30879
Chiller Design Model - Impact of chiller failure on the short-term temperature variation in the incubation of salmonids
Data Set
Published / External
30657
EFS (Environmental and Fisheries Sciences) Division
Project
Completed
2016-10-24
In salmon recovery programs it is commonly necessary to chill incubation and early rearing temperatures to match wild development times. The most common failure mode for a chiller system is failure of the chiller or circulating pumps. Following chiller failure, the water temperature can rise from 5-7 C to 10-13 C depending on the well temperatures and ambient air temperatures.
The speed and magnitude of the temperature increases depends on how the chillers are designed. The simplest design is a direct-coupled chiller with chilled gas/process water heat exchanger. Other chiller designs include both chilled glycol and water reservoirs. The addition of these reservoirs serves to reduce the maximum rate of temperature change following chiller failure. Increased deformities have been observed in direct-coupled chiller systems for sockeye salmon following chiller failures.
This model can be used to size glycol and water reservoirs to control the rise in temperature following chiller failure.
Subject to Public Access to Research Results (PARR): Yes
Peer Reviewed Publication: Impact of chiller failure on the short-term temperature variation in the incubation of salmonids. Peer-reviewed article in fisheries or aquaculture journal
Northwest Fisheries Science Center
Seattle
WA
USA
Data Set
Spreadsheet
Table (digital)
Thermistor Chain
Platform Not Applicable
Not Applicable
35538
Model Fit for Chiller Failure
Model Fit for Chiller Failure
Published / External
Planned
Chiller Failure Data and Model Results.
Spreadsheet
Yes
PARR
Chiller Failure Data and Model Results.
1
Count
NUMBER
No
No
Active
Units for values are #.
NUMBER
#
2
Actual Time
DATE
No
No
Active
Units for values are days and minutes.
DATE
days and minutes
3
Data_Up_Rep_1
NUMBER
No
No
Active
Measured Temperature; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
4
Data_Up_Rep_2
NUMBER
No
No
Active
Measured Temperature; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
5
Data_Up_Rep_3
NUMBER
No
No
Active
Measured Temperature; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
6
Data_Down_Rep_1
NUMBER
No
No
Active
Measured Temperature; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
7
Data_Down_Rep_2
NUMBER
No
No
Active
Measured Temperature; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
8
Data_Down_Rep_3
NUMBER
No
No
Active
Measured Temperature; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
9
Model_Results_Theory_Up_Rep_1
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
10
Model_Results_Theory_Up_Rep_2
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
11
Model_Results_Theory_Up_Rep_3
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
12
Model_Results_Theory_Down_Rep_1
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
13
Model_Results_Theory_Down_Rep_2
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
14
Model_Results_Theory_Down_Rep_3
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
15
Model_Results_Computed_Up_Rep_1
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
16
Model_Results_Computed_Up_Rep_2
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
17
Model_Results_Computed_Up_Rep_3
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Failure , Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
18
Model_Results_Computed_Down_Rep_1
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
19
Model_Results_Computed_Down_Rep_2
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
20
Model_Results_Computed_Down_Rep_3
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart , Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
35539
Model Fit for Chiller Failure for Pump Failure
Model Fit for Chiller Failure for Pump Failure
Published / External
Planned
Pump Failure Data and Model Results.
Spreadsheet
Yes
PARR
Pump Failure Data and Model Results.
1
Count
NUMBER
No
No
Active
Units for values are #.
NUMBER
#
2
Actual Time
DATE
No
No
Active
Units for values are days and minutes.
