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Award

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Smart Hybrid Ultrasonic Robust Flowmeter for Waste Processor Effluent Gases

Awardee

SPACE LAB TECHNOLOGIES, LLC

5455 SPINE RD STE ME
BOULDER, CO, 80301-3312
USA

Award Year: 2019

UEI: WDXTJ9AHNZ68

HUBZone Owned: No

Woman Owned: No

Socially and Economically Disadvantaged: Yes

Congressional District: 2

Tagged as:

SBIR

Phase I

Seal of the Agency: NASA

Awarding Agency

NASA

Total Award Amount: $97,420

Contract Number: 80NSSC19C0453

Agency Tracking Number: 193992

Solicitation Topic Code: H3

Solicitation Number: SBIR_19_P1

Abstract

As human space exploration progresses beyond Earth orbit, the need for resource and waste management is paramount. nbsp;Missions to the International Space Station (ISS) rely on resupply missions for replenishing resources, and waste is disposed by either burnup during Earth entry (i.e. Cygnus) or in recovery of reentry vehicles (i.e. Dragon).nbsp; Future long duration missions will need a solution for reducing trash volume and processing the resulting atmospheric contaminates.nbsp; For such waste systems, there currently is no reliable method for measuring mass flow rates for the effluent gases.nbsp; Flow sensing techniques for waste require a robust device able to provide accurate mass flow measurements despite the variable and corrosive gas stream that includes a high content of water vapor and hydrocarbons.nbsp; Typical mass flow measurement devices for gases do not operate well in a dirty gaseous stream, which include thermal and Coriolis types.nbsp; Thermal elements in the gas stream will eventually collect deposits on surfaces and become non-responsive.nbsp; Coriolis flowmeters can be relatively large, and they have a limited turndown range for gases.nbsp; Space Lab Technologies LLC with the consulting efforts of Professor James Nabity at the University of Colorado Boulder proposes SHUR Flowtrade;, a robust mass flowmeter for space habitat waste processing systems.nbsp; SHUR Flowtrade; uses a smart hybrid ultrasonic technology in a relatively small formfactor.nbsp; The instrument provides robust measurement of dirty flows with negligible pressure drop, corrosion resistance, and tolerance to the buildup of deposits in the inner tube waste processor.nbsp; SHUR Flowtrade; also features high resolution radiation tolerant electronics. In Phase I, Space Lab will determine feasibility of the proposed instrument through conceptual design and analysis, risk and reliability assessment, and prototype testing.

Award Schedule

  1. 2019
    Solicitation Year

  2. 2019
    Award Year

  3. August 19, 2019
    Award Start Date

  4. February 18, 2020
    Award End Date

Principal Investigator

Name: Adam Escobar
Phone: (720) 309-8475
Email: adam@spacelabtech.com

Business Contact

Name: Christine E Escobar
Phone: (720) 309-8475
Email: chris@spacelabtech.com

Research Institution

Name: N/A