• ♦Manual Notice 2019-1
• ►Preface
• ►1. Planning and Programming
  • ►1. Needs Identification
    • ♦Overview
    • ♦10100: Identify project need and scope
    • ►10110: Perform site visit
  • ►2. Project Authorization
    • ♦Overview
    • ♦10200: Prepare cost estimate
    • ♦10210: Obtain approval of PLAN authority
    • ♦10215: Project File of Record
    • ♦10220: Obtain project specific Minute Order, if required
  • ►3. Compliance with Planning Requirements
    • ♦Overview
    • ♦10300: Evaluate compliance with planning documents
    • ♦10310: Identify and review related studies
    • ♦10320: Identify area/regional goals and plans
    • ♦10330: Identify corridor plan development needs
    • ♦10340: Partnership Plan Review/Coordination
    • ♦10350. Identify funding alternative or feasibility - economics, value capture, sustainability
    • ♦10360. Institutionalization of Coordination and Partnerships in Project Development
  • ►4. Study Requirements Determination
    • ♦Overview
    • ♦10400: Review scope, cost, and staff requirements of project development
    • ♦10410: Determine need for feasibility (route/corridor) study
    • ♦10420: Determine if State Implementation Plan requirements apply
    • ♦10430: Obtain traffic data
    • ♦10440: Identify multimodal and intermodal connections
    • ♦10450: Determine conformity with Congestion Management Process requirements
    • ♦10460: Evaluate inclusion of High Occupancy Vehicle/High Occupancy Toll lanes
    • ♦10470: Evaluate major project feasibility
    • ♦10480: Evaluate railroad corridor preservation
  • ►5. Design and Construction Funding Identification
    • ♦Overview
    • ♦10500: Identify potential design and construction funding
    • ♦10510: Prepare and execute project funding agreements
    • ♦10520: DEVELOP Authority
    • ♦10530: CONSTRUCT Authority
    • ♦10540: Place project in Transportation Improvement Program (TIP)
    • ♦10550: Develop Statewide Transportation Improvement Program (STIP)
    • ♦10560: Place project in one-year letting schedule
• ►2. Preliminary Design
  • ►1. Preliminary Design Concept Conference
    • ♦Overview
    • ♦20100: Conduct a Preliminary Design Concept Conference
    • ♦20110: Analysis of environmental impacts and mitigation
    • ♦20120: Right of way determination
  • ►2. Data Collection/Preliminary Design Preparation
    • ♦Overview
    • ♦20200: Conduct early coordination with stakeholders
    • ♦20210: Prepare and execute additional agreements
    • ♦20220: Review traffic data
    • ♦20230: Obtain right of entry
    • ♦20240: Obtain related data, plans, studies and reports
    • ♦20250: Obtain information on existing utilities
    • ♦20260: Obtain traffic crash data
    • ♦20270: Obtain hydraulic studies
    • ♦20280: Obtain geospatial data
    • ♦20290: Perform other surveys
  • ►3. Public Meeting(s)
    • ♦Overview
    • ♦20300: Conduct public meeting
    • ♦20310: Revise design based on public input
  • ►4. Preliminary Schematic
    • ♦Overview
    • ♦Alternative Selection
    • ♦Geometrics
    • ♦Update cost estimates
    • ♦20400: Evaluate corridor alternatives
    • ♦20410: Perform preliminary Level of Service analysis
    • ♦20420: Evaluate route alternatives
    • ♦20430: Initiate railroad coordination
    • ♦20440: Identify requirements for crossing navigable waters
    • ♦20450: Evaluate geometric alternatives
    • ♦20460: Develop typical sections
    • ♦20470: Prepare Landscape and Aesthetics Assessment
    • ♦20480: Develop bicycle and pedestrian accommodation
    • ♦20490: Update cost estimates
  • ►5. Geometric Schematic
    • ♦Overview
    • ♦20500: Develop preferred geometric alignment
    • ♦20505: Perform preliminary geotechnical surveys
    • ♦20510: Prepare pavement design report
    • ♦20515: Refine typical sections
    • ♦20520: Consider impacts on historic structures
    • ♦20525: Perform detailed Level of Service analysis
    • ♦20530: Determine guide signing and operational controls
    • ♦20535: Submit requests for new or revised access points to interstate highways
    • ♦20540: Perform preliminary planning for commercial motor vehicle inspection stations
    • ♦20545: Perform preliminary planning for bridges
