Overview of 1996-2001 IEP PWT Calibration Process

Overview of 1996-2001 IEP PWT Calibration Process Staff December 14, 2006

Overview of 1996-2001 IEP PWT Calibration Process Chris Enright December 14, 2006

Models and Data over time Data Models

Models and Data over time 1996-2001 DSM2 Re-Calibration Mid 90’s USGS Flow Network NOAA bathymetry data Where we are today Late 80’s early 90’s Link-Node and DSM1 Models Data Models • Since 2000: • Expanded USGS Flow Network • Bathymetry data collection by DWR CD • Expanded understanding of Delta transport • Stakeholder participation DSM2 Model Appears • Since 2000: • Expanded USGS Flow Network (23 stations) • Bathymetry data collection by DWR CD • Expanded understanding of Delta transport • Stakeholder participation

Motivation for 1996-2001 DSM2 Calibration PWT

Motivation for 1996-2001 DSM2 Calibration PWT • Managers were frustrated with modelers

Motivation for 1996-2001 DSM2 Calibration PWT • Managers were frustrated with modelers FDM Old River/Middle River Flow Split ~ 50/50 Old River Net Flow DSM1 Middle River Net Flow

Sacramento River Chan 435 @ middle Montezuma Slough Chan 511 @ length Sherman Lake @ Sac R Chan 281@ 0 Sacramento R San Joaquin R @ mouth Chan 286@ 0.75*length Mayberry Slough Chan 283 @ 0.9*length San Joaquin R New York Slough Chan 288 @ middle Sherman Lake @ SJR Chan 295 @ length Mayberry Cut Chan 299 @ 0.9*length Middle Slough Chan 289 @ middle Motivation for 1996-2001 DSM2 Calibration PWT • Managers were frustrated with modelers • Availability of new Delta flow data Permanent Flow Monitoring Network USGS “Confluence Study 1998”

Motivation for 1996-2001 DSM2 Calibration PWT • Managers were frustrated with modelers • Availability of new Delta flow data • Availability of new Delta bathymetry data Bathymetry data collected in 1999-2000

Motivation for 1996-2001 DSM2 Calibration PWT • Managers were frustrated with modelers • Availability of new Delta flow data • Availability of new Delta bathymetry data • Recognition of the need for consensus among Bay-Delta modelers that DSM2 is accurate enough for the questions we ask of it.

DRAFT Final Report Enhanced Calibration and Validation of DSM2 HYDRO and QUAL by DSM2 Project Work Team Technical Report XX November 2001 Interagency Ecological Program for the Sacramento-San Joaquin Estuary

DSM2 Project Work Team Chapter II • Need for DSM2 PWT • Need for a new 1D Bay-Delta Model • Need for Consensus Calibration/Validation of Models

DSM2 Project Work Team Chapter III • New 1D Model Search Process Chapter IV • Development of DSM2 Modeling System by DWR

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition • Open Water Area Modeling

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition • Open Water Area Modeling • Geometry Development Mechanics

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition • Open Water Area Modeling • Geometry Development Mechanics • Verification of Hydro and Qual (convergence analysis)

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition • Open Water Area Modeling • Geometry Development Mechanics • Verification of Hydro and Qual (convergence analysis) • Forcing Due To Density Gradients

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition • Open Water Area Modeling • Geometry Development Mechanics • Verification of Hydro and Qual (convergence analysis) • Forcing Due To Density Gradients • Optimization Approach to Calibration

DSM2 Project Work TeamIssue Deliberation Chapter V • Selection of a Conservative Water Quality Tracer • Use of Surface Salinity as Downstream Boundary Condition • Open Water Area Modeling • Geometry Development Mechanics • Verification of Hydro and Qual (convergence analysis) • Forcing Due To Density Gradients • Optimization Approach to Calibration • Momentum Transfer at Nodes

DSM2 Project Work TeamInput Data and Data Reliability Chapter VI • Stage data • Flow data • Salinity data • DICU data

DSM2 Project Work TeamGeometry Development Chapter VII • Bathymetry data collection programs

DSM2 Project Work TeamGeometry Development Chapter VII • Bathymetry data collection programs • Historical bathymetry data and common coordinate systems

DSM2 Project Work TeamGeometry Development Chapter VII • Bathymetry data collection programs • Historical bathymetry data and common coordinate systems • Geometry data viewer (CSDP)

DSM2 Project Work TeamGeometry Development Chapter VII • Bathymetry data collection programs • Historical bathymetry data and common coordinate systems • Geometry data viewer (CSDP) • Historical barrier configurations

DSM2 Project Work TeamGeometry Development Chapter VII • Bathymetry data collection programs • Historical bathymetry data and common coordinate systems • Geometry data viewer (CSDP) • Historical barrier configurations • Approach to development of DSM2 geometry…

DSM2 Project Work Team DSM2 geometry • How DSM2 Uses Cross-Section Data • Sources of bathymetry and geometry error • Using the CSDP for channel cross-section design • Example: preserving plan area in Suisun Bay

Generating DSM2 Channel Geometry in Suisun Bay

DSM2 Project Work TeamCalibration Process Chapter VIII • PWT Web-Site

DSM2 Project Work TeamCalibration Process Chapter VIII • PWT Web-Site • HYDRO Calibration Web Site

DSM2 Project Work TeamCalibration Process Chapter VIII • PWT Web-Site • HYDRO Calibration Web Site • QUAL Calibration Web Site

DSM2 Project Work TeamCalibration Process Chapter VIII • PWT Web-Site • HYDRO Calibration Web Site • QUAL Calibration Web Site • Calibration Outputs

DSM2 Project Work TeamCalibration Process Chapter VIII • PWT Web-Site • HYDRO Calibration Web Site • QUAL Calibration Web Site • Calibration Outputs • PWT Calibration Logistics

DSM2 Project Work TeamCalibration Approach Chapter IX • Regions of constant Manning’s n

DSM2 Project Work TeamCalibration Approach Chapter IX • Regions of constant Manning’s n • Geometry modification for calibration (Geometry isn’t untouchable)

DSM2 Project Work TeamCalibration Approach Chapter IX • Regions of constant Manning’s n • Geometry modification for calibration • Choice of historical calibration periods

DSM2 Project Work TeamCalibration Approach Chapter IX • Regions of constant Manning’s n • Geometry modification for calibration • Choice of historical calibration periods • Goodness-of-fit measures

DSM2 Project Work TeamCalibration Results Chapter X

DSM2 Project Work TeamCalibration Results Chapter X • HYDRO

DSM2 Project Work TeamCalibration Results Chapter X • HYDRO • QUAL

Let’s do it again!

Overview of 1996-2001 IEP PWT Calibration Process

Overview of 1996-2001 IEP PWT Calibration Process

Presentation Transcript

The IEP Process Assessment

The IEP Process

The Calibration Process

Massachusetts IEP Process

Indiana IEP Overview

Massachusetts IEP Process

Supporting the IEP Process

Navigating the iep process

The IEP Process

The IEP Process

The IEP Process

IEP Development Overview

Understanding the IEP Process

Early carbon market 1996-2001

Understanding the IEP Process

Overview of Instrument Calibration

The IEP Process

The IEP Process

IEP Process

The IEP Process

PHS Guideline 1996-2001