DATE
days and minutes
3
Data_Up_Rep_1
NUMBER
No
No
Active
Measured Temperature; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
4
Data_Up_Rep_2
NUMBER
No
No
Active
Measured Temperature; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
5
Data_Up_Rep_3
NUMBER
No
No
Active
Measured Temperature; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
6
Data_Down_Rep_1
NUMBER
No
No
Active
Measured Temperature; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
7
Data_Down_Rep_2
NUMBER
No
No
Active
Measured Temperature; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
8
Data_Down_Rep_3
NUMBER
No
No
Active
Measured Temperature; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
9
Model_Results_Theory_Up_Rep_1
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
10
Model_Results_Theory_Up_Rep_2
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
11
Model_Results_Theory_Up_Rep_3
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
12
Model_Results_Theory_Down_Rep_1
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
13
Model_Results_Theory_Down_Rep_2
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
14
Model_Results_Theory_Down_Rep_3
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
15
Model_Results_Computed_Up_Rep_1
NUMBER
No
No
Active
Model Results, Computed Residence Time; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
16
Model_Results_Computed_Up_Rep_2
NUMBER
No
No
Active
Model Results, Computed Residence Time; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
17
Model_Results_Computed_Up_Rep_3
NUMBER
No
No
Active
Model Results, Computed Residence Time; Pump Failure, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
18
Model_Results_Computed_Down_Rep_1
NUMBER
No
No
Active
Model Results, Computed Residence Time; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
19
Model_Results_Computed_Down_Rep_2
NUMBER
No
No
Active
Model Results, Computed Residence Time; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
20
Model_Results_Computed_Down_Rep_3
NUMBER
No
No
Active
Model Results, Computed Residence Time; Pump Restart, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
35540
Model Fit for Chiller Failure with No Reservoir
Model Fit for Chiller Failure with No Reservoir
Published / External
Planned
Chiller Failure for No Reservoir Data and Model Results.
Spreadsheet
Yes
PARR
Chiller Failure for No Reservoir Data and Model Results.
1
Count
NUMBER
No
No
Active
Units for values are #.
NUMBER
#
2
Actual_Time
DATE
No
No
Active
Units for values are days and minutes.
DATE
days and minutes
3
Data_Up_Rep_1
NUMBER
No
No
Active
Measured Temperature; Chiller Failure for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
4
Data_Up_Rep_2
NUMBER
No
No
Active
Measured Temperature; Chiller Failure for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
5
Data_Up_Rep_3
NUMBER
No
No
Active
Measured Temperature; Chiller Failure for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
6
Data_Down_Rep_1
NUMBER
No
No
Active
Measured Temperature; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
7
Data_Down_Rep_2
NUMBER
No
No
Active
Measured Temperature; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
8
Data_Down_Rep_3
NUMBER
No
No
Active
Measured Tempertaure; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
9
Model_Results_Theory_Up_Rep_1
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Failure for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
10
Model_Results_Theory_Up_Rep_2
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Failure for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
11
Model_Results_Theory_Up_Rep_3
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Failure for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
12
Model_Results_Theory_Down_Rep_1
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
13
Model_Results_Theory_Down_Rep_2
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
14
Model_Results_Theory_Down_Rep_3
NUMBER
No
No
Active
Model Results, Theoretical Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
15
Model_Results_Computed_Up_Rep_1
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
16
Model_Results_Computed_Up_Rep_2
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
17
Model_Results_Computed_Up_Rep_3
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
18
Model_Results_Computed_Down_Rep 1
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 1. Units for values are C.
NUMBER
C
19
Model_Results_Computed_Down_Rep_2
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 2. Units for values are C.
NUMBER
C
20
Model_Results_Computed_Down_Rep_3
NUMBER
No
No
Active
Model Results, Computed Residence Time; Chiller Restart for No Reservoir, Mean of Incubators 1 and 17, Trough 1; Replicant 3. Units for values are C.