    • ♦20550: Establish preliminary retaining or noise wall locations
    • ♦20555: Perform hydrologic study
    • ♦20560: Perform preliminary hydraulic analysis/design
    • ♦20565: Determine right of way and access needs
    • ♦20570: Identify existing utilities on geometric schematic
    • ♦20575: Identify potential utility conflicts
    • ♦20580: Establish preliminary illumination locations
    • ♦20585: Evaluate Intelligent Transportation System (ITS) needs
    • ♦20590: Conduct constructability review
    • ♦20595: Update project scope
  • ►6. Value Engineering
    • ♦Overview
    • ♦20600: Conduct Value Engineering (VE) study
    • ♦20610: Revise design based on Value Engineering Study findings
  • ►7. Geometric Schematic Approval
    • ♦Overview
    • ♦20700: Circulate geometric schematic for district review
    • ♦20710: Review geometric schematic with stakeholders
    • ♦20720: Design exceptions or waivers
    • ♦20730: Revise geometric schematic based on public input
    • ♦20740: Obtain approval of final geometric schematic
• ►3. Environmental
  • ►1. Preliminary Environmental Issues
    • ♦Overview
    • ♦30100: Public involvement
    • ♦30110: Develop and implement scoping process
    • ♦30120: Conduct meeting with affected property owners
    • ♦30130: Collect environmental data
    • ♦30140: Identify potential Section 4(f) property
    • ♦30150: Evaluate impacts on waterways and floodplains
  • ►2. Interagency Coordination/Permits
    • ♦Overview
    • ♦30200: Perform early coordination with review/resource agencies
    • ♦30210: Determine environmental permit requirements
  • ►3. Environmental Documentation
    • ♦Overview
    • ♦30300: Determine type of environmental document to prepare
    • ♦30310: Prepare “Purpose and Need” statement
    • ♦30315: Direct and Indirect Effects and Cumulative Impacts
    • ♦30320: Conduct natural resources study
    • ♦30325: Conduct cultural resources study
    • ♦30330: Prepare Section 4(f) Evaluation
    • ♦30335: Perform hazardous materials assessment and investigation
    • ♦30340: Prepare socioeconomic and environmental justice analyses
    • ♦30345: Determine right of way relocation impacts
    • ♦30350: Analyze existing environment
    • ♦30355: Conduct noise analysis
    • ♦30360: Conduct air quality analysis
    • ♦30365: Determine project’s environmental consequences
    • ♦30370: Prepare landscape recommendations
    • ♦30375: Prepare description of project alternatives
    • ♦30380: Prepare exhibits for environmental documentation
    • ♦30385: Stake areas of potential impact
    • ♦30390: Prepare environmental mitigation plans
    • ♦30395: Notice of Availability
  • ►4. Public Hearing
    • ♦Overview
    • ♦30400: Opportunity for public hearing
    • ♦30410: Public hearing
    • ♦30420: Respond to public hearing comments
  • ►5. Environmental Clearance
    • ♦Overview
    • ♦30500: Obtain environmental clearance
• ▼4. Right of Way and Utilities
  • ►1. Right of Way and Utility Data Collection
    • ♦Overview
    • ♦40100: Perform preliminary right of way research
    • ♦40110: Locate existing utilities
    • ♦Subsurface Utility Engineering (SUE)
  • ►2. Right of Way Map and Property Descriptions
    • ♦Overview
    • ►40200: Prepare right of way map and property descriptions
  • ►3. Right of Way Appraisals and Acquisition
    • ♦Overview
    • ♦40300: Obtain contractual agreements with local public agencies
    • ♦40310: Perform advance acquisition for qualified parcels
    • ♦40320: Obtain authority for right of way project release
    • ♦40330: Identify impediments to parcel acquisition
    • ♦40340: Prepare and execute joint-use/multiple-use agreements
    • ♦40350: Appraise parcels
    • ♦40360: Implement right of way acquisition process
    • ♦40370: Implement relocation assistance program
    • ♦40380: Dispose of improvements
    • ♦40390: Prepare right of way and encroachment certifications
  • ►4. Utility Adjustments
    • ♦Overview
    • ♦40400: Coordinate utility adjustment plans
    • ♦40410: Prepare and execute utility adjustment agreements
    • ♦40420: Utility owners adjust facilities
    • ♦40430: Prepare utility clearance certifications
