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Rail Freight Commodity Models: A First Generation Effort in Iowa

Rail Freight Commodity Models: A First Generation Effort in Iowa. Presented at the: Second Symposium Innovations in Freight Demand Modeling & Data Improvement SHRP2 Strategic Highway Research Program Washington, D.C. USA October 21-22, 2013 Iowa DOT with Parsons Brinckerhoff. Outline.

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Rail Freight Commodity Models: A First Generation Effort in Iowa

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  1. Rail Freight Commodity Models: A First Generation Effort in Iowa Presented at the: Second Symposium Innovations in Freight Demand Modeling & Data Improvement SHRP2 Strategic Highway Research Program Washington, D.C. USA October 21-22, 2013 Iowa DOT with Parsons Brinckerhoff

  2. Outline • Evolution of Iowa DOT Activities • Statewide Traffic Model • Interest in Truck & Rail Commodity Models • Rail Commodity Architecture • Confidential Rail Waybill in Iowa • FAF3 to County Processing of Commodity Flows • Rail Freight Modeling • Applicability to States, MPOs and Decision Makers

  3. Evolution of Iowa DOT Activities

  4. History of Statewide Modeling in Iowa • First Generation Traffic Model • Developed 2005-2007 • Focused on Auto and Truck Traffic • Applied for Planning, Engineering & Safety Studies • Resource for MPO and RPA (Regional Planning Affiliation) Modeling (the DOT serves nine MPOs) • Known as iTRAM • Second Generation Statewide Model • In progress 2012-2014 • Provides an update to the 2007 traffic model • Begins an emphasis on freight and commodity movements

  5. Iowa’s Central Location

  6. iTRAM Traffic Analysis Zones (1,951)

  7. Interest in Commodity Flow Issues • Need for Commodity Flow Models • Estimate Freight Rail Capacity Needs • Serve Passenger Rail Models • Use in Business Decision Making • New Warehouse, Distribution Center Location • Short Line Railroad Planning • Rail Ownership Changes • Study Partners • Iowa DOT: Offices of Systems Planning and Rail • Federal Railroad Administration

  8. One Suggested Reporting Metric of iTRAM Freight Commodity Model Iowa Corn Ton-Miles by Rail LUPA/2012

  9. iTRAMFreight Commodity Architecture

  10. Sequencing of Activities in iTRAM Update • Prepare Comprehensive Model Architecture • Traffic Model Update • Truck Model Update • Rail Commodity Models • Interface between the “Moving Parts” • Focus of this Presentation is Rail Commodity • Data Inventory & Processing • Model Development Issues

  11. Freight Flows by Mode * - unit of measure is thousand tons ** - does not include through trips Source: FHWA FAF3.4, Iowa, Table KT_BYMODE, Year 2011

  12. Architecture Highlights (Rail) • Rail Models produce both Rail and Truck Demand • Network Rail Assignment Deliverables Include: • Freight Rail Assignment • Truck Trip Tables (to and from rail heads) • Approach must be Iowa-centric • Investigate observed rail commodity flows • Address agriculture goods movements, including a variety of exports and import of fertilizer and other. • Develop future flows of rail commodities

  13. Confidential Rail Waybill

  14. STB Confidential Rail Waybill • Review of the Surface Transportation Board (STB) Carload Waybill Sample • Complete file (900 character) compared to the public use version (247 character) • Restricted distribution but used by many states for state transportation plans • Tabulations by origin-destination and Surface Transportation Commodity Code (STCC) • From/To Iowa • Through Movements • Rail Network Assignment of Waybill Data • Oak Ridge National Laboratory (ORNL) rail network • County to county flows

  15. Quick Summary of Waybill • Coverage: All U.S. railroads that terminate more than 4,500 revenue carloads must participate • Sample size based on number of carloads on waybill. • In Iowa BNSF (48%) and UP (40%) dominate • Contents of Waybill • Paperwork (waybill) for moving the shipment • Commodity type and weight (Surface Transportation Commodity Code) • Number and type of freight cars for shipment • Type of move • Routing information • Origin and termination freight stations • Railroads used and interchange locations between railroads • Origin-Destination • Standard Point Location Code (SPLC) • State and county (FIPS) • Bureau of Economic Analysis (BEA) areas • Revenue • Expansion factor

  16. STB Class I Railroads plus Iowa Interstate RR

  17. National Class I Rail Network

  18. Mapping the Waybill Sample • Develop national coordinate system • GIS projection • Miles/degree latitude-longitude at Des Moines • Create assignment network from ORNL rail network • ESRI shapefile to assignable network • Replace lat-long with national coordinates • Impedance based on ORNL main line class variable • Move waybill into workable database format • Origin/termination county, Canadian province or Mexican state • County centroid coordinates • Locate nearest rail nodes to county centroids for selected waybill records • Assign selected waybill records onto network

