Next Generation RivGen Power System: Kvichak River, AK Overwinter Ice Study
The University of Alaska Fairbanks (UAF) Alaska Hydrokinetic Energy Research Center was tasked with developing a real-time data telemetry / remote power generation system to monitor frazil ice conditions in the Kvichak River in support of the U.S. Department of Energy funded "Next Generation MHK River Power System Optimized for Performance, Durability and Survivability" project. A real-time telemetry system was requested because of the short time span between the end of the frazil ice season when the instruments would be recovered, limited vessel availability and the project end-date.
To meet the project objectives, UAF designed and assembled a remote power/real-time data telemetry system that included an auto start propane generator, a small PV array, a small battery bank and line-of-sight radios as well as two sonar systems to monitor river velocity and water column acoustic backscatter strength. Both sonars included internal batteries for powering the instruments in case of failure of the shore based power system. The sonars, deployed in ~5 m of water on the bed of the Kvichak River, adjacent to the Village of Igiugig, Alaska were tethered to shore via a waterproof armored cable that conveyed power to the subsurface instruments and data from the instruments to the shore based telemetry system. The instruments were programmed to record data internally as well as to transmit data serially over the cables to the shore based system.
The system was in-place between November, 2016 and June, 2017. While the real-time data telemetry system was not successful and the remote power generation power system was only partially successful, the system design included sufficient redundant power in the form of internal instrument batteries to enable the collection of nearly three months of overlapping velocity and backscatter data (from November through February) and a record of acoustic backscatter strength spanning the entire ~150 day frazil ice season between November, 2016 and ~April, 2017.
This submission includes the overwinter ice study plan, dataset, and final report. The dataset includes modeled water velocity, discharge, and measured water velocity and acoustic backscatter strength in winter 2016-17 from the Kvichak River at the Village of Igiugig, Alaska, USA.
Citation Formats
TY - DATA
AB - The University of Alaska Fairbanks (UAF) Alaska Hydrokinetic Energy Research Center was tasked with developing a real-time data telemetry / remote power generation system to monitor frazil ice conditions in the Kvichak River in support of the U.S. Department of Energy funded "Next Generation MHK River Power System Optimized for Performance, Durability and Survivability" project. A real-time telemetry system was requested because of the short time span between the end of the frazil ice season when the instruments would be recovered, limited vessel availability and the project end-date.
To meet the project objectives, UAF designed and assembled a remote power/real-time data telemetry system that included an auto start propane generator, a small PV array, a small battery bank and line-of-sight radios as well as two sonar systems to monitor river velocity and water column acoustic backscatter strength. Both sonars included internal batteries for powering the instruments in case of failure of the shore based power system. The sonars, deployed in ~5 m of water on the bed of the Kvichak River, adjacent to the Village of Igiugig, Alaska were tethered to shore via a waterproof armored cable that conveyed power to the subsurface instruments and data from the instruments to the shore based telemetry system. The instruments were programmed to record data internally as well as to transmit data serially over the cables to the shore based system.
The system was in-place between November, 2016 and June, 2017. While the real-time data telemetry system was not successful and the remote power generation power system was only partially successful, the system design included sufficient redundant power in the form of internal instrument batteries to enable the collection of nearly three months of overlapping velocity and backscatter data (from November through February) and a record of acoustic backscatter strength spanning the entire ~150 day frazil ice season between November, 2016 and ~April, 2017.
This submission includes the overwinter ice study plan, dataset, and final report. The dataset includes modeled water velocity, discharge, and measured water velocity and acoustic backscatter strength in winter 2016-17 from the Kvichak River at the Village of Igiugig, Alaska, USA.
AU - Kasper, Jeremy
A2 - Duvoy, Paul
A3 - Konefal, Nick
A4 - Cannavo, Andrew
A5 - Brown, Eloise J.
A6 - Bond, Baxter W.
A7 - Cicilio, Phylicia
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15473/1492960
KW - MHK
KW - Marine
KW - Hydrokinetic
KW - energy
KW - power
KW - ice
KW - winter
KW - Kvichak River
KW - Alaska
KW - Igiugig
KW - sea spider
KW - fiberglass tripod
KW - turbine
KW - frazil
KW - ADCP
KW - SWIP
KW - river
KW - monitoring
KW - study
KW - conditions
KW - environment
KW - acoustic doppler current profiler
KW - study plan
KW - equipment
KW - data collection
KW - plan
KW - current
KW - AK
KW - horizontal
KW - axis
KW - axial
KW - shallow
KW - bottom mounted
KW - RivGen
KW - telemetry
KW - remote
KW - system
KW - performance
KW - durability
KW - survivability
KW - real-time
KW - acoustic
KW - doppler
KW - profiler
KW - CEC
KW - cross flow turbine
KW - EA
LA - English
DA - 2017/10/04
PY - 2017
PB - Igiugig Village Council
T1 - Next Generation RivGen Power System: Kvichak River, AK Overwinter Ice Study
UR - https://doi.org/10.15473/1492960
ER -
Kasper, Jeremy, et al. Next Generation RivGen Power System: Kvichak River, AK Overwinter Ice Study. Igiugig Village Council, 4 October, 2017, MHKDR. https://doi.org/10.15473/1492960.