    • ♦40440: Reimburse utility owners for eligible adjustment costs
    • ♦40450: Non-reimbursable utility cost
• ►5. PS&E Development
  • ►1. Design Conference
    • ♦Overview
    • ♦50100: Obtain additional or updated data
    • ♦50110: Conduct Design Concept Conference
  • ►2. Begin Detailed Design
    • ♦Overview
    • ♦50200: Plan sequence of construction
    • ♦50210: Develop conceptual detour/road closure plan
    • ♦50220: Obtain miscellaneous permits
    • ♦50230: Design environmental mitigation details
    • ♦50240: Develop Environmental Permits, Issues and Commitments (EPIC) sheet
    • ♦50250: Review data collection needs
    • ♦50260: Refine hydrologic study
    • ♦50270: Prepare stream crossing hydraulics
    • ♦50280: Prepare hydraulic report
  • ►3. Final Alignments/Profiles
    • ♦Overview
    • ♦50300: Design final controlling conditions
  • ►4. Roadway Design
    • ♦Overview
    • ♦50400: Prepare cross sections and compute earthwork
    • ♦50410: Review right of way requirements
    • ♦50420: Design landscape/aesthetic plans
    • ♦50430: Develop plan and profile sheets
    • ♦50440: Design pedestrian walkways and bicycle transportation facilities
    • ♦50450: Design miscellaneous details
    • ♦50460. Review project for design exceptions/waivers
    • ♦50470: Prepare hazardous material remediation plan
    • ♦50480: Develop Exhibit A for railroad agreements
  • ►5. Operational Design
    • ♦Overview
    • ♦50500: Design illumination
    • ♦50510: Design Intelligent Transportation System (ITS)
    • ♦50520: Design signalization plan
    • ♦50530: Design signing and pavement markings
  • ►6. Bridge Design
    • ♦Overview
    • ♦50600: Perform final geotechnical surveys
    • ♦50610: Prepare preliminary bridge layouts
    • ♦50620: Prepare bridge details
    • ♦50630: District reviews bridge plans
    • ♦50640: Submit Exhibit B to railroad company
  • ►7. Drainage Design
    • ♦Overview
    • ♦50700: Perform hydraulic design for culverts and storm drains
    • ♦50710: Perform hydraulic design for pump station(s)
    • ♦50720: Prepare culvert and storm drain details
    • ♦50730: Prepare pump station details
    • ♦50740: Design Stormwater Pollution Prevention Plan
  • ►8. Retaining/Noise Walls & Miscellaneous Structures
    • ♦Overview
    • ♦50800: Prepare retaining and/or noise wall layouts
    • ♦50810: Prepare retaining and/or noise wall plans and details
    • ♦50820: Prepare plans for miscellaneous structures
  • ►9. Traffic Control Plan
    • ♦Overview
    • ♦50900: Finalize sequence of construction
    • ♦50910: Design detour roadways
    • ♦50920: Obtain approval of road closure/detour plans
    • ♦50930: Prepare details for temporary signing, striping, and pavement marking
    • ♦50940: Develop contract requirements
    • ♦50950: Review traffic control plan
  • ►10. PS&E Assembly/Design Review
    • ♦Overview
    • ♦51000: Conduct environmental reevaluation
    • ♦51010: Prepare PS&E package
    • ♦51020: Conduct district PS&E review
    • ♦51030: Assemble project plans
    • ♦50140: District conducts final agreement/permit and public interest statement reviews
    • ♦51050: Collect outside, additional funding based on Advance Funding Agreements
    • ♦51060: District performs final review of PS&E
    • ♦51070: Submit PS&E to Design Division
    • ♦51080: Obtain approval for program overruns
• ►6. Letting
  • ►1. Final Processing and Letting
    • ♦Overview
    • ♦60100: Perform financial clearance analysis
    • ♦60110: Prepare and review proposal
    • ♦60120: Funding and approval of PS&E
    • ♦60130: Release final proposal
    • ♦60132: Advertise request for bids
    • ♦60134: Provide earthwork construction cross section data to contractors (if requested)
    • ♦60136: Amend issued proposal document or plans
    • ♦60140: Conduct prebid conference
    • ♦60150: Conduct bid opening
    • ♦60152: Tabulate and review bids
    • ♦60154: Award contract
    • ♦60156: Conduct preconstruction conference
    • ♦60160: Notify the public in advance of construction
    • ♦60170: Store and retain project records
• ♦A. Glossary
• ►B. Financing and Construction of Transportation Projects
  • ♦1. Participation Chart
  • ♦2. Definitions

