Appendix

Merrimack Valley Metropolitan Planning

Organization

Federal Fiscal Years 2018 to 2022

Transportation Improvement Program

Appendix Draft Report

April 2017

Prepared by the Merrimack Valley Planning Commission

This document was prepared by the Merrimack Valley Planning Commission under Contracts #95416, #MA-80-010 and #MA-80-011 with MassDOT and with the assistance of the Merrimack Valley Regional Transit Authority, MassDOT, the Federal Highway Administration and the Federal Transit Administration.
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Table of Contents

Appendices ....................................................................................................................... 3
Appendix A Other Regional Priority Bridge Projects ...................................................... 4
Appendix B Other Regional Priority Roadway Projects.................................................. 6
Appendix C Transportation Evaluation Criteria Summary .............................................. 9
Appendix D Sample Project Evaluation Worksheet ....................................................... 17
Appendix E Greenhouse Gas (GHG) Monitoring and Evaluation................................... 23
FFYs 2018 to 2022 Projects GHG Tracking Summary ................................... 29
Appendix F Completed Highway and Transit Projects GHG Summary.......................... 81
Appendix G List of Acronyms ......................................................................................... 85
Appendix H Key to Maps Showing Locations of Transportation Projects....................... 93

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Appendices

Appendix A and B: Other Regional Priorities

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Appendix A Other Regional Priority Bridge Projects

Merrimack Valley Metropolitan Planning Organization FFY 2018-2022 Transportation Improvement Program Implementing Agency: MassDOT

Bridges That Do Not Fit into Fiscally Constrained Targets and therefore have No Funding Available in Any Year:

ID

Location

Project Description

Highway

District

Estimated Total Project Cost

602322

Ames.

Amesbury - Bridge Replacement,

A-07-008, Oak Street Over the B&M Railroad (Abandoned Line)

4

$1,000,000

And.

Andover - Rehab. Bridge (A-09-001) Route 28 (North Main Street) Over the Shawsheen River

4

605418

And.

Andover - Bridge Preservation,

A-09-028, Chandler Road over I-93

4

$3,450,000

606522

And.

Andover - Bridge Rehabilitation,

A-09-036, I-495 over ST 28 (SB), A-09-037, I-495 over B&M and MBTA, A-09-041, I-495 over ST 28

(NB)

4

$22,706,948

605304

Hav.

Haverhill- Bridge Replacement,

H-12-007 & H-12-025, Bridge Street (SR 125) over the Merrimack River and the Abandoned B&M RR (Pro-

posed Bikeway)

4

$63,437,220

604839

Law.

Lawrence – Bridge Replacement, L-04-027, Lowell Street over B&M Railroad

4

$4,473,000

Law.

Lawrence - Bridge Rehabilitation, L-04-042, South Union Connector over South Street

4

Draft FFYs 2018-2022 MVMPO TIP April 2017 4

Appendix A Other Regional Priority Bridge Projects (Continued)

Merrimack Valley Metropolitan Planning Organization FFY 2018-2022 Transportation Improvement Program Implementing Agency: MassDOT

Bridges That Do Not Fit into Fiscally Constrained Targets and therefore have No Funding Available in Any Year:

ID

Location

Project Description

Highway

District

Estimated Total Project Cost

Nbypt.

Newburyport - Bridge (N-11-002) State Route 113 (High Street) Over Railroad

4

Nbypt.

Newburyport - Bridge (N-11-014) State Route 1A (High Street) over US 1

4

607115

Nbypt.

Newburyport - Bridge Repairs,

N-11-015, Washington St. over US 1

4

$1,400,000

Draft FFYs 2018-2022 MVMPO TIP April 2017 5

Appendix B Other Regional Priority Roadway Projects

Merrimack Valley Metropolitan Planning Organization

FFYs 2018-2022 Transportation Improvement Program By Town

Roadway Projects That Do Not Fit into Fiscally Constrained Targets and therefore have No Funding Available in Any Year:

ID

Location

Project Description

District

Estimated Total Project Cost

608336

Andover

Andover – Reconstruction on Route

133 (Lowell Street), from Lovejoy Road to Route 28 (North Main Street) TEC = 11.00

4

$7,245,000

607708

Andover/ Lawrence

Andover - Lawrence - Resurfacing and related work on Route 28

TEC = 5.22

4

$1,062,600

606721

Boxford

Boxford - Reconstruction of Route

133 (Washington Street) from North Andover town line to Main Street TEC = 5.60

4

$5,172,164

Boxford

Boxford Reconstruction of Route 97 from Georgetown to Topsfield (2 miles)

4

$3,785,000

607540

Boxford

Boxford - Border to Boston Trail

TEC = 3.32

4

$4,174,500

604950

George.

Georgetown – Park & Ride lot con- struction at I-95 and Route 133 In- terchange TEC = 3.78

4

$3,276,594

Haverhill

Haverhill -Intersection Improvements

Route 110 and Elliot Way

4

Haverhill

Haverhill – Widen Route 97 (Broad- way) from Computer Drive to Forrest Street

4

Draft FFYs 2018-2022 MVMPO TIP April 2017 6

Appendix B Other Regional Priority Roadway Projects (Continued)

Roadway Projects That Do Not Fit into Fiscally Constrained Targets and therefore have No Funding Available in Any Year:

ID

Location

Project Description

District

Estimated Total Project Cost

607711

Haverhill

Haverhill - Resurfacing and related work on Route 125 (from N. And. TL to Boston Rd) TEC = 5.80

4

$1,062,600

608761

Haverhill

Haverhill – Intersection Reconstruc- tion on Route 108 (Newton Road) at Route 110 (Kenoza Avenue and Amesbury Road) TEC = 8.03

4

$1,944,000

608788

Haverhill

Haverhill – Reconstruction of North

Avenue TEC = 8.00

4

$12,200,000

608721

Haverhill

Haverhill – Corridor Improvements on Water Street (Route 97/113), from Ginty Boulevard/Mill Street to

Lincoln Boulevard/Riverside Avenue

TEC = 7.98

4

$8,050,000

Haverhill

Haverhill – Buttonwoods Trail

4

$2,000,000

602339

Haverhill

Haverhill-Historic Waterfront Walk- way Phase II (Construction)

4

$3,110,184

Lawrence/ North Andover

Lawrence - North Andover - Recon- struction of Route 114 from South Union St. in Lawrence to Rt. 125 (Andover St.) in North Andover

TEC = 12.8

4

$16,300,000

Draft FFYs 2018-2022 MVMPO TIP April 2017 7

Appendix B Other Regional Priority Roadway Projects (Continued)

Roadway Projects That Do Not Fit into Fiscally Constrained Targets and therefore have No Funding Available in Any Year:

ID

Location

Project Description

District

Estimated Total Pro- ject Cost

Law- rence

Lawrence - Construct Multi-use Trail along old M&L Branch ROW from Me- thuen line to Merrimack Street

4

Law- rence

Lawrence - Reconstruct Merrimack Street from Parker Street to South Un- ion Street TEC = 9.68

4

Methuen

Methuen – Reconstruction of Route 110 from Burnham Road to Woodland

Street

4

Newbury- port

Newburyport -Route 1 Rotary Reconfig- uration

4

608029

Newbury- port

Newburyport - Intersection Improve- ments Route 1 at Merrimac Street TEC

= 7.22

4

$2,400,000

North

Andover

North Andover - Machine Shop Village improvements

4

North

Andover

North Andover – Reconstruction of Mass. Ave. and Sidewalks (from Os- good St. to I-495)

4

605694

North

Andover

North Andover - Resurfacing and relat- ed work Route 125 TEC = 7.45

4

$7,910,592

North

Andover

North Andover - Signals and turn lanes at Mass Ave. and I-495 NB and SB Ramps

4

602202

Salisbury

Salisbury - Reconstruction of Route 1 (Lafayette Road) TEC = 8.10

4

$6,330,819

Draft FFYs 2018-2022 MVMPO TIP April 2017 8

Appendix C Transportation Evaluation Criteria Summary

Draft FFYs 2018-2022 MVMPO TIP April 2017 9

Appendix C Transportation Evaluation Criteria Summary

ID#

Project Description

Project

Cost in

1000s

AADT

Linear Lane Miles

Condition

Mobility

Safety & Security

Community Effects & Support

Land Use & Economic

Development

Environmental Effects

Total TEC Score (2018-

2022)

OPP

Lawrence –North Andover - Reconstruction of Rt. 114 from I-495 to Rt. 125 (Ando- ver St.)

30,000

5.2

3.00

3.00

3.00

1.80

1.50

0.50

12.80

TIP

608095

North Andover – Recon- struction of Rt. 114 from Rt.

125 (Andover St.) to Stop & Shop

$14,950

30,000

4.8

2.50

2.75

2.67

1.00

1.50

0.75

11.17

OPP

608336

Andover – Rt. 133 reconst. Lovejoy Road to Shawsheen Square (inc. Shawsheen Square)

$7,245

12,773

4.4

2.00

2.75

2.00

1.00

1.75

1.50

11.00

Draft FFYs 2018-2022 MVMPO TIP April 2017 10

Appendix C Transportation Evaluation Criteria Summary (Cont.)

ID#

Project Description

Project

Cost in

1000s

AADT

Linear Lane Miles

Condition

Mobility

Safety & Security

Community Effects & Support

Land Use & Economic

Development

Environmental Effects

Total TEC Score (2018-

2022)

OPP

Lawrence – Merrimack St. (Parker St. to South Union St.)

9,654

0.6

2.50

1.25

1.33

1.6

2.25

0.75

9.68

OPP

602202

Salisbury – Reconstruction of Route 1 (Lafayette Road)

$6,331

12,147

4.8

1.50

2.00

2.00

0.60

1.5

0.5

8.10

OPP

608761

Haverhill - Intersection Im- provements at Rt. 110 / Rt.

108

$1,944

NA

NA

1.00

1.75

1.33

1.20

1.75

1.00

8.03

OPP

608788

Haverhill - Reconstruction of North Ave. from Main St. to NH stateline

$12,200

13,172

4

2.50

1.75

1.00

2.00

0.00

0.75

8.00

OPP

608721

Haverhill - Corridor Im- provements on Water St. from Ginty Blvd / Mill St. to Lincoln Ave./ Riverside Ave.

$8,050

20,200

2

1.05

1.75

1.33

1.40

1.25

0.75

7.98

Draft FFYs 2018-2022 MVMPO TIP April 2017 11

Appendix C Transportation Evaluation Criteria Summary (Cont.)

ID#

Project Description

Project

Cost in

1000s

AADT

Linear Lane Miles

Condition

Mobility

Safety & Security

Community Effects & Support

Land Use & Economic

Development

Environmental Effects

Total TEC Score (2018-

2022)

TIP

606159

North Andover – Intersec- tion Improvements Route

125 at Mass. Ave.

$3,640

30,284

NA

1.50

1.75

2.00

1.20

0.75

0.75

7.95

OPP

605694

North Andover – Route 125

Resurfacing and related work

$8,255

20,400

9.4

2.50

1.00

1.00

1.20

1.25

0.50

7.45

OPP

608029

Newburyport – Intersection Improvements Rt. 1 at Mer- rimac St.

$2,400

24,850

NA

2.00

0.50

2.67

0.80

1.00

0.25

7.22

TIP

608027

Haverhill – Bradford Rail

Trail extension

$1,088

NA

NA

0.50

1.50

1.00

2.40

1.25

0.50

7.15

TIP

602418

Amesbury – Reconstruction of Elm Street

$11,600

12,436

3.4

1.50

0.50

1.33

0.40

1.50

0.75

5.98

Draft FFYs 2018-2022 MVMPO TIP April 2017 12

Appendix C Transportation Evaluation Criteria Summary (Cont.)