Kasper, J., Duvoy, P., Konefal, N., Cannavo, A., Brown, E., Bond, B., & Cicilio, P. (2017). Next Generation RivGen Power System: Kvichak River, AK Overwinter Ice Study. [Data set]. MHKDR. Igiugig Village Council. https://doi.org/10.15473/1492960
Kasper, Jeremy, Paul Duvoy, Nick Konefal, Andrew Cannavo, Eloise J. Brown, Baxter W. Bond, and Phylicia Cicilio. Next Generation RivGen Power System: Kvichak River, AK Overwinter Ice Study. Igiugig Village Council, October, 4, 2017. Distributed by MHKDR. https://doi.org/10.15473/1492960
@misc{OEDI_Dataset_7914,
title = {Next Generation RivGen Power System: Kvichak River, AK Overwinter Ice Study},
author = {Kasper, Jeremy and Duvoy, Paul and Konefal, Nick and Cannavo, Andrew and Brown, Eloise J. and Bond, Baxter W. and Cicilio, Phylicia},
abstractNote = {The University of Alaska Fairbanks (UAF) Alaska Hydrokinetic Energy Research Center was tasked with developing a real-time data telemetry / remote power generation system to monitor frazil ice conditions in the Kvichak River in support of the U.S. Department of Energy funded "Next Generation MHK River Power System Optimized for Performance, Durability and Survivability" project. A real-time telemetry system was requested because of the short time span between the end of the frazil ice season when the instruments would be recovered, limited vessel availability and the project end-date.
To meet the project objectives, UAF designed and assembled a remote power/real-time data telemetry system that included an auto start propane generator, a small PV array, a small battery bank and line-of-sight radios as well as two sonar systems to monitor river velocity and water column acoustic backscatter strength. Both sonars included internal batteries for powering the instruments in case of failure of the shore based power system. The sonars, deployed in ~5 m of water on the bed of the Kvichak River, adjacent to the Village of Igiugig, Alaska were tethered to shore via a waterproof armored cable that conveyed power to the subsurface instruments and data from the instruments to the shore based telemetry system. The instruments were programmed to record data internally as well as to transmit data serially over the cables to the shore based system.
The system was in-place between November, 2016 and June, 2017. While the real-time data telemetry system was not successful and the remote power generation power system was only partially successful, the system design included sufficient redundant power in the form of internal instrument batteries to enable the collection of nearly three months of overlapping velocity and backscatter data (from November through February) and a record of acoustic backscatter strength spanning the entire ~150 day frazil ice season between November, 2016 and ~April, 2017.
This submission includes the overwinter ice study plan, dataset, and final report. The dataset includes modeled water velocity, discharge, and measured water velocity and acoustic backscatter strength in winter 2016-17 from the Kvichak River at the Village of Igiugig, Alaska, USA.},
url = {https://mhkdr.openei.org/submissions/235},
year = {2017},
howpublished = {MHKDR, Igiugig Village Council, https://doi.org/10.15473/1492960},
note = {Accessed: 2025-07-10},
doi = {10.15473/1492960}
}
https://dx.doi.org/10.15473/1492960
Details
Data from Oct 4, 2017
Last updated Apr 10, 2023
Submitted Oct 4, 2017
Organization
Igiugig Village Council
Contact
AlexAnna Salmon
907.533.3211
Authors
Original Source
https://mhkdr.openei.org/submissions/235Research Areas
Keywords
MHK, Marine, Hydrokinetic, energy, power, ice, winter, Kvichak River, Alaska, Igiugig, sea spider, fiberglass tripod, turbine, frazil, ADCP, SWIP, river, monitoring, study, conditions, environment, acoustic doppler current profiler, study plan, equipment, data collection, plan, current, AK, horizontal, axis, axial, shallow, bottom mounted, RivGen, telemetry, remote, system, performance, durability, survivability, real-time, acoustic, doppler, profiler, CEC, cross flow turbine, EADOE Project Details
Project Name Next Generation MHK River Power System Optimized for Performance, Durability and Survivability
Project Lead Rajesh Dham
Project Number EE0007348
