Welcome to the new SBIR.gov, to assist in getting you situated with the system, a preview of the new login and registration process is available here. Please reach out to the website support team with any questions via sba.sbir.support@reisystems.com

Award

Portfolio Data

Icon: back arrowBack to Award Search

PHILM (Plant Habitat Ionic Liquid Membrane) for CO2 Control

Awardee

SPACE LAB TECHNOLOGIES, LLC

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

Award Year: 2022

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: $156,479

Contract Number: 80NSSC22PB190

Agency Tracking Number: 222544

Solicitation Topic Code: S15

Solicitation Number: SBIR_22_P1

Abstract

Accurate control of the plant environment in space growth chambers is pivotal for space plant biology research. The PHILM (Plant Habitat Ionic Liquid Membrane) for CO2 control uses a supported ionic liquid membrane (SILM) to selectively separate COshy;2 from cabin air and then dose the gas into closed plant chambers to maintain constant CO2 concentrations. Utilizing respired cabin CO2 for plant growth has the advantages of 1) eliminating the continuous resupply mass for compressed cylinders and scrubbing cartridges and 2) reducing the load on the cabin CO2 removal system when larger scale crop production systems are integrated into the spacecraft. Membranes are attractive for spacecraft use because they require less power, fewer components, and less infrastructure volume than alternative methods, with no consumable mass, noise, or safety hazards. In support of NASArsquo;s priorities for space plant biology and space habitation system development, PHILMtrade; provides precise and timely CO2 control for plant growth chambers that is reliable, safe, compact, and energy efficient. PHILMtrade; can operate in microgravity and reduced gravity, advancing space plant biology research and space agriculture capabilities in space stations, transit vehicles, and surface habitats. PHILMtrade; is also readily transferrable to terrestrial botanical research and agriculture (plant growth chambers, greenhouses, and indoor farms). With PHILMtrade;, indoor farmers can enrich greenhouse CO2 for increased crop yield, by sequestering carbon from the atmosphere, a safer and more sustainable alternative. This Phase I project will establish feasibility and demonstrate proof of concept for supported ionic liquid membranes to maintain target CO2 concentrations in spacecraft plant growth chambers utilizing cabin air. The team will analyze a baseline system architecture, develop a breadboard prototype, and conduct experiments to validate performance predictions over expected operating conditions.

Award Schedule

  1. 2022
    Solicitation Year

  2. 2022
    Award Year

  3. July 15, 2022
    Award Start Date

  4. January 25, 2023
    Award End Date

Principal Investigator

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

Business Contact

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

Research Institution

Name: N/A