1 / 19

Lower Snake Modeling and LGR Monitoring Year 1 Report Summary

Lower Snake Modeling and LGR Monitoring Year 1 Report Summary. Christopher Cook BPA Project 2002-027-00. Current Geographic Extent: Lower Granite Pool to Columbia R. Note: USACE is reviewing data. 2002 Temperature Monitoring Locations. Pressure sensors at Sites 2, 3, 4, & 7

jillian-orr
Download Presentation

Lower Snake Modeling and LGR Monitoring Year 1 Report Summary

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Lower Snake Modeling and LGR MonitoringYear 1 Report Summary Christopher Cook BPA Project 2002-027-00

  2. Current Geographic Extent: Lower Granite Pool to Columbia R. 2

  3. Note: USACE is reviewing data 3

  4. 2002 Temperature Monitoring Locations 4

  5. Pressure sensors at Sites 2, 3, 4, & 7 Spring/Summer 2002 => pool had little slope 5

  6. Appendix A and provided to USACE Most downstream site. Approximately 9 miles from LGR. Most downstream Clearwater R. site. Attached to railroad trestle. Note: black lines indicate depths of loggers 6

  7. Water velocity (ADCP) measurements: 2 surveys of 52 pts Note: Data provided to USACE 7

  8. LGR Velocity and Thermal Structure • Mode 1: Weak to No Stratification • Mode 2: Strong Stratification Typical mode 1 pattern. Rivers flow parallel to each other at the confluence. Satellite Image 4/4/2002 Temp delta = 1.5° C 8

  9. 14 Degree Isotherm 20 18 °C 16 14 18 Degree Isotherm 20 Degree Isotherm 20 18 °C 16 14 20 18 °C 16 14 Typical mode 2 pattern. Clearwater subducts under the Snake River. Satellite Image 7/21/2002 Temp delta = 10° C Density Driven Flow Colder Clearwater R flow can migrate up the Snake R. Migration halts when a balance between momentum and buoyancy is reached. 9

  10. 3-D Modeling of LGR Examples of the numerical grid, colored by bathymetry 10

  11. Velocity Resultscompared to August 2002 ADCP survey 11

  12. 3-D Model => a work in progress • Ongoing model fixes • Calculation error at downstream boundary • Doesn’t impact results at PNNL sites…issues downriver by the dam • As of today, bug (appears) to be fixed and seems to be working properly. • Need to improve water balance. Will apply CE-QUAL-W2 to calculate Q for synthetic tributary. • Temperature difference plots in report • Could be better. • Next steps are to adjust surface heat exchange parameters for an improved fit – need to fix boundary 1st. 12

  13. LGS IHR LMN CE-QUAL-W2 Modeling of the Lower Snake River • Year 1 applied CE-QUAL to LGS, LMN, and IHR • Bathymetry dataset is from MASS1 (0.5 mile dx, 1m dz) • CE-QUAL volumes compared to Water Control Manual • LGS & IHR < 5%; LMN < 10% 13

  14. CE-QUAL-W2 Boundary Conditions • Inflow discharge and temperature data • Upstream data specified hourly • Obtained from USACE database • LMN => Tucannon and Palouse Rivers • Q (daily) from USGS. Temp (hourly) from USACE • Meteorology • All reservoirs used Rice Bar AgriMet data (mid-LGS) • IHR results may be improved by using closer station PAWS station (Fishhook) • Downstream flow boundary • Specified hourly & obtained from USACE database • Distributed tributary used to achieve correct elevation at downstream. Iterative process. Average adjustments were less than ±3% of river Q. 14

  15. 15

  16. 16

  17. 17

  18. Year 2 Data Collection • Temperature Loggers • Same 11 sites as last year • 2 additional: Red Wolf (replace USGS) & US-12 • Installed April 28 – May 1 • Maintenance trips: weeks of June 16, July 21 • Removed week of Sept 22 • ADCP survey • Increased coverage of confluence zone • Survey trips • May 14-16. 15 cross-sections x 3 pts surveyed • Aug 11-13, Aug 25-28 • Increased monitoring of confluence zone • Upstream migration of Clearwater • Satellite and IR Camera monitoring to improve understanding of mixing zone (shape, location, etc.). 18

  19. Year 2 Modeling • CE-QUAL-W2 • Test sensitivity to met conditions • Cloud cover • Fishhook data at IHR • Wind variations (topographic steering issue) • Validate against mid-pool temperature time series • Simulate LGR pool in support of 3-D modeling • 3-D CFD of LGR • Confirm working properly • Adjust parameters for best fit • Validate against Year 2 data 19

More Related