A Ready-to-Fly Deorbit Device Based on Electrodynamic Tether Technologybroad
E.T.PACK-F · Horizon Europe grant · 2022-09-01–2025-12-31
EC contribution
Total cost
Beneficiaries
About the data
Source: CORDIS (official EU open data), Horizon Europe. Framework HORIZON · call HORIZON-EIC-2021-TRANSITIONOPEN-01 · scheme HORIZON-EIC · topic HORIZON-EIC-2021-TRANSITIONOPEN-01. CORDIS record →
Objective
Electrodynamic tethers are long conductors in orbit that enable spacecraft to de-orbit and/or re-boost without using propellant. After designing, manufacturing and testing a prototype of a Deorbit Device (DD) in the FET E.T.PACK project and reach TRL 4, E.T.PACK-F faces the next natural step: prepare a ready-to-fly DD based on electrodynamic tether technology to perform, immediately after the project, an in-orbit-demonstration (IOD). The two large companies of the team (SENER Aeroespacial and RFA), playing the roles of DD product developer and end-user, signed a Launch Service Agreement for this first flight. The DD involves several tether-related products that have, by their own, a high innovative and commercialization potential and are mainly owned/generated by the three universities of the team (UC3M, UNIPD, TUD). These products are a software for tether mission analysis, a heater-less electron emitter for electric propulsion applications, a cold gas system, miniaturized avionics, and onboard software for the attitude determination and control of small spacecraft, and a deployment mechanism and damper for tether applications. In parallel with technology development activities, a business model for E.T.PACK-F technologies and consortium structures for their later commercialization (a Joint Venture, startup, and /or technology licensing) will be created. Contact with potential clients, investors, and policy-makers, will be established to validate the business model and prepare the products for the future needs of the market. This entrepreneurial ecosystem, made of interlinked space products, strong industry-academia collaboration, and an end user, is driven by the IOD, which can place all the products in a precommercial state. Tethers can help Europe to create/strengthen new markets on space debris deorbiting and in-orbit servicing, disrupt the existing markets on spacecraft re-boost and station keeping, and open new opportunities for planetary explorations.
Beneficiaries (6)
| Organisation | Country | Role | EC contribution | SME |
|---|---|---|---|---|
| UNIVERSIDAD CARLOS III DE MADRID | ES | coordinator | €636,848 | |
| SENER AEROESPACIAL SOCIEDAD ANONIMA | ES | participant | €947,850 | |
| TECHNISCHE UNIVERSITAET DRESDEN | DE | participant | €475,020 | |
| UNIVERSITA DEGLI STUDI DI PADOVA | IT | participant | €294,795 | |
| ROCKET FACTORY AUGSBURG AG DFM profile | DE | participant | €145,000 | |
| PERSEI SPACE SL | ES | thirdParty | €0 | Yes |
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