This paper elucidates some of the main operational and safety requirements for a commercial Spaceport with special emphasis to potential suitable sites in the Italian territory. The identification of the potential sites will be based on several factors, of which the safety is the first one. After the identification of the site/s, specific approach will be applied to assess what is needed to certify that specific site as a Spaceport, for supporting manned suborbital parabolic flights for both professional applications, like crew training or microgravity experimentation, and space tourism. Space tourism, in particular, seems to be quite promising in the future, due to the specific geographic location and climate characteristics of Italy. An initial set of Spaceport services will be analysed too, aimed at the definition of a general functional model that can be applied to specific cases. Also, the approach to build up a regulatory framework to license a Spaceport and a Spaceplane in Italy will be evaluated, according to the national and EASA applicable regulation, with the purpose of setting up a national suborbital flights legal and regulatory framework, based upon the example of the FAA AST licensing system for Spaceports. This will aim at initially conducting experimental suborbital flights as a proving ground and, at the completion of this phase, more commercial activities could be planned, in the middle term, for executing Suborbital flights with paying participants and, in the long term, Commercial Suborbital Transportation. For simulation purposes, a preliminary feasibility study, executed for a private customer, will be considered, relevant to a manned VTOL Spaceplane, with four seats conceived to reach 100 km of altitude and experience a period of microgravity and an amazing view of the Earth. The mission profile simulations, developed for this Spaceplane, will be applied to the identified potential Italian Spaceport site and a preliminary feasibility study will be conducted to perform limited operations simulations of such a vehicle in the Italian territory. This will include spacecraft modelling, tracking, mission profile, ground track and debris fragmentation which is a paramount asset for a Spaceport, airspace utilization. Finally, technical feasibility of flying in the Italian territory an existing and more technically mature experimental vehicle will be considered, with special emphasis to horizontal take off and landing operations.

Advances in Italian Spaceports identification as Infrastructures for suborbital flight activities and mission profiles / Santoro, F.; Del Bianco, A.; Viola, Nicole; Fusaro, Roberta; Albino, V.; Binetti, M.; Moretti, F.. - ELETTRONICO. - (2016). (Intervento presentato al convegno 67th International Astronautical Congress 2016 - IAC 2016 tenutosi a Guadalajara (Mexico) nel 26-30 September 2016).

Advances in Italian Spaceports identification as Infrastructures for suborbital flight activities and mission profiles

VIOLA, Nicole;FUSARO, ROBERTA;
2016

Abstract

This paper elucidates some of the main operational and safety requirements for a commercial Spaceport with special emphasis to potential suitable sites in the Italian territory. The identification of the potential sites will be based on several factors, of which the safety is the first one. After the identification of the site/s, specific approach will be applied to assess what is needed to certify that specific site as a Spaceport, for supporting manned suborbital parabolic flights for both professional applications, like crew training or microgravity experimentation, and space tourism. Space tourism, in particular, seems to be quite promising in the future, due to the specific geographic location and climate characteristics of Italy. An initial set of Spaceport services will be analysed too, aimed at the definition of a general functional model that can be applied to specific cases. Also, the approach to build up a regulatory framework to license a Spaceport and a Spaceplane in Italy will be evaluated, according to the national and EASA applicable regulation, with the purpose of setting up a national suborbital flights legal and regulatory framework, based upon the example of the FAA AST licensing system for Spaceports. This will aim at initially conducting experimental suborbital flights as a proving ground and, at the completion of this phase, more commercial activities could be planned, in the middle term, for executing Suborbital flights with paying participants and, in the long term, Commercial Suborbital Transportation. For simulation purposes, a preliminary feasibility study, executed for a private customer, will be considered, relevant to a manned VTOL Spaceplane, with four seats conceived to reach 100 km of altitude and experience a period of microgravity and an amazing view of the Earth. The mission profile simulations, developed for this Spaceplane, will be applied to the identified potential Italian Spaceport site and a preliminary feasibility study will be conducted to perform limited operations simulations of such a vehicle in the Italian territory. This will include spacecraft modelling, tracking, mission profile, ground track and debris fragmentation which is a paramount asset for a Spaceport, airspace utilization. Finally, technical feasibility of flying in the Italian territory an existing and more technically mature experimental vehicle will be considered, with special emphasis to horizontal take off and landing operations.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2657574
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