this context, the Basque technology center Tekniker , a member of the Basque Research and Technology Alliance (BRTA), will be in charge of leading and developing the HORACE (Triboelectric Energy Harvesting for Mars Exploration) project . The initiative, which starts in January 2021, is funded by the European Space Agency (ESA ) and will have as its main objective to develop the first wind generator for Mars built and tested for use in future space missions. An international milestone that enhances the spatial technological capacity of both Euskadi in general and Tekniker in particular and contributes to the positioning of the Basque centers and the BRTA in the new space race. The project consists of taking advantage of the

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environment and environmental conditions of Mars to Argentina WhatsApp Number List convert wind energy into electrical energy and use it as an auxiliary energy source for the usual solar panels on expeditions to the Red Planet, when they do not produce energy due to Martian storms. Alternative to electromagnetic generators Specifically, Tekniker, which has extensive experience in space technology and in the design, development and manufacture of complex mechatronic systems, as well as great expertise in the areas of materials and tribology , will manufacture a triboelectric generator (TENG) demonstrator , an innovative technology that converts mechanical energy into electricity through the triboelectric effect and electrostatic induction. It is an alternative to the usual

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electromagnetic generators (EG), whose use in this type of planetary exploration is limited by its high weight, which entails high launch costs. “The peculiarity of the system is that its operation will be based on a triboelectric generator instead of the usual electromagnetic ones with the aim of reducing weight and costs”, explains Borja Pozo, researcher and coordinator of the space sector at Tekniker. “To create this demonstrator that can operate efficiently under the environmental conditions of Mars, advanced triboelectric materials will be developed that have a combination of excellent tribological (low friction and wear), mechanical (impact resistance), triboelectric (triboelectrification and conductivity) performance. interfacial) and power generation

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