Frank D. Quinn scite author profile

Frank D. Quinn

5Publications

12Citation Statements Received

32Citation Statements Given

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Affiliations

Glenn Research Center, ZIN Technologies ( United States)

Publications

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Screen channel liquid acquisition device outflow tests in liquid hydrogen

et al. 2014

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This paper presents experimental design and test results of the recently concluded 1-g inverted vertical outflow testing of two 325x2300 full scale liquid acquisition device (LAD) channels in liquid hydrogen (LH 2 ). One of the channels had a perforated plate and internal cooling from a thermodynamic vent system (TVS) to enhance performance. The LADs were mounted in a tank to simulate 1-g outflow over a wide range of LH 2 temperatures (20.3 -24.2 K), pressures (100 -350 kPa), and flow rates (0.010 -0.055 kg/s). Results indicate that the breakdown point is dominated by liquid temperature, with a second order dependence on mass flow rate through the LAD. The best performance is always achieved in the coldest liquid states for both channels, consistent with bubble point theory. Higher flow rates cause the standard channel to break down relatively earlier than the TVS cooled channel. Both the internal TVS heat exchanger and subcooling the liquid in the propellant tank are shown to significantly improve LAD performance.

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Simulation of a Cold Gas Thruster System and Test Data Correlation

Hauser

Quinn²

2011

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A Heat and Mass Transfer Model of the Orion European Service Module Propulsion Sub-System

Stephens

Belair

Quinn

2020

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Electrical Pressurization Concept for the Orion MPCV European Service Module Propulsion System

Meiss

Weber

Ierardo

et al. 2015

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The paper presents the design of the pressurization system of the European Service Module (ESM) of the Orion MultiPurpose Crew Vehicle (MPCV). Being part of the propulsion subsystem, an electrical pressurization concept is implemented to condition propellants according to the engine needs via a bang-bang regulation system. Separate pressurization for the oxidizer and the fuel tank permits mixture ratio adjustments and prevents vapor mixing of the two hypergolic propellants during nominal operation. In case of loss of pressurization capability of a single side, the system can be converted into a common pressurization system. The regulation concept is based on evaluation of a set of tank pressure sensors and according activation of regulation valves, based on a single-failure tolerant weighting of three pressure signals. While regulation is performed on ESM level, commanding of regulation parameters as well as failure detection, isolation and recovery is performed from within the Crew Module, developed by Lockheed Martin Space System Company. The overall design and development maturity presented is post Preliminary Design Review (PDR) and reflects the current status of the MPCV ESM pressurization system.

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Porous Media Condensing Heat Exchanger with Integral Gas Liquid Separation for Space Flight Use

Althausen

Quinn

Bunnell

et al. 2006

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scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

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Frank D. Quinn

Screen channel liquid acquisition device outflow tests in liquid hydrogen

Simulation of a Cold Gas Thruster System and Test Data Correlation

A Heat and Mass Transfer Model of the Orion European Service Module Propulsion Sub-System

Electrical Pressurization Concept for the Orion MPCV European Service Module Propulsion System

Porous Media Condensing Heat Exchanger with Integral Gas Liquid Separation for Space Flight Use

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