ID#

Project Description

Project

Cost in

1000s

AADT

Linear Lane Miles

Condition

Mobility

Safety & Security

Community Effects & Support

Land Use & Economic

Development

Environmental Effects

Total TEC Score (2018-

2022)

TIP

605020

Salisbury – Multi-use Trail Ex- tension (Border to Boston Trail), includes new bridge S-

02-004

$5,919

NA

NA

1.00

1.25

1.33

0.80

0.75

0.75

5.88

OPP

607711

Haverhill – Resurfacing and related work Rt. 125

$1,063

19,224

4.1

2.00

0.75

1.00

0.80

0.75

0.50

5.80

OPP

606721

Boxford - Route 133 (North

Andover TL to Main St.)

$5,172

6,149

2.9

1.50

1.00

1.00

0.60

0.50

1.00

5.60

OPP

607710

Salisbury – Resurfacing and related work Route 1A

$2,300

11,411

8.0

2.00

0.75

1.00

0.60

0.75

0.50

5.60

OPP

607708

Andover / Lawrence – Route

28 resurfacing and related work

$1,063

19,728

4.0

2.50

0.25

0.67

0.80

0.50

0.50

5.22

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Appendix C Transportation Evaluation Criteria Summary (Cont.)

ID#

Project Description

Project

Cost in

1000s

AADT

Linear Lane Miles

Condition

Mobility

Safety & Security

Community Effects & Support

Land Use & Economic

Development

Environmental Effects

Total TEC Score (2018-

2022)

TIP

607542

Georgetown – Square to By- field (Northern) section of Bor- der to Boston Trail

$3,876

NA

NA

0.50

1.25

0.67

0.80

1.50

0.50

5.22

TIP

607541

Georgetown- Boxford– south of Square to Georgetown Road (Southern) section of Border to Boston Trail

$1,735

NA

NA

0.50

1.25

0.67

0.80

1.25

0.75

5.22

TIP

605753

Groveland – Route 97 (Parker

Rd. to Gardner St.)

$3,600

13,500

1.8

1.50

0.50

1.00

0.40

1.00

0.50

4.90

TIP

608298

Groveland Community Trail

$1,765

NA

NA

0.50

1.25

0.67

1.20

1.00

0.25

4.87

TIP

608809

Lawrence – North Andover resurfacing of Route 114

$8,722

32,900

2.8

1.50

0.25

0.67

0.80

0.50

0.25

3.97

Draft FFYs 2018-2022 MVMPO TIP April 2017 14

Appendix C Transportation Evaluation Criteria Summary (Cont.)

ID#

Project Description

Project

Cost in

1000s

AADT

Linear Lane Miles

Condition

Mobility

Safety & Security

Community Effects & Support

Land Use & Economic

Development

Environmental Effects

Total TEC Score (2018-

2022)

OPP

604950

Georgetown – Park & Ride

Construction at I-95 and Route

133 Interchange

$3,277

NA

NA

0.00

1.75

0.33

0.20

0.75

0.75

3.78

OPP

607540

Boxford – section of Border to

Boston Trail

$4,175

NA

NA

0.50

1.00

0.67

0.40

0.50

0.25

3.32

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Appendix D Sample Project Evaluation Worksheet

Draft FFYs 2018-2022 MVMPO TIP April 2017 17

Sample Project Evaluation Worksheet

Merrimack Valley Planning Commission and MassDOT Evaluation Criteria

Project: Andover - Reconstruct Rt. 133 from Lovejoy Rd to Rt. 28 Project #: 608336

Project Cost: $7,245,000 AADT: 12,773 Distance: 2.2 Linear Lane Miles: 4.4

Condition

Score

Additional Comments

A. Magnitude of pavement condition improvement.

2

PNF indicates longitudinal & lateral pavement cracking, utility patch failure, shoving and rutting of pavement along route.

B. Magnitude of improvement of other infrastructure.

2

Current shoulder width 0' to 2', project to increase shoulder width to 4' or 5' for bikes and > safety for pe- destrians, upgrade signals, drainage improvements

Condition Average

2.0

Mobility

Score

Additional Comments

A. Effect on magnitude and duration of congestion.

3

Adding left turn lanes at intersection at MA-133/

Lovejoy /Greenwood. Also Rt 133/ Rt 28 improvements

B. Effect on travel time and connectivity / access.

2

Widening shoulder, realigning Rt 133/ Lovejoy and add- ing left turn lanes.

C. Effect on other modes using the facility.

3

Widening shoulder for bicycles, sidewalks on both sides.

D. Effect on regional and local traffic.

3

Widening shoulder, adding left turn lanes. Additional connector I-495 to I-93. NHS roadway.

Mobility Average

2.75

Draft FFYs 2018-2022 MVMPO TIP April 2017 18

Sample Project Evaluation Worksheet (Cont.)

Project: Andover - Reconstruct Rt. 133 from Lovejoy Rd to Rt. 28 Project #: 608336

Safety and Security

Score

Additional Comments

A. Effect on crash rate compared to State average.

3

PNF Rt 133/ Lovejoy / Greenwood has a crash rate of

.94, District 4 average is .78 and the arterial between two signalized intersections is 3.8, Avg. is 2.12. Have had 1 pedestrian with injuries and 1 bicycle crash. HSIP eligible per MassDOT "Crash Cluster" 2 intersections.

B. Effect on bicycle and pedestrian safety.

2

Widening shoulder for bicycles, sidewalks on both sides.

C. Effect on transportation security and evacuation routes/

1

Is an NHS roadway. Is an evacuation route.

Safety and Security Average

2.00

Community Effects and Support

Score

Additional Comments

A. Residential effects: ROW, noise, aesthetics, cut through traffic, and other.

2

For the most part all within ROW. General appearance and less noise from better pavement conditions.

B. Public, local government, legislative, and regional sup- port.

2

C. Effect on service to minority or low-income neighbor- hoods. (Title VI and EJ)

0

Not Title VI or EJ area.

D. Other impacts / benefits to minority or low-income neighborhoods. (Title VI and EJ).

0

Not Title VI or EJ area.

E. Effect on development and redevelopment of housing

1

Community Effects and Support Average

1.00

Draft FFYs 2018-2022 MVMPO TIP April 2017 19

Sample Project Evaluation Worksheet (Cont.)

Project: Andover - Reconstruct Rt. 133 from Lovejoy Rd to Rt. 28 Project #: 608336

Land Use and Economic Development

Score

Additional Comments

A. Business effects; ROW, noise, traffic, parking, freight access, other.

2

Improve access to existing businesses.

B. Sustainable development effects. Consistent with

MVPGS.

2

Access to MVPGS Rolling Green Regional PDA. Improves transportation choice (walk/bike) for area res- idents.

C. Consistent with regional land-use and economic devel- opment plans and PGS.

2

Access to MVPGS Rolling Green Regional PDA. Improves transportation choice (walk/bike) for area res- idents.

D. Effect on job creation.

1

Should provide better access to Brickstone Square

State PDA.

Land Use and Economic Development Average

1.75

Draft FFYs 2018-2022 MVMPO TIP April 2017 20

Sample Project Evaluation Worksheet (Cont.)

Project: Andover - Reconstruct Rt. 133 from Lovejoy Rd to Rt. 28 Project #: 608336

Environmental Effects

Score

Additional Comments

A. Air quality / Climate effects. GHG Impact Description – Assumed Nominal Decrease in Emissions from Other Improvements

2

Adding bike lanes and sidewalks. Reducing delays at intersections.

B. Water quality/supply effects; wetlands effects.

1

There will be deep sump catch basins

C. Historic and cultural resources effects.

3

Shawsheen Village Historic District

D. Effect on wildlife habitat and endangered species.

0

Not endangered species habitat area.

Environmental Effects Average

1.5

Overall Project TEC score

11.00

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Appendix E Greenhouse Gas (GHG) Monitoring and Evaluation

Draft FFYs 2018-2022 MVMPO TIP April 2017 23

2018-2022

Transportation Improvement Program Greenhouse Gas Monitoring and Evaluation Introduction

This section summarizes the greenhouse gas (GHG) impacts that are anticipated to result from the projects that are included in this FFY 2018 – 2022 Transportation Improvement Program (TIP). It includes a summary of the state laws and policies that call for reducing greenhouse gas in order to mitigate global climate change, actions that are being taken to respond to these state laws and policies, the role of regional planning and TIP development in reducing GHG emission and tracking these reductions, and the projected GHG emission impacts from the projects programmed in the TIP.

State Policy Context

The Global Warming Solutions Act (GWSA), which was signed into law in August 2008, makes Massachusetts a leader in setting aggressive and enforceable GHG reduction targets, and implementing policies and initiatives to achieve these targets. In keeping with the law, on December 29, 2010 the Massachusetts Executive Office of Energy and Environmental Affairs (EOEEA), in consultation with other state agencies and the public, released the Massachusetts Clean Energy and Climate Plan for 2020. In December 2014 the Department of Environmental Protection issued new regulations that require Metropolitan Planning Organizations to quantify impacts from project investments, track progress towards reductions, and consider impacts in the prioritization of GHG impacts from project investments. The targets for overall statewide GHG emissions are:

By 2020: 25 percent reduction below statewide 1990 GHG emission levels, and

By 2050: 80 percent reduction below statewide 1990 GHG emission levels

GreenDOT Policy

The transportation sector is the single largest emitter of greenhouse gases, accounting for over a third of GHG emissions, and therefore the transportation sector is a key focus of the Clean Energy and Climate Plan. MassDOT’s approach to supporting the implementation of the plan is set forth in its GreenDOT Policy Directive, a comprehensive sustainability
initiative that sets three principal objectives:

Draft FFYs 2018-2022 MVMPO TIP April 2017 24

Reduce greenhouse gas (GHG) emissions. MassDOT will achieve this by taking GHG emissions into account in all of its responsibilities, from strategic planning to project design and construction and system operations;

Promote the healthy transportation modes of walking, bicycling, and public transit. MassDOT will achieve this by pursuing multi-modal, “complete streets” design standards; providing choice in transportation services; and by working with MPOs and other partners to prioritize and program a balance of projects that serve drivers, pedestrians, bicyclists, and public transit riders, and

To support smart growth development. MassDOT will achieve this by working with MPOs and other partners to make transportation investments that enable denser, smart growth development patterns that support reduced GHG emissions.

GreenDOT Policy and Metropolitan Planning Organizations

The Commonwealth’s thirteen metropolitan planning organizations (MPOs) are integrally involved in helping to achieve the GreenDOT goals and supporting the GHG reductions mandated under the GWSA. The MPOs are most directly involved in helping to achieve the GHG emissions reductions under the second goal – to promote healthy transportation modes through prioritizing and programming an appropriate balance of roadway, transit, bicycle and pedestrian investments – and assist in the third goal by supporting smart
growth development patterns through the creation of a balanced multi-modal transportation system. This will be realized through the transportation goals and policies espoused in the Regional Transportation Plans (RTPs), the major projects planned in the RTPs, and the
mix of new transportation projects that are programmed and implemented through the TIPs. The GHG tracking and evaluation processes enable the MPOs to identify the anticipated GHG impacts of the planned and programmed projects, and also to use GHG impacts as a criterion in prioritizing transportation projects.

