Skip to Main Content U.S. Department of Energy
Available Technologies

Sensor Fish Mini

Battelle Number(s): 30554-CON
Clearance Number: PNNL-SA-147780
Patent(s) Pending
Available for licensing in all fields
  • Sensor Fish Mini is an effective technology available for evaluating hydraulic structures to determine physical stressors for live fish.

1 of 1

SUMMARY

With seven percent of the nation’s electricity coming from hydropower, the future will bring new dams and updates to current turbine systems. Some 2,400 dams across the country will face relicensing in the coming years, and operators will have to prove that operations won’t impact fish passage.

Pacific Northwest National Laboratory designed Sensor Fish (SF),  a small autonomous device filled with sensors, to act as a body double for live fish. The Sensor Fish technology gives information to hydropower operators and fisheries researchers on what fish experience during downstream migration through dams. The tubular device is deployed in turbines, spillways, and sluiceways and takes 2,000 measurements per second. Sensor Fish is commercially available through Advanced Telemetry Systems.

In 2018, PNNL developed a miniaturized version of Sensor Fish, known as Sensor Fish Mini, to evaluate fish passage conditions and physical stressors in small hydraulic structures. Small hydro accounts for 89 percent of non-federal facilities and has a capacity of less than 30 megawatts.

The technology measures acceleration, rotational velocities, orientation, pressure, and temperature. Sensor Fish Mini is activated with a microcontroller and then dropped into the water. Similar to fish, the current pushes the devices through the hydraulic turbines or small dam and further downstream they are recovered with a net. Each of the SF sensors samples at a rate of 2048 Hz and can store up to 5 min of data. Data collected is uploaded into PNNL’s Hydropower Biological Evaluation Toolset (HBET), a collection of software tools developed for processing and analyzing Sensor Fish Mini data and hydropower evaluation-related technologies. Deployments can be repeated for further studies.

Sensor Fish Mini was successfully deployed in its first field trial and used for evaluations of an irrigation screen in Hood River.

Sensor Fish Mini’s small size make the device a beneficial tool for evaluating the machine dynamics of turbines. One option has a spherical shape and weighs 6.4 grams. It can also be used in different form factors to accommodate other applications.

Applicability

Sensor Fish Mini provides engineers, hydro operators, and fisheries researchers with information on how to improve designs for small hydraulic structures that minimize physical impacts on fish. As the small hydro industry continues to grow, Sensor Fish Mini’s tools will continue to be a useful technology for evaluating structures.

Comparison between SF mini and SF

Specification

SF mini

SF

Difference

Dimension

23 mm, 6.4 g

89.9 x 24.5 mm, 42 g

Different form factors with reduced weight

Acceleration

Analog, 200g, 12bit, oversampling at 8192

Analog, 200g, 12bit, oversampling at 8192

Same

Pressure

MS5412BM, 12 bit, oversampling at 8192

MS5412BM, 12 bit, oversampling at 8192

Same

Pressure sensor amplifier circuitry

Single component

3 × 3 mm

One Instrumentation Amplifier (3 × 4.9 mm) and 4 resistors

Only one component

Gyration, Magnetometer

Only one component, sampling at 2048

Two separate components, sampling at 2048

Integrated into one component. Magnetometer range is increased to +/-48 Gauss from +/-12 Gauss.

Hall Sensor ( for activation)

1.1 × 1.4 mm

2.8 × 2.9 mm

Footprint reduced by 4 times

Temperature

No direct measurement

One dedicate sensor for direct measurement

Removed

Flash Memory

64Mbit, 2.7V to 3.6V

128Mbit, 2.7V to 3.6V

Capacity reduce half

Data communication

Wired, speed 961200 bps

Wired, speed 961200 bps

Same

Battery

50 mAh Li

110 mAh Li

Capacity Reduced by half

Battery charger and voltage regulators

Only one component

Two separate components

Integrated into one component, and it also has over-discharge and overcurrent protection for battery.

RF

N/A

Yes

Removed, but can be added in future version.

Automatic floatation System and Recovery LED

N/A

Yes

Removed

Circuit board

Only one circuit board

Two circuit boards (one for sensors, and one for control circuitry)

Dimension much reduced

ADVANTAGES

  • Forecasts physical stressors for live fish during downstream passage
  • Evaluates structural designs that are problematic for fish
  • Informs operators of the range of inflows that are suitable for fish passage

RELATED LINKS

Available Technologies

Doing Business

Technology Transfer & Collaborative Research

Share This Technology

Share This!

Additional Information

Questions?

Website

Publication(s)