  19. Iowa Waybill Total Annual Tons

  20. Iowa Rail Exports: Food Products

  21. Trailer/Container on Flatcar to Iowa Interchanges

  22. Iowa Rail Exports: Farm Products

  23. Next Steps • Detailed rail network inside Iowa • Locate points where commodities are loaded onto network (originating and trans-shipment) • Add link and node details (ownership, track rights, tracks, travel times, signaling, interline junctions) • Validate against waybill routings • Clean up national network and national zone system • Eliminate extraneous links • Compatible to detailed Iowa link and node variables • Disaggregate to Iowa TAZs • Iowa employment • 2007 Economic Census • Future flows

  24. FAF3 Processing to Counties

  25. FAF3 Disaggregation to Counties • Match counties to FAF3 regions • 3143 counties including Hawaii and Alaska • Renumbered counties and FAF3 regions • Relate types of employment to the origins and destinations of SCTG category commodity flows • Develop county as share of FAF3 region allocation factors • Balance FAF3 regional flows to counties

  26. Base County Employment Data • Bureau of Economic Analysis • Largely developed from state unemployment insurance reporting (form ES-202) • Employment not covered by unemployment insurance added by BEA • Reported by two digit North American Industry Classification System (NAICS) at county level • County Business Patterns • Derived from census business establishment surveys and federal administration records • Subject to data suppression when individual firms can be identified • Reported by six digit NAICS but data suppression increases with added detail

  27. Commodity-Employment Regressions: Fuel Oils (SCTG 18)

  28. Three Sets of Commodity Flow Tables • Annual county to county domestic flows by mode and commodity • Need modes other than rail for mode choice analyses • Four modes – truck, rail, water, and multimodal – and forty-three commodities • 165 commodity flow tables produced of 172 possible • Annual foreign region to county import flows by mode and commodity • Annual county to foreign region export flows by mode and commodity 3143 counties 3143 counties 8 Regions 3143 counties

  29. Rail Freight Modeling

  30. Network Coding Elements

  31. Model Components: Base Year and Future Commodity Flow Tables • Annual base year rail commodity flow tables built from Iowa Carload Waybill Sample • Two digit STCC commodity code (max of 38 commodities) • Compare against FAF3 • BEA economic areas, counties, points of entry, major generators within Iowa with rail access • Four sets of tables defined by movement • Base and future year commodity flow tables (all modes) built from FAF3 • Base: reallocated from FAF3 zones to BEA areas/counties, etc. • Future: IPF base tables using FAF3 growth estimates

  32. Model Components: Commodity Mode Shares • Estimation data set by commodity • Observed flows • Carload Waybill Sample • FAF3 commodity flow tables • Cost to ship commodity by mode per ton per mile • Network skimmed and scaled distances • Application within state • New commodity source or consumption location • Added or removed intermodal facility

  33. Iowa Processed Food (SCTG 7):Rail Domestic Shipment Origins

  34. Iowa Processed Food (SCTG 7):Rail Domestic Shipment Destinations

  35. Iowa Processed Food (SCTG 7):Truck Domestic Shipment Destinations

  36. Iowa Animal Feed (SCTG 4):Rail Domestic Shipment Destinations

  37. Iowa Alcoholic Beverages (SCTG 8):Rail Domestic Shipment Destinations

  38. Cereal Grain (SCTG 2) Shipments from O’Brien County (Tons 1000s)

  39. O’Brien County Iowa Grain Flows and Ethyl Alcohol Manufacturing Employees

  40. O’Brien County Iowa Grain Flows and Farm Product Wholesalers Employees

  41. Rail Domestic Coal Tons

  42. Rail Domestic All Commodity Tons

  43. Rail Domestic All Commodity Tons

  44. Screen Line Locations Screen Line 2 Screen Line 1 Screen Line 3

  45. Total Commodity (Tons 1000s) Screen Line Crossings

  46. Major Tasks Remaining • Repeat FAF3 disaggregation for 2040 • Finalize commodity tables • Rail network for assignment • Clean up ORNL network outside Iowa • Add waterways as pseudo rail mode • Incorporate detailed Iowa rail network • Rail access points inside detailed zones • Mode choice model development and implementation • Highway versus rail/highway versus rail • Rail versus water • Assignment procedure and export of truck portion of truck-rail flows • Package final product in selected software

  47. Applicability to States, MPOs and Decision Makers

  48. Uses of the Iowa Rail Commodity Model • Summary statistics: Rail ton-miles by commodity within Iowa, base and future. • What if Analysis: • Test placement of a new truck-rail intermodal or mega-warehouse/distribution center. • Test the viability of a new short line railroad. • Rail ownership changes.

  49. Transferability • May not be readily transferable to smaller scale geographies such as MPOs or corridors. • Scale of MPO may preclude accuracy since the disaggregation process from county to TAZ depends on local employment or land use data. • At state or regional scales, the iTRAM rail freight commodity concept is expected to be transferable • Local knowledge is required in the adapting process (CWS) • While very much a “work in progress”, the iTRAM rail freight model is expected to advance the practice of freight modeling nationwide.

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