Regional GHG Tracking and Evaluation in RTPs

MassDOT coordinated with MPOs and regional planning agency (RPA) staffs on the implementation of GHG tracking and evaluation in development of each MPO’s 2035
RTPs, which were adopted in September 2011. This collaboration has continued for the
MPO’s 2040 RTPs and FFYs 2018-2022 TIPs.
Working together, MassDOT and the MPOs have attained the following milestones:

Modeling and long-range statewide projections for GHG emissions resulting from the transportation sector. Using the Boston MPO’s regional model and the

statewide travel demand model for the remainder of the state, GHG emissions

Draft FFYs 2018-2022 MVMPO TIP April 2017 25

were projected for 2021 no-build and build conditions, and for 2035 no-build and build conditions.

All of the MPOs included these GHG emission projections in their RTPs, along with a discussion of climate change and a statement of MPO support for reducing GHG emissions as a regional goal.

Project-Level GHG Tracking and Evaluation in the Transportation Improvement

Program

It is also important to monitor and evaluate the GHG impacts of the transportation projects that are programmed in the MPO Transportation Improvement Programs (TIP). The TIP includes both the larger, regionally-significant projects from the RTPs, which have already had their aggregate GHG impacts calculated and reported in the RTP, as well as smaller projects that are not included in the RTP but that may nevertheless have impacts on GHG emissions. The principal objective of this tracking is to enable the MPOs to evaluate expected GHG impacts of different projects and to use this information as a criterion for prioritizing and programming projects in future TIPs.
In order to monitor and evaluate the GHG impacts of TIP projects, MassDOT and the MPOs have developed the following approach for identifying anticipated GHG impacts and quantifying GHG impacts of projects, when appropriate, through the TIP. Different types of projects will have different anticipated GHG emissions impacts. The different project categories are outlined on the next two pages with this region’s project tracking sheets on the third page.

Calculation of GHG Impacts for TIP Projects

The Office of Transportation Planning at MassDOT provided the spreadsheets that are used for determining Congestion Management and Air Quality (CMAQ) eligibility. These spreadsheets require the same inputs as the CMAQ calculations, and have been adapted to provide CO2 impacts. The data and analysis required for these calculations is available from functional design reports that should be submitted for projects that would produce a measurable GHG impact.

Projects with Quantified Impacts

o RTP Projects - Major capacity expansion projects would be expected to have a significant impact on GHG emissions. However, these projects are included in the RTPs and analyzed using the statewide model or Boston regional model, which would reflect their GHG impacts. Therefore, no

independent TIP calculations are required.

Draft FFYs 2018-2022 MVMPO TIP April 2017 26

o Quantified Decrease in Emissions - Projects that would be expected to produce a measurable decrease in emissions. The approach for calculating these impacts is described below. These projects should be categorized in the following manner:

Quantified Decrease in Emissions from Traffic Operational Improvement - An intersection reconstruction or signalization project that is projected to reduce delay and congestion.

Quantified Decrease in Emissions from Pedestrian and Bicycle Infrastructure - A shared-use path that would enable increased walking and biking and decreased vehicle-miles traveled (VMT).

Quantified Decrease in Emissions from New/Additional Transit Service - A bus or shuttle service that would enable increased transit ridership and decreased VMT.

Quantified Decrease in Emissions from a Park and Ride Lot - A park-and-ride lot that would enable increased transit ridership/ increased ridesharing and decreased VMT.

Quantified Decrease in Emissions from Bus Replacement A bus replacement that would directly reduce GHG emissions generated by that bus service.

Quantified Decrease in Emissions from Complete Streets

Improvements

Improvements to roadway networks that include the addition of bicycle and pedestrian accommodations where none were present before.

Quantified Decrease in Emissions from Other Improvement

o Quantified Increase in Emissions – Projects that would be expected to produce a measurable increase in emissions.

Projects with Assumed Impacts

o No Assumed Impact/Negligible Impact on Emission - Projects that do not change the capacity or use of a facility (e.g. a resurfacing project that restores a roadway to its previous condition, or a bridge rehabilitation/replacement that restores the bridge to its previous condition) would be assumed to have no GHG impact.

o Assumed Nominal Decrease in Emissions - Projects that would be expected to produce a minor decrease in emissions that cannot be calculated with any precision. Examples of such projects include roadway

Draft FFYs 2018-2022 MVMPO TIP April 2017 27

repaving or reconstruction projects that add a new sidewalk or new bike lanes. Such a project would enable increased travel by walking or bicycling, but there may be no data or analysis to support any projections of GHG impacts. These projects should be categorized in the following manner:

Assumed Nominal Decrease in Emissions from Sidewalk

Infrastructure

Assumed Nominal Decrease in Emissions from Bicycle

Infrastructure

Assumed Nominal Decrease in Emissions from Sidewalk and

Bicycle Infrastructure

Assumed Nominal Decrease in Emissions from Intelligent Transportation Systems (ITS) and/or Traffic Operational Improvements

Assumed Nominal Decrease in Emissions from Other

Improvements

o Assumed Nominal Increase in Emissions - Projects that would be expected to produce a minor increase in emissions that cannot be calculated with any precision.

Regional Greenhouse Gas Impact Summary Tables for FFYs 2018 – 2022 TIP

The following tables summarize the calculated quantitative and assumed qualitative impacts of the projects included in the regional FFYs 2018 – 2022 TIP by year.

Draft FFYs 2018-2022 MVMPO TIP April 2017 28

FFYs 2018 to 2022 Projects GHG Tracking Summary

Draft FFYs 2018-2022 MVMPO TIP April 2017 29

2018 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project

Description ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)▼

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

606159

NORTH ANDOVER- INTERSECTION & SIGNAL IMPROVEMENTS AT ROUTE 125 & MASSACHUSETTS AVENUE

$ 3,640,038

Quantified

482,727

Quantified De- crease in Emis- sions from Traf- fic Operational Improvement

$ 3,640,038

605020

SALISBURY - MULTI- USE TRAIL EXTENSION (BORDERS TO BOSTON TRAIL)

$ 5,918,500

Quantified

18,631

Quantified De- crease in Emis- sions from Bi- cycle and Pe- destrian Infra- structure

$ 5,918,500

Draft FFYs 2018-2022 MVMPO TIP April 2017 30

2018 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project

Description ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)▼

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

605306

HAVERHILL- SUPERSTRUCTURE REPLACEMENT, H-12-

039, I-495 (NB & SB) OVER MERRIMACK RIVER

$ 31,600,000

Qualitative

No assumed im- pact/negligible impact on emis- sions

$ 79,000,000

AC yr 1 of 4. Sum Year 1

Cost =

$31,600,000. Total Project Cost =

$79,000,000

608809

LAWRENCE - NORTH ANDOVER - RESURFACING AND RELATED WORK ON ROUTE 114

$ 8,722,560

Qualitative

No assumed im- pact/negligible impact on emis- sions

$ 8,722,560

607737

AMESBURY- SALISBURY- TRAIL CONNECTOR @ I-95

$ 2,574,805

Quantified

3,972

Quantified De- crease in Emis- sions from Bi- cycle and Pe- destrian Infra- structure

$ 2,574,805

2018 Total GHG emissions

505,330

Draft FFYs 2018-2022 MVMPO TIP April 2017 31

2019 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

602418

AMESBURY- RECONSTRUCTION OF ELM STREET

$ 7,207,810

Quantified

1,335

Quantified De- crease in Emis- sions from Com- plete Streets Pro- ject

$12,064,000

AC yr 1 of 2. Sum

Year 1 Cost =

$7,207,810. Total

Project Cost =

$12,064,000

608298

GROVELAND- GROVELAND COMMUNITY TRAIL, FROM MAIN STREET TO KING STREET

$ 1,835,573

Quantified

2,710

Quantified De- crease in Emis- sions from Bi- cycle and Pe- destrian Infra- structure

$ 2,672,677

MV0001

FLEX TO FTA FOR MVRTA NEW BUS UPGRADE TO CLEANER FUEL BUSES

$ 698,541

Qualitative

Qualitative Decrease in Emissions

$ 698,541

Draft FFYs 2018-2022 MVMPO TIP April 2017 32

2019 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

605306

HAVERHILL- SUPERSTRUCTURE REPLACEMENT, H-12

039, I-495 (NB & SB) OVER MERRIMACK RIVER

$ 21,000,000

-

Qualitative

No assumed im- pact/negligible impact on emis- sions

$79,000,000

AC yr 2 of 4. Sum

Year 2 Cost =

$21,000,000.

Total Project Cost

= $79,000,000

608792

NEWBURYPORT - IMPROVEMENTS AT NOCK MIDDLE SCHOOL & MOLIN UPPER ELEMENTARY SCHOOL (SRTS)

$ 1,593,600

Qualitative

No assumed im- pact/negligible impact on emis- sions

$ 1,593,600

2019 Total GHG Emissions

4,045

Draft FFYs 2018-2022 MVMPO TIP April 2017 33

2020 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

602418

AMESBURY- RECONSTRUCTION OF ELM STREET

$ 4,856,190

Quantified

Quantified De- crease in Emis- sions from Complete Streets Project

$ 12,064,000

AC yr 2 of 2. Quantified de- crease in emis- sions shown in FFY 2019 =

1,335 kg/yr.

608027

HAVERHILL - BRADFORD RAIL TRAIL EXTENSION, FROM ROUTE 125

TO RAILROAD STREET

$ 1,176,240

Quantified

422

Quantified De- crease in Emis- sions from Bi- cycle and Pe- destrian Infra- structure

$ 1,176,240

Draft FFYs 2018-2022 MVMPO TIP April 2017 34

2020 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

605306

HAVERHILL- SUPERSTRUCTURE REPLACEMENT, H-12-

039, I-495 (NB & SB) OVER MERRIMACK RIVER

$ 21,000,000

Qualitative

No assumed im- pact/negligible impact on emis- sions

$ 79,000,000

AC yr 3 of 4. Sum

Year 3 Cost =

$21,000,000.

Total Project Cost

= $79,000,000

607541

GEORGETOWN- BOXFORD- BORDER TO BOSTON TRAIL, FROM GEORGETOWN ROAD TO WEST MAIN STREET

$ 1,874,028

Quantified

2,667

Quantified De- crease in Emis- sions from Bi- cycle and Pe- destrian Infra- structure

$ 1,874,028

2020 Total GHG emissions

3,089

Draft FFYs 2018-2022 MVMPO TIP April 2017 35

2021 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

605753

GROVELAND- RECONSTRUCTION OF ROUTE 97 (SCHOOL STREET) FROM PARKER STREET TO GARDNER STREET

$ 4,049,510

Qualitative

No assumed impact/negligibl e impact on emissions

$ 4,049,510

608095

NORTH ANDOVER- CORRIDOR IMPROVEMENTS ON ROUTE 114, BETWEEN ROUTE

125 (ANDOVER STREET) & STOP & SHOP DRIVEWAY

$ 6,290,405

Qualitative

Qualitative Decrease in Emissions

$ 16,816,717

Not yet enough information generate an es- timate.

AC Year 1 of 3.

Draft FFYs 2018-2022 MVMPO TIP April 2017 36

2021 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Impact

Description ▼

Total

Cost ▼

Additional

Information▼

605306

HAVERHILL- SUPERSTRUCTURE REPLACEMENT, H-

12-039, I-495 (NB & SB) OVER MERRIMACK RIVER

$ 5,400,000

Qualitative

No assumed impact/negligibl e impact on emissions

$ 79,000,000

AC yr 4 of 4.