Chapter 4: Right of Way and Utilities

Anchor: #i1004550

Section 1: Right of Way and Utility Data Collection

Anchor: #i1004557

Overview

This section describes determining existing right of way (ROW) limits, restrictions to State ROW ownership, ownership of the properties that abut State ROW, and ownership of any properties to be acquired. It also includes identification of owners of any utilities that are in the existing ROW or on the proposed ROW. The Project Manager, Regional ROW Project Delivery Workforce, District ROW Utility Coordinator, District Mapping Coordinator, and District Survey Coordinator manage the work described in this section.

Above ground utility information may be obtained by standard land surveying methods.

Underground utility locations may be determined by conventional survey methods, newer technologies, or by Subsurface Utility Engineering (SUE). The SUE process combines surveying, civil engineering, and geophysics to accurately identify, characterize, and map underground utilities.

To avoid design issues and delays that create cost overruns, the designer should AVOID, MITIGATE, or ADJUST for project utility conflicts. Early design and planning phases should include subsurface site characterization of various geologic, environmental, and utility features.

This section includes the following tasks:

40100. Perform preliminary right of way research

40110. Locate existing utilities

Anchor: #i1004592

40100: Perform preliminary right of way research

Description. Determining existing right of way (ROW) limits, restrictions to State ownership (e.g. easements), and actual property owners is a necessary first step in the identification of property interests. Property records and other records maintained by local public entities should be researched for this information. This preliminary ROW data can be used in refining a preferred alignment to minimize ROW impacts to properties. Schematics for public view can also show data collected, such as names of property owners and approximate locations of existing ROW limits.

A utility owner may occupy compensable property that may be affected by the proposed project ROW. The utility may own an easement or fee title to the property they occupy, which may determine who would pay for any necessary utility adjustments. As another example, a local governmental entity may own an easement, which would otherwise appear to be privately held (e.g., a drainage canal).

ROW maps may be obtained from TxDOT records. Tax assessor maps may be obtained from city, county, and appraisal district offices. Deed and easement records may be obtained from the County Clerk’s office.

Pertinent Project Types. All projects except preventive maintenance and restoration

Responsible Party. Project manager and Regional ROW Project Delivery Workforce

Subtasks.

Anchor: #ITCXATBO
• Coordinate with District ROW Mapping, Survey, and Utility Coordinators to manage specialized tasks and identify information needed.
Anchor: #VDMSJKRH
• Establish existing ROW.
Anchor: #DGSFGQDK
• Research abutting property ownership.
Anchor: #DLMWPMLP
• Perform site reconnaissance to confirm maps of utilities that may be associated with adjacent facilities.
Anchor: #TJYUJPMU
• Determine method for subsurface location survey, if required.

Helpful Suggestions.

Anchor: #BSQNHBAP
• Identify property owners as soon as possible in the preliminary design phase of project development.
Anchor: #VYOFSHVH
• Identify property interests owned by members of the Texas Legislature. These interests must be acquired by condemnation.
Anchor: #DIOMCDKX
• As the project develops, identification of the rights that individuals, or entities, have in property ownership becomes important.
Anchor: #LKCLMPXT
• Perform a field survey of existing ROW limits. This is useful in developing schematics for projects in urban areas with limited ROW. See Task 20290: Perform other surveys.

Critical Sequencing.

Anchor: #KOUGMTGS
• This work should be done before developing a schematic for the preferred alignment.
Anchor: #YPVMPQMT
• Permission for right of entry or other written evidence of permission must always be obtained before entering private property. See Task 20230: Obtain right of entry.

Authority.

Anchor: #QCSUFFJA
• Acquisition of Property, Transportation Code §203.51 et seq.
Anchor: #GUXFRJQJ
• Ineligibility for Other Offices; Interest in Contracts, Texas Constitution, Article 3 §18

Resource Material.

