Conceptual Study of Technologies Enabling Novel Green Expendable Upper Stages with Multi-Payload/Multi-Orbit Injection Capability

Paper number

IAC-21,D2,3,12,x64276

Author

Ms. Lily Blondel-Canepari, Italy, Università di Pisa (Unipi)

Coauthor

Mr. Iñigo Alforja Ruiz, Italy, Politecnico di Milano

Coauthor

Ms. Lucía Ayala Fernández, Germany, Technische Universität Braunschweig

Coauthor

Mr. Riccardo Gelain, Belgium, Université Libre de Bruxelles

Coauthor

Mr. Christopher Glaser, France, ONERA - The French Aerospace Lab

Coauthor

Ms. Livia Ordonez Valles, Germany, Hochschule Bremen

Coauthor

Mr. Alberto Sarritzu, Italy, University of Pisa

Coauthor

Dr. Jerome Anthoine, France, ONERA

Coauthor

Prof. Uwe Apel, Germany, Hochschule Bremen

Coauthor

Prof. Patrick Hendrick, Belgium, Université Libre de Bruxelles

Coauthor

Dr. Jouke Hijlkema, France, ONERA - The French Aerospace Lab

Coauthor

Prof. Michèle Lavagna, Italy, Politecnico di Milano

Coauthor

Prof. Enrico Stoll, Germany, TU Braunschweig, Institute of Space Systems

Coauthor

Prof. Martin Tajmar, Germany, TU Dresden

Coauthor

Prof. Angelo Pasini, Italy, University of Pisa

Year

2021

Abstract

The growing demand for cheaper space access calls for a more economically and environmentally sustainable approach for launchers. Concurrently, the shift to smaller satellites and the rise of constellations necessitate launchers capable of precise multi-payload/multi-orbit injection. ASCenSIon (Advancing Space Access Capabilities - Reusability and Multiple Satellite Injection), a Marie Sk\l{}odowska-Curie Innovative Training Network funded by H2020, aims to respond to these demands. This paper describes the activities explored within ASCenSIon dedicated to developing novel green upper stages with multi-payload/multi-orbit injection capability. The aspects investigated here include the general system architecture, innovative solutions for the propulsion system (e.g. Hybrid Rocket Engines (HREs), green propellants and electric pump feeding), Guidance Navigation and Control (GNC) solutions for the multi-payload/multi-orbit injection capability, and reliability aspects of upper stages.\\

First, relevant mission profiles and their main requirements for upper stages are identified. Then, solutions for more environmentally friendly propulsion systems are proposed. Since identifying a good substitute for toxic hydrazine recently became a priority, the use of green propellant technologies will be assessed, tackling specific problems such as benchmarked propulsive performances, storability and material compatibility. Another promising solution for future propulsion systems with lower environmental impact are HREs. They bring benefits in terms of flexibility, safety, reliability and cost. However, high residual mass, oxidizer/fuel ratio shift during operation, low regression rate and combustion inefficiency are some of the challenges that still need to be addressed in their application. In addition, electric pump fed systems, powered by green propellants, may be a game-changer technology for future upper stages. Compared to pressure-fed, it can provide improved performance and lower inert mass. Regarding turbopumps, it may also be advantageous in terms of simplicity and costs. On the other hand, battery mass and thermal control represent some of the drawbacks to overcome.\\

Additionally, the implementation of novel GNC solutions is critical to ensure the multi-payload/multi-orbit injection capability. Different GNC solutions for launchers are presented, as well as an analysis on the optimization techniques for this challenging payload delivery. Finally, the reliability of the launchers is a key aspect to protect both the space environment and the safety of the missions. Novel methods for reliability modelling of launchers are discussed and advantageous system architectures are proposed.\\

These novel technologies being jointly assessed, this paper presents a preliminary analysis of the discussed topics and their interconnections within ASCenSIon, aiming at satisfying new requirements for novel green upper stages.

Abstract document

IAC-21,D2,3,12,x64276.brief.pdf

Manuscript document

IAC-21,D2,3,12,x64276.pdf (🔒 authorized access only).

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