608494

NEWBURY - NEWBURYPORT - SALISBURY - RESURFACING AND RELATED WORK ON ROUTE 1

$ 11,854,752

Qualitative

No assumed impact/negligibl e impact on emissions

$ 11,854,752

607542

GEORGETOWN- NEWBURY- BORDER TO BOSTON TRAIL (NORTHERN GEORGETOWN TO BYFIELD SECTION)

$ 4,341,120

Quantified

15,682

Quantified De- crease in Emis- sions from Bi- cycle and Pe- destrian Infra- structure

$ 4,341,120

2021 Total GHG emissions

15,682

Draft FFYs 2018-2022 MVMPO TIP April 2017 37

2022 Merrimack Valley Region MPO Transportation Improvement Program

Highway Projects GHG Tracking Summary

Mass DOT/ FTA Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)

GHG Im- pact De- scription

Total

Cost ▼

Additional

Information▼

608095

NORTH ANDOVER- CORRIDOR IMPROVEMENTS ON ROUTE 114, BETWEEN ROUTE

125 (ANDOVER STREET) & STOP & SHOP DRIVEWAY

$ 10,467,929

Quantified

RTP project included in the statewide model.

$ 16,816,717

RTP project In- cluded in the statewide model. AC Year 2 of 3.

$10,467,929 = Sum of Year 2. Total Pro- ject Cost =

$16,816,717

2022 Total GHG emissions

Draft FFYs 2018-2022 MVMPO TIP April 2017 38

2018 Merrimack Valley Region Transit GHGs

Mass DOT/ MassDOT/FTA FTA Project

Project ID ▼ Description ▼

Total Pro- grammed Funds ▼

GHG GHG CO2

Analysis Impact GHG

Type ▼ (kg/yr)▼ Impact Description ▼

Total

Cost ▼

5307 ►

RTD0005637

ADA Operating

Expense

$ 1,413,370

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,413,370

5307 ►

RTD0005638

Preventive Maintenance Expense

$ 3,152,905

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 3,152,905

5307 ►

RTD0005639

Refurbish Engine/ Trans 8 Model Year

2012 Buses

$ 264,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 264,000

5307 ►

RTD0005642

Operating

Assistance

$ 643,010

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 643,010

5307 ►

RTD0005643

Short Range

Transit Planning

$ 100,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 100,000

5307 ►

RTD0005656

Replace 6 Model Yr

2004 Buses

Delivery 2018

$ 2,689,500

Quantified

15,661

Quantified Decrease in Emissions from Bus Replacement

$ 2,689,500

Draft FFYs 2018-2022 MVMPO TIP April 2017 39

2018 Merrimack Valley Region Transit GHGs

Mass DOT/ MassDOT/FTA FTA Project

Project ID ▼ Description ▼

Total Pro- grammed Funds ▼

GHG GHG CO2

Analysis Impact GHG

Type ▼ (kg/yr)▼ Impact Description ▼

Total

Cost ▼

5307 ►

RTD0005662

Replace 1 Model Yr

2013 Support

Vehicle

$ 47,750

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 47,750

Other NFA ► RTD0005665

Newburyport In- termodal Transit Facility Year 1

$ 2,500,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 5,000,000

Draft FFYs 2018-2022 MVMPO TIP April 2017 40

2019 Merrimack Valley Region Transit GHGs

MassDOT/ FTA

Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)▼

GHG

Impact Description

Total

Cost ▼

5307 ► RTD0005640

Preventive Maintenance Expense

$ 3,250,095

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 3,250,095

5307 ► RTD0005641

ADA Operating

Expense

$ 1,456,420

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,456,420

5307 ► RTD0005644

Short Range Transit

Planning

$ 100,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 100,000

5307 ► RTD0005645

Operating

Assistance FY 2020

$ 780,250

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 780,250

5307 ► RTD0005657

Purchase 3 new 35' buses delivery 2019

$ 1,344,750

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,344,750

Draft FFYs 2018-2022 MVMPO TIP April 2017 41

2019 Merrimack Valley Region Transit GHGs

MassDOT/ FTA

Project ID ▼

MassDOT/FTA Project De- scription ▼

Total Pro- grammed Funds ▼

GHG Analysis Type ▼

GHG CO2

Impact

(kg/yr)▼

GHG

Impact Description

Total

Cost ▼

5307 ► RTD0005663

Replace 1 Model Yr

2013 Support

Vehicle

$ 49,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 49,000

Other NFA ► RTD0006082

Newburyport In- termodal Transit Facility Year 2

$ 2,500,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 5,000,000

Draft FFYs 2018-2022 MVMPO TIP April 2017 42

2020 Merrimack Valley Region Transit GHGs

MassDOT/ MassDOT/FTA FTA Project

Project ID ▼ Description ▼

Total Pro- grammed Funds ▼

GHG GHG CO2 GHG

Analysis Impact Impact Description

Type ▼ (kg/yr)▼ ▼

Total

Cost ▼

5307 ►

RTD0005646

Preventive

Maintenance

$ 3,347,595

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 3,347,595

5307 ►

RTD0005647

Non Fixed Route

ADA Para Serv

$ 1,500,110

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,500,110

5307 ►

RTD0005648

Short RangeTransit

Planning

$ 100,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 100,000

5307 ►

RTD0005649

Operating

Assistance

$ 924,950

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 924,950

5307 ►

RTD0005658

Replace 3 Model Yr

2007 buses delivery 2020

$ 1,371,645

Quantified

7,830

Quantified Decrease in Emissions from Bus Replacement

$ 1,371,645

Draft FFYs 2018-2022 MVMPO TIP April 2017 43

2021 Merrimack Valley Region Transit GHGs

Mass DOT MassDOT/FTA

/FTA Project

Project ID ▼ Description ▼

Total Pro- grammed Funds ▼

GHG GHG CO2 GHG

Analysis Impact Impact Description

Type ▼ (kg/yr)▼ ▼

Total

Cost ▼

5307 ►

RTD0005653

Preventive

Maintenance

$ 3,448,020

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 3,448,020

5307 ►

RTD0005654

Non Fixed Route

ADA Para Serv

$ 1,545,115

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,545,115

5307 ►

RTD0005655

Short RangeTransit

Planning

$ 100,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 100,000

5307 ►

RTD0005659

Replace 9 Model Yr

2009 buses delivery 2021

$ 4,197,240

Quantified

24,356

Quantified Decrease in Emissions from Bus Replacement

$ 4,197,240

5307 ►

RTD0005660

Operating

Assistance

$ 1,017,450

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,017,450

5307 ►

RTD0005661

Replace 16 Model Yr 2015 vans with new

$ 1,094,560

Quantified

33,516

Quantified Decrease in Emissions from Bus Replacement

$ 1,094,560

Draft FFYs 2018-2022 MVMPO TIP April 2017 44

2022 Merrimack Valley Region Transit GHGs

MassDOT/ MassDOT/FTA FTA Project

Project ID ▼ Description ▼

Total Pro- grammed Funds ▼

GHG GHG CO2 GHG

Analysis Impact Impact Description

Type ▼ (kg/yr)▼ ▼

Total

Cost ▼

5307 ►

RTD0006084

Preventive

Maintenance

$ 3,551,455

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 3,551,455

5307 ►

RTD0006085

Non Fixed Route

ADA Para Serv

$ 1,591,460

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,591,460

5307 ►

RTD0006086

Short RangeTransit

Planning

$ 100,000

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 100,000

5307 ►

RTD0006087

Operating

Assistance

$ 1,047,970

Qualitative

No assumed im- pact/negligible im- pact on emissions

$ 1,047,970

5307 ►

RTD0006088

Replace 6 Model Yr

2011 buses delivery 2022

$ 2,911,200

Quantified

16,237

Quantified Decrease in Emissions from Bus Replacement

$ 2,911,200

Draft FFYs 2018-2022 MVMPO TIP April 2017 45

Amesbury Reconstruction of Elm Street CMAQ Air Quality Analysis

CMAQ Air Quality Analysis Worksheet for Complete Streets Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2019

Merrimack Valley Municipality: Amesbury

# 602418 Reconstruction of Elm Street

Step 1: Calculate New Walk and Bike Miles Traveled:

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A. Facility Length (L):

1.1
Miles
User Input

(blank for default) Default

B Types of Improvements Implemented:

Both
(select Pedestrian, Bicycle, or Both)

B. Service Area Radius for Bicycling (RB):

C. Service Area Radius for Walking (RW):

D. Service Area of Community(ies) for Bicycling (SAB): E. Service Area of Community(ies) for Walking (SAW): F. Land Area of Neighborhoods Served (AN): Popula-

G. tion of Neighborhoods Served (PN):

H. Population Density of Neighborhoods Served (PD):

L * 2RB = SAB L * 2RW = SAW
0.5
0.25
1.13

0.565

11.2
7,137
637
Miles Miles Sq. Miles
Sq. Miles Sq. Miles Persons Persons/Sq. Mile
0.5
0.25

Amesbury Reconstruction of Elm Street CMAQ Air Quality Analysis (Cont.)

M. Baseline Walk Mode Share in Service Area (MSW):

N. Relative Increase in Service Area Bicycle Mode Share from Improvements (BI): O. Relative Increase in Service Area Walk Mode Share from Improvements (WI): P. New Bike Trips (BT): PB * T * MSB * BI = BT

Q. New Walk Trips (WT): PW * T * MSW * WI = WT

R. Average Bike Trip Length (LB):

S. Average Walk Trip Length (LW):

T. New Bike and Walk Miles of Travel (BWM):

Step 2: Calculate the VMT Reduction:

U. Prior Drive Mode Share of New Bike and Walk Trips (MSD):

4.7%
30.0%
7.5%
6
6
2.3
0.7
18
59.0%



Percent Percent Percent
1-Way Trips/Day
1-Way Trips/Day

Miles

Miles
Miles per Day

Percent
59%
30.0%
7.5%
2.3
0.7

V. VMT Reduced per Day (VMTR):

W. VMTR * Operating Days Per Year

BWM * MSD = VMTR
16 * 365 =
11
3,942
Miles per Day
VMTR Per Year
If the Vehicle Miles Traveled Reduction is known enter in the box to the right.

Note: A manual entry of the VMTR will override the calculated cell.


VMTR Per Year

Draft FFYs 2018-2022 MVMPO TIP April 2017 47

Amesbury Reconstruction of Elm Street CMAQ Air Quality Analysis (Cont.)

Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known. Speed Used:
35 MPH
Eastern
2020 Passenger
Summer VOC Factor grams/mile
2020 Passenger
Summer NOx Factor grams/mile
2020 Passenger
Summer CO Factor grams/mile


2020 Passenger
Summer CO2 Factor grams/mile

0.030 0.081 2.095 338.769

Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):





Summer VOC Summer NOx Summer CO Summer CO2

0.1

0.3

8.4

1,335.5


Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Emission

Project

Cost

Emission Reduction

in kg per year

First year cost

per kilogram

Summer

VOC

$1,000,000

/

0.1 =

$8,355,241

Summer

NOx

$1,000,000

/

0.3 =

$3,058,798

Summer

CO

$1,000,000

/

8.4 =

$118,866

Summer

CO2

$1,000,000

/

1,335.5 =

$749

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 48

Amesbury Salisbury Trail Connector at I-95 CMAQ Air Quality Worksheet

CMAQ Air Quality Analysis Worksheet for Bicycle and Pedestrian Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2018

Merrimack Valley Municipality: Amesbury, Salisbury

# 607737 Amesbury Salisbury Trail Connector at I-95

Step 1: Calculate Estimated Reduction in Vehicle Miles Traveled (VMT):

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A Facility Length (L):

B Service Area Radius (R):

C Service Area of Community(ies) (SA):

D Total Land Area of Community(ies) (T):


1.0

1.0

L * 2R = SA 2
42.15
Miles
Miles Sq. Miles Sq. Miles
(Default = 1)

E Service Area % of Community(ies) Land Area (LA): SA / T = LA 4.7%

F. Total Population of Community(ies) (TP):

25,579
Persons

G Population Served by Facility (P): LA * TP = P 1,214

Persons

H Total Number of Households in Community(ies) (HH):

10,501
HH HH

I. Number of Households Served by Facility (HS): LA * HH = HS 498

Persons

J. Total Number of Workers Residing in Community(ies) (W):

13,733
Persons

K Workers Per household (WPHH):

L. Workers in Service Area (WSA):

W / HH = WPHH
HS * WPHH = WSA
1.31
652
Persons

M Population Density of the Service area (PD): P / SA = PD 607 Persons Per Sq. Mile

Draft FFYs 2018-2022 MVMPO TIP April 2017 49

Amesbury Salisbury Trail Connector at I-95 CMAQ Air Quality Worksheet (Cont.)