Anchor: #XYTBEJGO
• Online Manuals: Right of Way Manual Volume 1 ‑ Preliminary Procedures for the Authority to Proceed.

Anchor: #i1004708

40110: Locate existing utilities

Description. This task involves physically locating, marking, and surveying the physical features of utilities. If utility maps are not available, knowledge and survey of the aboveground structure types can indicate the complexity.

This task identifies utilities specifically and determines elevations as well as horizontal positions. Examples might include manhole covers, gas pipes, overhead lines, and fiber-optic cables. There are standard location methods and newer technologies used for underground utility locating survey, such as subsurface utility engineering (SUE), metal detection (MD), ground-penetrating radar (GPR), and electromagnetic line location (EMLL). Topographic surveys may be adequate for project locations with few underground utilities (i.e., in rural areas).

Undocumented utilities may have been installed without a record of their location. EMLL or GPR should be used to mark locations on the ground followed by invasive potholing or excavation to determine the utility type. GPR can detect non-metallic targets without tracer wire.

Within the public right of way, a department employee or a contractor working under contract with the Texas Department of Transportation are not required to place a “locate request” through One‑Call Board of Texas (OCB) prior to excavation work. Outside of right of way, a 48-hour notice to the One‑Call system is required.

SUE is an established method with large cost benefits on individual projects. SUE may be needed in urban areas, critical locations along a rural project, or locations near a Class A underground facility that is used to store, produce, transmit, or distribute electrical energy, gases, petroleum products, steam, or any telecommunications transmission.

SUE is a non-destructive utility investigation to accurately locate, identify, and map underground utilities. It is an interdisciplinary service, involving professional engineers, geologists, and licensed land surveyors. They can provide comprehensive and reliable information in the format of the client’s choosing. SUE is a professional service resulting in signed and sealed deliverables.

See Subsurface Utility Engineering (SUE) at the end of Section 1 for the five major SUE activities: scope of work, designating, locating, data management, and conflict analysis. Four SUE Quality Levels (QL-A, QL-B, QL-C, and QL-D) are summarized.

Pertinent Project Types. Projects with potential utility conflicts

Responsible Party. Project manager and Regional ROW Project Delivery Workforce

Subtasks.

For topographic surveying:

Anchor: #WQQLYMNT
• Coordinate with District ROW Survey and Utility Coordinators.
Anchor: #SYBBIXSR
• Locate, log, and survey visible features of utilities.
Anchor: #FTHJKKXH
• To confirm and survey locations of strategic subsurface features, it may be necessary to “pothole” or excavate down to the utility after using MD, GPR, or EMLL.
Anchor: #XMECGMDM
• Mark and label locations of subsurface utilities on the ground with stakes, laths, or other means.
Anchor: #OHKEJYMI
• Survey utility locations.
Anchor: #YIBJDQNF
• Consult with the District ROW Utility Coordinator to determine the need for SUE.
Anchor: #KLNTXGIQ
• Contact the Contract Services Office to prepare a work authorization for the SUE engineering services.

Helpful Suggestions.

Anchor: #QTHEQYDK
• Prepare utility and survey data in appropriate format (i.e., electronic, MicroStation, ArcGIS, EOPAK, etc.).
Anchor: #JQSTHPRI
• Develop a list of all utilities to monitor their status.
Anchor: #HLGRUJWR
• Obtain department engineering and survey services information from Contracts and Purchasing Division - Contract Services office.
Anchor: #BQGHRGSX
• Carefully assess the costs for SUE versus its benefits. For some projects, costs for SUE can be relatively small compared to overall savings.
Anchor: #NMVICSAP
• Work closely with utility owners. They will often supply copies of maps and as-built construction plans, and also do the potholing. It is in their interest to avoid relocating the utility and avoid damage by construction activities.
Anchor: #YVQUOKKO
• Typically, utility owners are responsible for relocating their own facilities at their own expense; therefore, it is advisable to meet with and inform utility owners of the proposed construction and potential for conflicts early in the planning phase. Smaller utility owners may not be able to budget for relocations without extensive notice. See Task 40400: Coordinate utility adjustment plans.
Anchor: #ERPQLMCU
• Manhole covers and other obstructions may need to be adjusted for resurfacing projects.

