas. Secondly, with the depletion of natural resources worldwide, the development of clean and renewable energy sources has become particularly important and Solar2Water's photovoltaic technology can provide sustainable energy for the operation of the system, significantly reducing reliance on traditional energy sources and further promoting the use of renewable energy. In terms of areas of use, Solar2Water can be used in a wide range of applications where drinking water is required. In addition to being used in areas where water is severely scarce, the Solar2Water can also play an important role in safaris, camping and emergency rescue situations. Its user-friendly design and robust construction make the Solar2Water easy to carry and handle in outdoor environments, providing a convenient and safe drinking water solution for outdoor activities. In conclusion, Solar2Water has a promising future and practicality as an emerging photovoltaic product that generates drinkable water from air humidity through the use of photovoltaic power generation technology. It has great potential to solve global drinking water problems and promote sustainable development. In the future, we have reasons to believe that Solar2Water will provide more clean and sustainable drinking water solutions to the world and make a positive contribution to the sustainable development of the world.