N If the bicycle and pedestrian commuter mode share is known, enter the percentage at t (BMS)

3.3%
If not, use US Census - American Community Survey data to determine the mode share and enter the percentage. http://www.census.gov/programs-surveys/acs/guidance/estimates.html

O Bike and Ped. Work Utilitarian Trips (BWT): WSA * BMS = BWT 22 One-Way Trips

P Bike and Ped. Non-Work Utilitarian Trips (BNWT): BWT * 1.7 = BNWT 37 One-Way Trips (Latest planning assumptions estimate non-work utilitarian trips to be 1.7 times the work utilitarian.) Step 2: Calculate the VMT Reduction Per Day:

A ((2 * BWT) + (2 * BNWT)) * (0.5* L) = VMTR 58.6 VMTR Per Day


B VMTR * Operating Days Per Year 58.6 * 200 = 11,724 VMTR Per Year If the Vehicle Miles Traveled Reduction is known enter in the box to the right. VMTR Per Year Note: A manual entry of the VMTR will override the calculated cell.


Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known Speed Used:
35 MPH
Eastern
2020 Passenger
2020 Passenger 2020 Passenger 2020 Passenger

Summer VOC Factor grams/mile


Summer NOx FactorSummer CO Factor grams/mile grams/mile

Summer CO2 Factor grams/mile

0.030

0.081

2.095

338.769

Draft FFYs 2018-2022 MVMPO TIP April 2017 50

Amesbury Salisbury Trail Connector at I-95 CMAQ Air Quality Worksheet (Cont.)

Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):





Summer VOC Summer NOx Summer CO Summer CO2

0.4

1.0

25.0

3,971.6

Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Emission Summer VOC Summer NOx Summer CO
Summer CO2
Project
Cost
Emission Reduction in kg per year
/ 0.4 =
/ 1.0 =
/ 25.0 =
/ 3,971.6 =
First year cost per kilogram

$7,523,308

$2,754,233

$107,030

$674

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 51

Georgetown - Boxford Border-to-Boston Trail CMAQ Air Quality Worksheet

CMAQ Air Quality Analysis Worksheet for Bicycle and Pedestrian Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2019

Merrimack Valley Municipality: Georgetown, Boxford

# 607541 Georgetown-Boxford Border to Boston Trail

Step 1: Calculate Estimated Reduction in Vehicle Miles Traveled (VMT):

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A. Facility Length (L):

B. Service Area Radius (R):


2.0

1.0
Miles
Miles Sq.
(Default = 1)

C. Service Area of Community(ies) (SA):

D. Total Land Area of Community(ies) (T):


L * 2R = SA 4
36.5
Miles Sq.
Miles

E. Service Area % of Community(ies) Land Area (LA):

F. Total Population of Community(ies) (TP): Popu-

G. lation Served by Facility (P): LA * TP = P

H. Total Number of Households in Community(ies) (HH):


SA / T = LA 11.0%
16,579

1,817
5,828
Persons
Persons
HH HH

I. Number of Households Served by Facility (HS): LA * HH = HS

J. Total Number of Workers Residing in Community(ies) (W):

K. Workers Per household (WPHH): W / HH = WPHH Work-

L. ers in Service Area (WSA): HS * WPHH = WSA


639
8,647
1.48
948
Persons Persons Persons

M. Population Density of the Service area (PD): P / SA = PD

454 Persons Per Sq. Mile

Draft FFYs 2018-2022 MVMPO TIP April 2017 52

Georgetown - Boxford Border-to-Boston Trail CMAQ Air Quality Worksheet (Cont.)

N. If the bicycle and pedestrian commuter mode share is known, enter the percentage at the right. (BMS)

If not, use US Census - American Community Survey data to determine the mode share and enter the percentage. http://www.census.gov/programs-surveys/acs/guidance/estimates.html
0.8%

O. Bike and Ped. Work Utilitarian Trips (BWT): WSA * BMS = BWT

7 One-Way Trips

P. Bike and Ped. Non-Work Utilitarian Trips (BNWT): BWT * 1.7 = BNWT

12 One-Way Trips
(Latest planning assumptions estimate non-work utilitarian trips to be 1.7 times the work utilitarian.)

Step 2: Calculate the VMT Reduction Per Day:

A. ((2 * BWT) + (2 * BNWT)) * (0.5* L) = VMTR

39.4 VMTR Per Day

B. VMTR * Operating Days Per Year 39.4 * 200 = 7,872 VMTR Per Year

If the Vehicle Miles Traveled Reduction is known enter in the box to the right.

Note: A manual entry of the VMTR will override the calculated cell.

Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known. Speed Used:

35 MPH
VMTR Per Year
Eastern

2020 Passenger Summer VOC Factor grams/mile

0.030


2020 Passenger Summer NOx Factor grams/mile

0.081


2020 Passenger Summer CO Factor grams/mile

2.095




2020 Passenger Summer CO2 Factor grams/mile

338.769

Draft FFYs 2018-2022 MVMPO TIP April 2017 53

Georgetown - Boxford Border-to-Boston Trail CMAQ Air Quality Worksheet (Cont.)

Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):





Summer VOC Summer NOx Summer CO Summer CO2

0.2

0.7

16.8

2,666.9

Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Project

Emission Reduction

First year cost

Emission

Summer

VOC

Cost

/

in kg per year

0.2 =

per kilogram

$7,840,800

Summer

NOx

/

0.7 =

$2,870,465

Summer CO
Summer CO2
/ 16.8 =
/ 2,666.9 =

$111,547

$703

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 54

Georgetown - Newbury Border to Boston Trail CMAQ Air Quality Worksheet

CMAQ Air Quality Analysis Worksheet for Bicycle and Pedestrian Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2020

Merrimack Valley Municipality: Georgetown, Newbury

# 607542 Georgetown-Newbury Border to Boston Trail

Step 1: Calculate Estimated Reduction in Vehicle Miles Traveled (VMT):

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A. Facility Length (L):

B. Service Area Radius (R):

C. Service Area of Community(ies) (SA):

D. Total Land Area of Community(ies) (T):


3.6

1.0

L * 2R = SA 7.2
36.3
Miles Miles Sq. Miles Sq.
Miles
(Default = 1)

E. Service Area % of Community(ies) Land Area (LA):

F. Total Population of Community(ies) (TP): Popu-

G. lation Served by Facility (P): LA * TP = P

H. Total Number of Households in Community(ies) (HH):


SA / T = LA 19.8%
15,088

2,993
5,808
Persons
Persons
HH HH

I. Number of Households Served by Facility (HS): LA * HH = HS

J. Total Number of Workers Residing in Community(ies) (W): K. Workers Per household (WPHH): W / HH = WPHH Work- L. ers in Service Area (WSA): HS * WPHH = WSA


1,152
8,055
1.39
1,598
Persons Persons Persons

M. Population Density of the Service area (PD): P / SA = PD

416 Persons Per Sq. Mile

Draft FFYs 2018-2022 MVMPO TIP April 2017 55

Georgetown - Newbury Border to Boston Trail CMAQ Air Quality Worksheet (Cont.)

N. If the bicycle and pedestrian commuter mode share is known, enter the percentage at the ri (BMS)

If not, use US Census - American Community Survey data to determine the mode share and enter the percentage. http://www.census.gov/programs-surveys/acs/guidance/estimates.html
1.5%

O. Bike and Ped. Work Utilitarian Trips (BWT): WSA * BMS = BWT 24 One-Way Trips

P. Bike and Ped. Non-Work Utilitarian Trips (BNWT): BWT * 1.7 = BNWT 40 One-Way Trips

(Latest planning assumptions estimate non-work utilitarian trips to be 1.7 times the work utilitarian.)

Step 2: Calculate the VMT Reduction Per Day:

A. ((2 * BWT) + (2 * BNWT)) * (0.5* L) = VMTR

231.5 VMTR Per Day

B. VMTR * Operating Days Per Year 231.5 * 200 = 46,290 VMTR Per Year

If the Vehicle Miles Traveled Reduction is known enter in the box to the right.

Note: A manual entry of the VMTR will override the calculated cell.

Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known. Speed Used:

35 MPH
VMTR Per Year
Eastern

2020 Passenger Summer VOC Factor grams/mile

0.030


2020 Passenger Summer NOx Factor grams/mile

0.081


2020 Passenger Summer CO Factor grams/mile

2.095




2020 Passenger Summer CO2 Factor grams/mile

338.769

Draft FFYs 2018-2022 MVMPO TIP April 2017 56

Georgetown - Newbury Border to Boston Trail CMAQ Air Quality Worksheet (Cont.)

Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):





Summer VOC Summer NOx Summer CO Summer CO2

1.4

3.8

98.8

15,681.6

Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Project
Emission Reduction
First year cost

Emission

Cost

in kg per year

per kilogram

Summer VOC

/

1.4 =

$3,088,934

Summer NOx

/

3.8 =

$1,130,838

Summer CO

/

98.8 =

$43,945

Summer CO2

/

15,681.6 =

$277

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 57

Groveland Community Trail Project # 608298 CMAQ Air Quality Worksheet

CMAQ Air Quality Analysis Worksheet for Bicycle and Pedestrian Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2020

Merrimack Valley Municipality: Groveland

Groveland Community Trail Project # 608298

Step 1: Calculate Estimated Reduction in Vehicle Miles Traveled (VMT):

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A. Facility Length (L):

B. Service Area Radius (R):

2.2
1.0
Miles
Miles Sq.
(Default = 1)

C. Service Area of Community(ies) (SA):

D. Total Land Area of Community(ies) (T):


L * 2R = SA 4.4
8.9
Miles Sq.
Miles

E. Service Area % of Community(ies) Land Area (LA):

F. Total Population of Community(ies) (TP):


SA / T = LA 49.4%
6,646
Persons

G. Population Served by Facility (P): LA * TP = P 3,286

Persons

H. Total Number of Households in Community(ies) (HH):

I. Number of Households Served by Facility (HS): LA * HH = HS

J. Total Number of Workers Residing in Community(ies) (W):

K. Workers Per household (WPHH): W / HH = WPHH

L. Workers in Service Area (WSA): HS * WPHH = WSA

2,385


1,179
3,405
1.43
1,683
HH HH Persons Persons Persons

M. Population Density of the Service area (PD): P / SA = PD 747 Persons Per Sq. Mile

Draft FFYs 2018-2022 MVMPO TIP April 2017 58

Groveland Community Trail Project # 608298 CMAQ Air Quality Worksheet (Cont.)