Critical Sequencing.

Anchor: #OASWKTAU
• While developing preliminary or geometric schematics, there may be times when it is preferable to obtain some of the utility location data (i.e., for potentially very costly conflicts). Otherwise, most of this data is collected before beginning detailed design.
Anchor: #WUDRXRAH
• Utility data is needed before establishing final alignments of the roadway and related features (e.g., storm drains, other excavation work) so that the roadway design engineer may avoid or design around some conflicts.

Authority.

Anchor: #TAIYFPYU
• Utilities Code Chapter 251 ‑ Underground Facility Damage Prevention and Safety
Anchor: #WCNLWOMP
• Utility Adjustment, Relocation, or Removal 43 TAC §21.21 et seq.
Anchor: #XEBULKEX
• Utility Accommodation: 43 TAC §21.31 et seq.
Anchor: #NQEOITLX
• Federal projects, Accommodation of Utilities, 23 CFR 645 Subpart B
Anchor: #OLXQFUCD
• Utility Relocation Prepayment Funding Agreements 43 TAC §21.921 et seq.

Resource Material.

Anchor: #WSTPPCEN
• One‑Call Board of Texas ( OCB)
Anchor: #BPKTTMWL
• TxDOT ROW Utility Manual
Anchor: #AVYRCVRK
• FHWA Office of Infrastructure, Design ‑ Utility Program SUE
Anchor: #BWACVXYI
• American Society of Civil Engineers (ASCE), “Standard Guideline for the Collection and Depiction of Existing Subsurface Utility Data”, 2003
Anchor: #MQHQURCJ
• TxDOT Negotiated Contracts Policy Manual, Chapter 6, Engineering, Surveying, and Architectural Negotiated Contracts

Anchor: #i1004925

Subsurface Utility Engineering (SUE)

SUE providers should be competent and knowledgeable, experienced, insured, timely, and have the equipment and financial capacity to provide the service. Software systems should be compatible with those of the department. Major activities involved in SUE are:

Anchor: #WFQQLGVL
• Scope of Work: A project-specific work plan for scope of work, level of service vs. risk allocation, schedule, and delivery method. SUE provider and project sponsor agree on work plan describing the SUE work to be performed.
Anchor: #VQJXDAGK
• Designating: Surface geophysical techniques to determine the existence and horizontal position of subsurface utilities. Above ground surface markers (stakes, flags, etc.) or on the ground surface marking (paint) mark the location.
Anchor: #GIMKGYGK
• Locating: Process of exposing precise horizontal and vertical position, size, and configuration of subsurface utilities.
Anchor: #WEOKUJIW
• Data Management: Process of locating, surveying, and designating information and transferring it into project GIS files, plans, or CAD system.
Anchor: #BUELSAQJ
• Conflict Analysis: Using a conflict matrix to do an engineering evaluation and compare designating information with proposed plans to inform all stakeholders of potential conflicts, possible resolutions, and costs to resolve.

Anchor: #SLRIUBMR
• Quality Level D (QL-D). The most basic level of information. It comes from existing utility records or oral recollections. Its usefulness should be confined to project planning and route selection activities.
Anchor: #LWFSCRSV
• Quality Level C (QL-C). It involves surveying visible aboveground utility facilities, such as manholes, valve boxes, posts, etc., and correlating this information to Quality Level D. Its usefulness should be confined to rural projects where utilities are not prevalent, or are not too expensive to repair or relocate.
Anchor: #XLBLASOQ
• Quality Level B (QL-B). Using appropriate surface geophysical methods to determine the existence and approximate horizontal position of subsurface utilities. This two-dimensional horizontal mapping information is usually sufficient to accomplish preliminary engineering goals. Decisions can be made on where to place storm drainage systems and other design features in order to avoid conflicts with existing utilities. Slight adjustments in the design can produce substantial cost savings by eliminating utility relocations.
Anchor: #IWSKHKWD
• Quality Level A (QL-A). Precise vertical and horizontal location of subsurface utilities obtained by exposure and subsequent measurement, usually at a specific point. Information provides the highest level of accuracy presently available. When surveyed and mapped, precise plan and profile information is available for use in making final design decisions. The use of nondestructive digging equipment, particularly vacuum excavation, eliminates damage to underground utility facilities traditionally caused by backhoes.