NUMBER
C
Data Steward
2015-10-01
Person
Maynard, Desmond
Des.Maynard@noaa.gov
7305 East Beach Drive
Manchester
WA
98366
360-871-8313
Distributor
2015-10-01
Organization
Northwest Fisheries Science Center
NWFSC
nmfs.nwfsc.metadata@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
USA
206-860-3200
http://www.nwfsc.noaa.gov
NWFSC Home
Online Resource
Metadata Contact
2015-10-01
Organization
Northwest Fisheries Science Center
NWFSC
nmfs.nwfsc.metadata@noaa.gov
2725 Montlake Boulevard East
Seattle
WA
98112
USA
206-860-3200
http://www.nwfsc.noaa.gov
NWFSC Home
Online Resource
Originator
2015-10-01
Person
Maynard, Desmond
Des.Maynard@noaa.gov
7305 East Beach Drive
Manchester
WA
98366
360-871-8313
Point of Contact
2015-10-01
Person
Maynard, Desmond
Des.Maynard@noaa.gov
7305 East Beach Drive
Manchester
WA
98366
360-871-8313
-122.5547
-122.5547
47.569
47.569
Burley Creek Field Station: Freshwater rearing facility for Red Fish Lake Sockeye
Range
2015-01-01
2015-12-01
Unclassified
At this time, contact the Data Manager for information on obtaining access to this data set. In the near future, the NWFSC will strive to provide all non-sensitive data resources as a web service in order to meet the NOAA Data Access Policy Directive (https://nosc.noaa.gov/EDMC/PD.DA.php).
NA
2016-10-24
https://www.webapps.nwfsc.noaa.gov/apex/parr/model_fit_for_chiller_failure/data/page/
2015-10-01
Organization
Northwest Fisheries Science Center
Model Fit for Chiller Failure (RESTful)
Chiller Failure Data and Model Results.
2016-10-24
https://www.webapps.nwfsc.noaa.gov/apex/parr/model_fit_for_chiller_failure_for_pump_failure/data/page/
2015-10-01
Organization
Northwest Fisheries Science Center
Model Fit for Chiller Failure for Pump Failure (RE
Pump Failure Data and Model Results.
2016-10-24
https://www.webapps.nwfsc.noaa.gov/apex/parr/model_fit_for_chiller_failure_with_no_reservoir/data/page/
2015-10-01
Organization
Northwest Fisheries Science Center
Model Fit for Chiller Failure with No Reservoir (R
Chiller Failure for No Reservoir Data and Model Results.
2016-10-24
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/tables/table/model_fit_for_chiller_failure
2015-10-01
Organization
Northwest Fisheries Science Center
Model Fit for Chiller Failure
Chiller Failure Data and Model Results.
2016-10-24
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/tables/table/model_fit_for_chiller_failure_for_pump_failure
2015-10-01
Organization
Northwest Fisheries Science Center
Model Fit for Chiller Failure for Pump Failure
Pump Failure Data and Model Results.
2016-10-24
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/tables/table/model_fit_for_chiller_failure_with_no_reservoir
2015-10-01
Organization
Northwest Fisheries Science Center
Model Fit for Chiller Failure with No Reservoir
Chiller Failure for No Reservoir Data and Model Results.
https://www.webapps.nwfsc.noaa.gov/apex/parrdata/inventory/datasets/dataset/103608
Chiller Design Model
Online Resource
Web site
NWFSC Dataset Information page. This model can be used to size glycol and water reservoirs to control the rise in temperature following chiller failure.
The replicate temperatures were compared
Yes
5
Yes
No
No
400
Access to raw data delayed until analysis is completed.
NCEI-MD
365
The Northwest Fisheries Science Center facilitates backup and recovery of all data and IT components which are managed by IT Operations through the capture of static (point-in-time) backup data to physical media. Once data is captured to physical media (every 1-3 days), a duplicate is made and routinely (weekly) transported to an offsite archive facility where it is maintained throughout the data's applicable life-cycle.
The logger data was converted to cvs and Excel files.
35538
Entity
Model Fit for Chiller Failure
35539
Entity
Model Fit for Chiller Failure for Pump Failure
35540
Entity
Model Fit for Chiller Failure with No Reservoir
gov.noaa.nmfs.inport:30879
Jeffrey Cowen
2016-02-24T10:06:37
SysAdmin InPortAdmin
2022-08-09T17:11:14
2019-06-04
Northwest Fisheries Science Center
NWFSC
2725 Montlake Boulevard East
Seattle
WA
98112
USA
206-860-3200
http://www.nwfsc.noaa.gov
1001
Public
No
2019-06-04
1 Year
2020-06-04