N. If the bicycle and pedestrian commuter mode share is known, enter the percentage at the righ (BMS)

If not, use US Census - American Community Survey data to determine the mode share and enter the percentage. http://www.census.gov/programs-surveys/acs/guidance/estimates.html

O. Bike and Ped. Work Utilitarian Trips (BWT): WSA * BMS = BWT 7 One-Way Trips

0.4%

P. Bike and Ped. Non-Work Utilitarian Trips (BNWT): BWT * 1.7 = BNWT

11 One-Way Trips
(Latest planning assumptions estimate non-work utilitarian trips to be 1.7 times the work utilitarian.)

Step 2: Calculate the VMT Reduction Per Day:

A. ((2 * BWT) + (2 * BNWT)) * (0.5* L) = VMTR

40.0 VMTR Per Day

B. VMTR * Operating Days Per Year 40.0 * 200 = 7,999 VMTR Per Year

If the Vehicle Miles Traveled Reduction is known enter in the box to the right.

Note: A manual entry of the VMTR will override the calculated cell.

Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known. Speed Used:

35 MPH
VMTR Per Year
Eastern

2020 Passenger Summer VOC Factor grams/mile

0.030


2020 Passenger Summer NOx Factor grams/mile

0.081


2020 Passenger Summer CO Factor grams/mile

2.095




2020 Passenger Summer CO2 Factor grams/mile

338.769

Draft FFYs 2018-2022 MVMPO TIP April 2017 59

Groveland Community Trail Project # 608298 CMAQ Air Quality Worksheet (Cont.)


Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):

Summer VOC

Summer NOx

Summer CO

Summer CO2

0.2

0.7

17.1

2,709.9

Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Emission Summer VOC Summer NOx Summer CO
Summer CO2
Project
Cost
Emission Reduction in kg per year
/ 0.2 =
/ 0.7 =
/ 17.1 =
/ 2,709.9 =
First year cost per kilogram

$11,004,874

$4,028,811

$156,560

$986

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 60

Haverhill Bradford Rail Trail Extension from Route 125 to Railroad St. CMAQ Air Quality Analysis

CMAQ Air Quality Analysis Worksheet for Bicycle and Pedestrian Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2019

Merrimack Valley Municipality: Haverhill

# 608027 Bradford Rail Trail Extension from Route 125 to Railroad Street

Step 1: Calculate Estimated Reduction in Vehicle Miles Traveled (VMT):

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A. Facility Length (L):

B. Service Area Radius (R):

C. Service Area of Community(ies) (SA):

D. Total Land Area of Community(ies) (T):


0.2

1.0

L * 2R = SA 0.4
33
Miles Miles Sq. Miles Sq.
Miles
(Default = 1)

E. Service Area % of Community(ies) Land Area (LA):

F. Total Population of Community(ies) (TP): Popu-

G. lation Served by Facility (P): LA * TP = P

H. Total Number of Households in Community(ies) (HH):


SA / T = LA 1.2%
62,079

752
23,781
Persons Persons HH HH

I. Number of Households Served by Facility (HS): LA * HH = HS

J. Total Number of Workers Residing in Community(ies) (W): K. Workers Per household (WPHH): W / HH = WPHH Work- L. ers in Service Area (WSA): HS * WPHH = WSA


288
30,696
1.29
372
Persons Persons Persons

M. Population Density of the Service area (PD): P / SA = PD

1,881 Persons Per Sq. Mile

Draft FFYs 2018-2022 MVMPO TIP April 2017 61

Haverhill Bradford Rail Trail Extension from Route 125 to Railroad St. CMAQ Air Quality Analysis (Cont.)

N. If the bicycle and pedestrian commuter mode share is known, enter the percentage at the ri (BMS)

If not, use US Census - American Community Survey data to determine the mode share and enter the percentage. http://www.census.gov/programs-surveys/acs/guidance/estimates.html

O. Bike and Ped. Work Utilitarian Trips (BWT): WSA * BMS = BWT 12 One-Way Trips

3.1%

P. Bike and Ped. Non-Work Utilitarian Trips (BNWT): BWT * 1.7 = BNWT

20 One-Way Trips
(Latest planning assumptions estimate non-work utilitarian trips to be 1.7 times the work utilitarian.)

Step 2: Calculate the VMT Reduction Per Day:

A. ((2 * BWT) + (2 * BNWT)) * (0.5* L) = VMTR

6.2 VMTR Per Day

B. VMTR * Operating Days Per Year 6.2 * 200 = 1,246 VMTR Per Year

If the Vehicle Miles Traveled Reduction is known enter in the box to the right.

Note: A manual entry of the VMTR will override the calculated cell.

Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known. Speed Used:

35 MPH
VMTR Per Year
Eastern

2020 Passenger Summer VOC Factor grams/mile

0.030


2020 Passenger Summer NOx Factor grams/mile

0.081


2020 Passenger Summer CO Factor grams/mile

2.095




2020 Passenger Summer CO2 Factor grams/mile

338.769

Draft FFYs 2018-2022 MVMPO TIP April 2017 62

Haverhill Bradford Rail Trail Extension from Route 125 to Railroad St. CMAQ Air Quality Analysis (Cont.)

Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):





Summer VOC Summer NOx Summer CO Summer CO2

0.0

0.1

2.7

422.0

Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Emission Summer VOC Summer NOx Summer CO
Summer CO2
Project
Cost
Emission Reduction in kg per year
/ 0.0 =
/ 0.1 =
/ 2.7 =
/ 422.0 =
First year cost per kilogram

$31,101,222

$11,385,951

$442,461

$2,787

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 63

North Andover - Intesection & Signal Improvements Route 125 & Mass. Ave. CMAQ Air Quality Analysis Worksheet

CMAQ Air Quality Analysis Worksheet for Traffic Flow and Intersection Improvements

FILL IN SHADED BOXES ONLY

TIP YEAR

2018

MPO:

Merrimack Valley

Municipality:

North Andover

Project:

# 606159 Intersection & Signal Improvements at Route 125 & Massachusetts Avenue

Step 1: Calculate Existing AM Peak Hour Total Intersection Delay in Seconds:

Left-Turns Total

Thru

Total

Right-Turns Total

Total

Street

Name

Dir (Vol / PHF) X delay per =

veh

move. delay

+ (Vol /

PHF)

X =

delay per veh

move. delay

+ (Vol / PHF) X delay per =

veh

move. =

delay

approach delay

NB = SB = EB =

WB =

2,553 +

1,046 +

5,016 +

198 +

= 6,300 +

= 19,777 +

= 22,410 +

= 11,329 +

= 154 =

= 3,696 =

= 2,454 =

= 519 =

9,007

24,519

29,880

12,047

Total Intersection Delay/Seconds =

75,453

Draft FFYs 2018-2022 MVMPO TIP April 2017 64

North Andover - Intesection & Signal Improvements Route 125 & Mass. Ave. CMAQ Air Quality Analysis Worksheet (Cont.)

Step 2: Calculate Existing PM Peak Hour Total Intersection Delay in Seconds:

Left-Turns Total

Thru

Total

Right-Turns Total

Total

Street

Name

Dir (Vol / PHF) X delay per =

veh

move. delay

+ (Vol /

PHF)

X =

delay per veh

move. delay

+ (Vol / PHF) X delay per =

veh

move. =

delay

approach delay

NB = SB = EB =

WB =

17,312 +

402 +

11,806 +

10,122 +

= 39,663 +

= 14,469 +

= 68,805 +

= 130,224 +

= 188 =

= 2,420 =

= 2,797 =

= 5,198 =

57,163

17,292

83,409

145,544

Total Intersection Delay/Seconds =

303,407


Step 3: The spreadsheet automatically chooses the peak hour with the longer total intersection delay for the next step in the analysis.

Peak Hour: PM

Total Intersection Delay:

303,407

Step 4: Calculate the existi

PM Peak Hour Total Intersection Delay with Improvements:

Left-Turns

Total

Thru

Total

Right-Turns Total

Total

Street

Name

Dir (Vol / PHF) X delay per =

veh

move. delay

+ (Vol /

PHF)

X =

delay per veh

move. delay

+ (Vol / PHF) X delay per =

veh

move. =

delay

approach delay

NB = SB = EB =

WB =

10,880 +

376 +

3,035 +

1,823 +

= 17,937 +

= 23,139 +

= 27,043 +

= 10,472 +

= 381 =

= 3,870 =

= 9,081 =

= 418 =

29,198

27,385

39,159

12,713

Total Intersection Delay/Seconds =

108,454

Draft FFYs 2018-2022 MVMPO TIP April 2017 65

North Andover - Intesection & Signal Improvements Route 125 & Mass. Ave. CMAQ Air Quality Analysis Worksheet (Cont.)

Step 5: Calculate vehicle delay in hours per day:

( Delay in seconds

X Hours per day) /

Seconds per hour

= Delay in hours / day

Existing peak hour intersection delay (

303,407 X

10 ) /

3600

= 842.8

Peak hour intersection delay w/

improvements

( 108,454

X /

10 )

3600

= 301.3

Step 6: MOVES 2014a emission factors for idling speed: AM or PM PM

2020

Summer VOC Factor grams/hour

2020

Summer NOx Factor grams/hour

2020

Winter CO Factor grams/hour

2020

Summer CO2 Factor grams/hour

0.249 0.630 3.569 3565.610

Step 7: Calculate net emissions change in kilograms per day:

Winter CO

Summer

CO2

Existing Conditions

With Improvements

Net Change

Delay in

Hours per Day

842.8

301.3

Summer VOC Emissions kilograms/day

0.210

0.075

-0.135

Summer NOx Emissions kilograms/day

0.531

0.190

-0.341

Emissions kil- ograms/day

3.008

1.075

-1.933

Emissions kilograms/da

3,005.09

1,074.18

-1,930.91

Draft FFYs 2018-2022 MVMPO TIP April 2017 66

North Andover - Intesection & Signal Improvements Route 125 & Mass. Ave. CMAQ Air Quality Analysis Worksheet (Cont.)

Step 8: Calculate net emissions change in kilograms per year (seasonally adjusted)

Summer VOC Emissions Summer NOx Emissions Winter CO Emissions

Summer CO2 Emissions

Net change per day (kg) X

-0.135 X

-0.341 X

-1.933 X

-1,930.907 X

Avg. weekdays per year

250

250

250

250

Seasonal adj.

X factor = X 1.019 = X 1.019 = X 0.981 =

X 1.000

Adj. net change in kg per year

-34.326

-86.845

-474.091

-482,726.774

Calculate cost effectiveness (first year cost per kg of emissions reduced)

Emission

Summer

Project / Cost

/

Adj. net change =

in kg per year

First year cost per kilogram

VOC

Summer

NOx

Winter

CO

Summer

CO2

-34.326 = 110,284

/

-86.845 = 43,591

/

-474.091 = 7,985

/

-482,726.774 = 8

Spreadsheet Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 67

Salisbury Multi-Use Trail Extension (Borders to Boston) CMAQ Air Quality Analysis

CMAQ Air Quality Analysis Worksheet for Bicycle and Pedestrian Project

FILL IN SHADED BOXES ONLY

TIP YEAR: MPO:

Project:

2018

Merrimack Valley Municipality: Salisbury

# 605020 Salisbury Multi-use Trail Extension (Borders to Boston Trail)

Step 1: Calculate Estimated Reduction in Vehicle Miles Traveled (VMT):

If VMT reduction per year is known then go to Step 2B, if not proceed with Step 1 :

A. Facility Length (L):

B. Service Area Radius (R):

C. Service Area of Community(ies) (SA):

D. Total Land Area of Community(ies) (T):


2.3

1.0

L * 2R = SA 4.6
15.4
Miles Miles Sq. Miles Sq.
Miles
(Default = 1)

E. Service Area % of Community(ies) Land Area (LA):

F. Total Population of Community(ies) (TP): Popu-

G. lation Served by Facility (P): LA * TP = P

H. Total Number of Households in Community(ies) (HH):


SA / T = LA 29.9%
8,672

2,590
3,446
Persons Persons HH HH

I. Number of Households Served by Facility (HS): LA * HH = HS

J. Total Number of Workers Residing in Community(ies) (W): K. Workers Per household (WPHH): W / HH = WPHH Work- L. ers in Service Area (WSA): HS * WPHH = WSA


1,029
4,360
1.27
1,302
Persons Persons Persons

M. Population Density of the Service area (PD): P / SA = PD

563 Persons Per Sq. Mile

Draft FFYs 2018-2022 MVMPO TIP April 2017 68

Salisbury Multi-Use Trail Extension (Borders to Boston) CMAQ Air Quality Analysis (Cont.)

