Gilbert Chew scite author profile

Gilbert Chew

5Publications

2Citation Statements Received

5Citation Statements Given

How they've been cited

How they cite others

Affiliations

Science Applications International Corporation (United States), Seattle University, Pioneer Astronautics (United States)

Publications

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Development of a 13 kW Hall Thruster Propulsion System Performance Model for AEPS

Stanley¹,

Allen²,

Goodfellow³

et al. 2017

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The Advanced Electric Propulsion System (AEPS) program will develop a flight 13kW Hall thruster propulsion system based on NASA's HERMeS thruster. The AEPS system includes the Hall Thruster (HT), the Power Processing Unit (PPU) and the Xenon Flow Controller (XFC). These three primary components must operate together to ensure that the system generates the required combinations of thrust and specific impulse at the required system efficiencies for the desired system lifetime. At the highest level, the AEPS system will be integrated into the spacecraft and will receive power, propellant, and commands from the spacecraft. Power and propellant flow rates will be determined by the throttle set points commanded by the spacecraft. Within the system, the major control loop is between the mass flow rate and thruster current, with time-dependencies required to handle all expected transients, and additional, much slower interactions between the thruster and cathode temperatures, flow controller and PPU. The internal system interactions generally occur on shorter timescales than the spacecraft interactions, though coordination with the spacecraft commands and telemetry will be at the higher frequency. The AEPS system performance model is designed to account for all these interactions in a way that allows evaluation of the sensitivity of the system to expected changes over the planned mission as well as to assess the impacts of normal component and assembly variability during the production phase of the program. This paper describes the initial efforts toward the system performance model development, correlation to NASA test data, and how the model will be used to evaluate the critical internal and external interactions.The results will ensure the component requirements do not unnecessarily drive the system cost or overly constrain the development

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A computational study of projectile nose heating in the ram accelerator

Chew

Bruckner

1994

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Study of power system upgrades for NDBC buoys

Chew

Pelaccio

Johnson³

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Experiments on hypersonic ramjet propulsion cycles using a ram accelerator

Chew

Knowlen

Burnham

et al. 1991

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Exploration missions with a solar bimodal system

Zubrin¹,

Chew²,

Lowther³

1997

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Gilbert Chew

Development of a 13 kW Hall Thruster Propulsion System Performance Model for AEPS

A computational study of projectile nose heating in the ram accelerator

Study of power system upgrades for NDBC buoys

Experiments on hypersonic ramjet propulsion cycles using a ram accelerator

Exploration missions with a solar bimodal system

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