SBIR-STTR Award

Microcomputer based water quality monitoring and control system
Award last edited on: 10/16/2019

Sponsored Program
SBIR
Awarding Agency
NSF
Total Award Amount
$91,276
Award Phase
2
Solicitation Topic Code
-----

Principal Investigator
Paul R Hadley

Company Information

Hadley Company

1214 Grimsley Drive
Charleston, SC 29412
   (803) 795-9071
   N/A
   N/A
Location: Single
Congr. District: 01
County: Charleston

Phase I

Contract Number: 8860720
Start Date: 1/1/1989    Completed: 9/30/1989
Phase I year
1988
Phase I Amount
$19,500
The business of aquaculture has increased substantially in the United States in recent years. The use of intensive aquaculture techniques in the US has placed an increasing emphasis on maintaining water quality. Development of a low-cost and reliable automated water quality and feed condition monitoring and control system would pro-vide both research and commercial aquaculturists with a means of maintaining water quality for hatchery, nursery, grow-out and feed production systems. Information gathered from both research and commercial aquaculturists and instrument manufacturers has indicated that four elements are required to design an appropriate monitoring/ control system: (a) an understanding of the biological, physical and chemical parameters critical to aquaculture; (b) experience in instrumentation (and calibration); (c) microcomputer programming capability; and (d) experience with control devices and electronic theory.To date there have been no coordinated efforts to integrate these four elements to produce a complete system of monitoring and control for aquaculture. Utilization of off-the-shelf environmental sensors microcomputers and control devices integrated by software modules would go far in alleviating the problems attendant to maintaining water quality in intensive aquaculture systems.Commercial Applications:The system developed could provide intensive aquaculturists with a cost-effective means of maintaining water quality by utilizing micro-computer-based monitoring and control systems.

Phase II

Contract Number: N/A
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
1990
Phase II Amount
$71,776
___(NOTE: Note: no official Abstract exists of this Phase II projects. Abstract is modified by idi from relevant Phase I data. The specific Phase II work statement and objectives may differ)___ The business of aquaculture has increased substantially in the United States in recent years. The use of intensive aquaculture techniques in the US has placed an increasing emphasis on maintaining water quality. Development of a low-cost and reliable automated water quality and feed condition monitoring and control system would pro-vide both research and commercial aquaculturists with a means of maintaining water quality for hatchery, nursery, grow-out and feed production systems. Information gathered from both research and commercial aquaculturists and instrument manufacturers has indicated that four elements are required to design an appropriate monitoring/ control system: (a) an understanding of the biological, physical and chemical parameters critical to aquaculture; (b) experience in instrumentation (and calibration); (c) microcomputer programming capability; and (d) experience with control devices and electronic theory.To date there have been no coordinated efforts to integrate these four elements to produce a complete system of monitoring and control for aquaculture. Utilization of off-the-shelf environmental sensors microcomputers and control devices integrated by software modules would go far in alleviating the problems attendant to maintaining water quality in intensive aquaculture systems.Commercial Applications:The system developed could provide intensive aquaculturists with a cost-effective means of maintaining water quality by utilizing micro-computer-based monitoring and control systems.