N. If the bicycle and pedestrian commuter mode share is known, enter the percentage at the (BMS)

If not, use US Census - American Community Survey data to determine the mode share and enter the percentage. http://www.census.gov/programs-surveys/acs/guidance/estimates.html
3.4%

O. Bike and Ped. Work Utilitarian Trips (BWT): WSA * BMS = BWT

P. Bike and Ped. Non-Work Utilitarian Trips (BNWT): BWT * 1.7 = BNWT

44 One-Way Trips
75 One-Way Trips
(Latest planning assumptions estimate non-work utilitarian trips to be 1.7 times the work utilitarian.)

Step 2: Calculate the VMT Reduction Per Day:

A. ((2 * BWT) + (2 * BNWT)) * (0.5* L) = VMTR

275.0 VMTR Per Day

B. VMTR * Operating Days Per Year 275.0 * 200 = 54,995 VMTR Per Year

If the Vehicle Miles Traveled Reduction is known enter in the box to the right.

Note: A manual entry of the VMTR will override the calculated cell.

Step 3: MOVES 2014a Emission Factors for Unrestricted PM:

Note: Use 35 MPH as a default if average speed is not known. Speed Used:

35 MPH
VMTR Per Year
Eastern

2020 Passenger Summer VOC Factor grams/mile

0.030


2020 Passenger Summer NOx Factor grams/mile

0.081


2020 Passenger Summer CO Factor grams/mile

2.095




2020 Passenger Summer CO2 Factor grams/mile

338.769

Draft FFYs 2018-2022 MVMPO TIP April 2017 69

Salisbury Multi-Use Trail Extension (Borders to Boston) CMAQ Air Quality Analysis (Cont.)

Step 4: Calculate emissions reductions in kilograms per year (Seasonally Adjusted):





Summer VOC Summer NOx Summer CO Summer CO2

1.7

4.6

117.4

18,630.6

Step 5: Calculate cost effectiveness (first year cost per kg of emissions reduced)

Project
Emission Reduction
First year cost

Emission

Cost

in kg per year

per kilogram

Summer VOC

/

1.7 =

$3,686,512

Summer NOx

/

4.6 =

$1,349,608

Summer CO

/

117.4 =

$52,446

Summer CO2

/

18,630.6 =

$330

Draft FFYs 2018-2022 MVMPO TIP April 2017 70

Merrimack Valley RTA Replace 6 (2004) Buses with 6 (2018) Buses

CMAQ Bus Replacement Air Quality Analysis Worksheet

FILL IN SHADED BOXES ONLY

TIP YEAR: 2018 Bus Replacements

MPO: Merrimack Valley

RTA: Merrimack Valley

Project #BCG0005656 # RTD0004954 - Replace 6 (2004) Buses with 6 (2018) Buses

Emission Rates in grams/mile at assumed operating speed bin of :
18 MPH (Bin 5 (17.5-22.5))

Scenario Comparison Summer VOC Summer NOx Winter CO

Summer CO2

Model Year
(grams/mile) (grams/mile)
(grams/mile)
(grams/mile)
Existing Model* =
New Bus
Purchase** =
* Please contact OTP for assistance on Existing Model emission factors

** MOVES 2014a Commercial Emission Factors - Please Specify the Following:

AM or PM: PM
Restricted or
Unrestricted
Unrestricted
Change (Buy-Base)

Calculate fleet vehicle miles per day:

Revenue miles

X

Deadhead

= fleet miles

/ operating days

= fleet miles

per year

factor

per year

per year

per day

202,140

Draft FFYs 2018-2022 MVMPO TIP April 2017 71

Merrimack Valley RTA Replace 6 (2004) Buses with 6 (2018) Buses (Cont.)

Calculate emissions change in kilograms per summer day

Change rate change
grams/mile
/ 1000
g/kg
X fleet miles
per day
X seasonal
adj factor
= change/day
in kg
Change in
Summer VOC
Change in
Summer NOx
Change in
Winter CO
Change in
Summer CO2
-1.686 1,000 765 1.0188
-6.778 1,000 765 1.0188
-2.905 1,000 765 0.9812
-67.370 1,000 765 1.0000

Calculate emissions change in kilograms per year

Pollutant = change/day
in kg
X op.days
per year
= change per
year in kg
Summer VOC Summer NOx Winter CO Summer CO2

Calculate cost effectiveness (cost per kg of emissions reduced)

Pollutant Total Project
/ Project Life reduction per = annual cost
Cost
in years year in kg
per kg
Summer VOC Summer NOx Winter CO Summer CO2
Template Prepared by Office of Transportation Planning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 72

Merrimack Valley RTA Replace 6 (2004) Buses with 6 (2018) Buses

CMAQ Bus Replacement Air Quality Analysis Worksheet

FILL IN SHADED BOXES ONLY

TIP YEAR: 2020 Bus Replacements

MPO: Merrimack Valley

RTA: Merrimack Valley

Project #BCG0005658 # RTD0004956 - Replace 3 (2007) Buses with 3 (2020) Buses

Emission Rates in grams/mile at assumed operating speed bin of :
18 MPH (Bin 5 (17.5-22.5))

Scenario Comparison

Existing Model* = New Bus Purchase** =
Model Year

Summer

VOC

(grams/mile)

Summer

NOx

(grams/mile)

Winter CO

(grams/mile)

Summer CO2

(grams/mile)
* Please contact OTP for assistance on Existing Model emission factors


** MOVES 2014a Commercial Emission Factors - Please Specify the Following: Restricted or
AM or PM: PM
Change (Buy-Base)
Unrestricted
Unrestricted

Calculate fleet vehicle miles per day:

Revenue miles
X Deadhead = fleet miles perating days = fleet miles

per year
factor per year per year
per day
101,070

Draft FFYs 2018-2022 MVMPO TIP April 2017 73

Merrimack Valley RTA Replace 6 (2004) Buses with 6 (2018) Buses (Cont.)

Calculate emissions change in kilograms per summer day

Change

rate change grams/mile

/ 1000 g/kg

X fleet miles per day

X seasonal adj factor

= change/day in kg

Change in Summer

VOC

-0.067

1,000

382

1.0188

Change in Summer

NOx

-2.986

1,000

382

1.0188

Change in Winter CO

-0.384

1,000

382

0.9812

Change in Summer

CO2

-67.370

1,000

382

1.0000

Calculate emissions change in kilograms per year

Pollutant = change/day
in kg
X op.days
per year
= change per
year in kg
Summer VOC Summer NOx Winter CO Summer CO2

Calculate cost effectiveness (cost per kg of emissions reduced)

Pollutant Total Project / Project Life / reduction per
= annual cost
Cost in years
year in kg
per kg
Summer VOC Summer NOx Winter CO Summer CO2
Template prepared by the Office of Transportation Plannning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 74

Merrimack Valley RTA Replace 9 (2009) Buses with 9 (2021) Buses

CMAQ Bus Replacement Air Quality Analysis Worksheet

FILL IN SHADED BOXES ONLY

TIP YEAR: 2021 Bus Replacements

MPO: Merrimack Valley

RTA: Merrimack Valley

Project #BCG0005659 - Replace 9 (2009) Buses with 9 (2021) Buses

Emission Rates in grams/mile at assumed operating speed bin of : 18 MPH (Bin 5 (17.5-22.5))

Scenario Comparison

Existing Model* = New Bus Purchase** =

Summer

VOC

(grams/mile) Model Year

Summer NOx

(grams/mile)

Winter CO

(grams/mile)

Summer

CO2

(grams/mile)
* Please contact OTP for assistance on Existing Model emission factors


** MOVES 2014a Commercial Emission Factors - Please Specify the Following: Restricted or
AM or PM: PM
Change (Buy-Base)
Unrestricted
Unrestricted

Calculate fleet vehicle miles per day:

Revenue miles
X eadhead
= fleet miles / operating days = fleet miles

per year
factor
per year per year
per day
303,210

Draft FFYs 2018-2022 MVMPO TIP April 2017 75

Merrimack Valley RTA Replace 9 (2009) Buses with 9 (2021) Buses (Cont.)

Calculate emissions change in kilograms per summer day

Change rate change
grams/mile
/ 1000
g/kg
X fleet miles
per day
X seasonal
adj factor
= change/day
in kg
Change in Summer VOC Change in Summer NOx Change in Winter CO
Change in Summer CO2
-0.067
-2.986
-0.384
-69.850
1,000
1,000
1,000
1,000
1,147
1,147
1,147
1,147
1.0188
1.0188
0.9812
1.0000

Calculate emissions change in kilograms per year

Pollutant = change/day
in kg
X op.days
per year
= change per
year in kg
Summer VOC Summer NOx Winter CO Summer CO2

Calculate cost effectiveness (cost per kg of emissions reduced)

Pollutant Total Project
/ Project Life / reduction per = annual cost
Cost
in years year in kg
per kg
Summer VOC Summer NOx Winter CO Summer CO2
Template prepared by the Office of Transportation Plannning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 76

Merrimack Valley RTA Replace 16 (2015) Vans with 16 (2021) Vans

CMAQ Bus Replacement Air Quality Analysis Worksheet

FILL IN SHADED BOXES ONLY

TIP YEAR: 2021 Bus Replacements

MPO: Merrimack Valley

RTA: Merrimack Valley

Project #BCG0005661 - Replace 16 (2015) Vans with 16 (2021) vans


Emission Rates in grams/mile at assumed operating speed bin of : 18 MPH (Bin 5 (17.5-22.5))

Scenario Comparison

Existing Model* = New Bus Purchase** =
Model Year

Summer

VOC

(grams/mile)

Summer NOx Winter CO

(grams/mile) (grams/mile)

Summer

CO2

(grams/mile)
* Please contact OTP for assistance on Existing Model emission factors


** MOVES 2014a Commercial Emission Factors - Please Specify the Following: Restricted or
AM or PM: PM
Change (Buy-Base)
Unrestricted
Unrestricted

Calculate fleet vehicle miles per day:

Revenue miles

per year
X Deadhead
factor
= fleet miles operating days = fleet miles
per year per year per day
450,016

Draft FFYs 2018-2022 MVMPO TIP April 2017 77

Merrimack Valley RTA Replace 16 (2015) Vans with 16 (2021) Vans (Cont.)

Calculate emissions change in kilograms per summer day

Change rate change
grams/mile
/ 1000
g/kg
X fleet miles
per day
X seasonal
adj factor
= change/day
in kg
Change in Summer VOC Change in Summer NOx Change in Winter CO
Change in Summer CO2
-0.005
-0.033
-1.421
-65.331
1,000
1,000
1,000
1,000
1,688
1,688
1,688
1,688
1.0188
1.0188
0.9812
1.0000

Calculate emissions change in kilograms per year

Pollutant = change/day
in kg
X op.days
per year
= change per
year in kg
Summer VOC Summer NOx Winter CO Summer CO2

Calculate cost effectiveness (cost per kg of emissions reduced)

Pollutant Total Project
/ Project Life eduction per = annual cost
Cost
in years year in kg
per kg
Summer VOC Summer NOx Winter CO Summer CO2
Template prepared by the Office of Transportation Plannning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 78

Merrimack Valley RTA Replace 6 (2011) Buses with 6 (2022) Buses

CMAQ Bus Replacement Air Quality Analysis Worksheet

FILL IN SHADED BOXES ONLY

TIP YEAR: 2022 Bus Replacements

MPO: Merrimack Valley

RTA: Merrimack Valley

Project #BCG0006088 - Replace 6 (2011) Buses with 6 (2022) Buses

Emission Rates in grams/mile at assumed operating speed bin of : 18 MPH (Bin 5 (17.5-22.5))

Scenario Comparison

Existing Model* = New Bus Purchase** =
Model Year

Summer

VOC

(grams/mile)

Summer

NOx

(grams/mile)

Winter CO

(grams/mile)

Summer

CO2

(grams/mile)
* Please contact OTP for assistance on Existing Model emission factors


** MOVES 2014a Commercial Emission Factors - Please Specify the Following: Restricted or
AM or PM: PM
Change (Buy-Base)
Unrestricted
Unrestricted

Calculate fleet vehicle miles per day:

Revenue miles
X Deadhead
= fleet milesperating days = fleet miles

per year
factor
per year per year
per day
202,140

Draft FFYs 2018-2022 MVMPO TIP April 2017 79

Merrimack Valley RTA Replace 6 (2011) Buses with 6 (2022) Buses (Cont.) Calculate emissions change in kilograms per summer day

Change rate change
grams/mile
/ 1000
g/kg
X fleet miles
per day
X seasonal = change/day
adj factor in kg
Change in Summer VOC Change in Summer NOx Change in Winter CO
Change in Summer CO2
-0.061
-0.458
-0.063
-69.850
1,000
1,000
1,000
1,000
765
765
765
765
1.0188
1.0188
0.9812
1.0000

Calculate emissions change in kilograms per year

Pollutant = change/day
in kg
X op.days
per year
= change per
year in kg
Summer VOC Summer NOx Winter CO Summer CO2

Calculate cost effectiveness (cost per kg of emissions reduced)

Pollutant Total Project / Project Life / reduction per = annual cost
Cost in years year in kg per kg
Summer VOC Summer NOx Winter CO Summer CO2
Template prepared by the Office of Transportation Plannning Updated March 2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 80

Appendix F Completed Highway and Transit Projects GHG Summary

Draft FFYs 2018-2022 MVMPO TIP April 2017 81

Merrimack Valley Region MPO Completed Highway

Projects GHG Summary

MassDOT Project ID

MassDOT Project

Description

Total Program- med Funds

GHG Analysis Type

GHG CO2

Impact

(kg/yr)

GHG

Impact Description

Additional

Description

605720

HAVERHILL - RIVERWALK CONSTRUCTION (BRADFORD SECTION), FROM ROUTE 125 TO COUNTY ROAD

$ 2,410,718

Quantified

3,520

Quantified Decrease in Emissions from Bicycle and Pedes- trian Infrastructure

Advertised 9/20/2014

Notice to Proceed

7/27/2015

606161

HAVERHILL - IMPROVEMENTS ON MAIN STREET (ROUTE

125)

$ 3,635,519

Quantified

16,491

Quantified Decrease in Emissions from Traffic Operational Improvement

Advertised 9/17/2016

606503

NEWBURYPORT CLIPPER CITY RAIL TRAIL ALONG THE CITY BRANCH (PHASE II)

$ 4,061,158

Quantified

34,996

Quantified Decrease in Emissions from Bicycle and Pedes- trian Infrastructure

Advertised 9/19/2015

Notice to Proceed

4/1/2016

Draft FFYs 2018-2022 MVMPO TIP April 2017 82

Merrimack Valley Region MPO Completed Transit

Projects GHG Summary

FTA Acti- vity Line Item

Transit

Agency

Project Description

Total Cost

GHG Analysis Type

GHG CO2

Impact

(kg/yr)

GHG Impact

Description

Fiscal Year Program- med

(2015 and forward)

MVRTA

Purchase -Replacement: Vans 11 Model Year 2009

Delivery 2015

$ 627,000

Quantified

41,814

Quantified De- crease in Emis- sions from Bus Replacement

2015

111202

MVRTA

Replace 10 of 17 Model Year 2004 Transit Buses with new buses (Delivery

2016)

$4,200,000

Quantified

12,557

Quantified De- crease in Emis- sions from Bus Replacement

2015

111215

MVRTA

Replace 5 Model Year

2011 Paratransit Vehicles

(Delivery 2016)

$ 320,000

Quantified

15,992

Quantified De- crease in Emis- sions from Bus Replacement

2016

111202

MVRTA

Replace 7 Model Year

2004 Buses with new

$2,989,000

Quantified

18,271

Quantified De- crease in Emis- sions from Bus Replacement

2017

Draft FFYs 2018-2022 MVMPO TIP April 2017 83

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Draft FFYs 2018-2022 MVMPO TIP April 2017 84

Appendix G List of Acronyms

Draft FFYs 2018-2022 MVMPO TIP April 2017 85

MVMPO List of Commonly Used Acronyms

A

AADT

Average Annual Daily Traffic

AASHTO

American Association of State Highway Transporta- tion Officials

ABP

MassDOT Accelerated Bridge Program

AC

Advance Construction

ADA

Americans with Disabilities Act (1990)

ADT

Average Daily Traffic

ARRA

American Recovery and Reinvestment Act (of 2009)

AQ

Air Quality

B

B to B

Border to Boston Rail Trail

BR, BR-On, BR-Off

Bridge Rehabilitation or Replacement (On- or Off- National Highway System)

C

(C)

Type of Project = Capital Improvement

3C

Continuing, Comprehensive and Coordinated

(Transportation Planning)

CAAA

Clean Air Act Amendments of 1990

CFR

Code of Federal Regulations

CIP

Capital Investment Plan

CLF

Conservation Law Foundation

CMAQ

Congestion Mitigation and Air Quality Improvement

Program

CMP

Congestion Management Process

CMR

Code of Massachusetts Regulations

CNG

Compressed Natural Gas

CO

Carbon Monoxide

Draft FFYs 2018-2022 MVMPO TIP April 2017 86

D

DEP

Department of Environmental Protection

DOT

Department of Transportation

DPW

Department of Public Works

E

EB

Eastbound

EIR

Environmental Impact Report

EIS

Environmental Impact Statement

EJ

Environmental Justice

ENF

Environmental Notification Form

E.O.

Executive Order (of the Governor of the Common- wealth)

EPA

U.S. Environmental Protection Agency

F

FA

Federal-Aid

FAPRO

Federal Aid Program Reimbursement Office

FAST Act

Fixing America’s Surface Transportation Act legisla- tion signed into law December 4, 2015

FHWA

Federal Highway Administration

FTA

Federal Transit Administration

FY

(State) Fiscal Year

FFY

Federal Fiscal Year

G

GANs

Grant Anticipation Notes

GHG

Greenhouse Gas

H

HPP

USDOT High Priority Project

HSIP

Highway Safety Improvement Program

Draft FFYs 2018-2022 MVMPO TIP April 2017 87

I

IM

Interstate Maintenance

ITS

Intelligent Transportation System

ISTEA

Intermodal Surface Transportation Efficiency Act of

1991

L

LEP

Limited English Proficiency

LOS

Level of Service

LTA

Local Technical Assistance

M

(M)

Type of project = Maintenance

MAP-21

Moving Ahead for Progress in the 21st Century legis- lation signed into law July 6, 2012

MassDOT

Massachusetts Department of Transportation

MCAD

Massachusetts Commission Against Discrimination

MEPA

Massachusetts Environmental Policy Act

M.G.L.

Massachusetts General Laws

MOA

Memorandum of Agreement

MOD

Massachusetts Office on Disabilities

MOU

Memorandum of Understanding

MPO

Metropolitan Planning Organization

MVMPO

Merrimack Valley Metropolitan Planning Organiza- tion

MVPC

Merrimack Valley Planning Commission

MVPGS

Merrimack Valley Priority Growth Strategy

MVRTA

Merrimack Valley Regional Transit Authority

N

(N)

Type of project = other, not capital expense, or op- erating expense, but other such as planning or de- sign

Draft FFYs 2018-2022 MVMPO TIP April 2017 88

NAAQS

National Ambient Air Quality Standards

NARC

National Association of Regional Councils

NB

Northbound

NEPA

National Environmental Policy Act

NFA

Non-Federal Aid

NHS

National Highway System

NMCOG

Northern Middlesex Council of Governments

NOx

Nitrogen Oxide

NPRM

Notice of Proposed Rulemaking (Federal Register)

O

(O)

Type of Project = Operating Expense

O&M

Operations and Maintenance

P

PCI

Pavement Condition Index

PDA

Priority Development Area

PL

(Metropolitan) Planning Funds

PMS

Pavement Management System

PPP

Public Participation Plan

PRC

(MassDOT) Project Review Committee

PSAC

Project Selection Advisory Council

R

RGGI

Regional Greenhouse Gas Initiative

ROW

Right-of-Way

RPA

Regional Planning Agency

RPMS

Regional Pavement Management System

RTA

Regional Transit Authority

RTP

Regional Transit Plan

Draft FFYs 2018-2022 MVMPO TIP April 2017 89

S

SAFETEA-LU

Safe, Accountable, Flexible, Efficient Transportation

Equity Act: A Legacy for Users

SB

Southbound

SD

Structurally Deficient

SGR

State of Good Repair

SIP

State (Air Quality) Implementation Plan

SOV

Single Occupancy Vehicle

SPR

Statewide Planning and Research Funds

STBG

Surface Transportation Block Grant Program

STIP

Statewide Transportation Improvement Program

STP

Surface Transportation Program

T

TA

Transportation Alternatives

TAP

Transportation Alternatives Program

TCSP

Transportation and Community System Preservation

Grant Program

TDM

Transportation Demand Management

TEA-21

Transportation Equity Act for the 21st Century

TEC

Transportation Project Evaluation Criteria

TIP

Transportation Improvement Program

TMA

Transportation Management Area

TMC

Turning Movement Count

TOD

Transit-Oriented Development

TRB

Transportation Research Board

U

UPWP

Unified Planning Work Program

USDOT

U.S. Department of Transportation

Draft FFYs 2018-2022 MVMPO TIP April 2017 90

V

V/C

Volume/Capacity Ratio

VMT

Vehicle Miles Traveled

VOC

Volatile Organic Compound

W

WB

Westbound

Massachusetts Executive Orders

EO

526

Nondiscrimination, Diversity, Equal Employment

Opportunity and Affirmative Action

EO

12898

Environmental Justice in Minority and Low Income

Populations, February 1994

EO

13166

Improving Access to Programs (and Services) for

persons with limited English Proficiency

Draft FFYs 2018-2022 MVMPO TIP April 2017 91

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Draft FFYs 2018-2022 MVMPO TIP April 2017 92

Appendix H Key to Maps Showing Locations of Transportation Projects

Draft FFYs 2018-2022 MVMPO TIP April 2017 93

Appendix H Key to Maps Showing Locations of Transportation Projects

Map

Number

Project

Number

City/Town

Project Description

1

602418

Amesbury

Amesbury – Reconstruction of Elm Street

1

607737

Amesbury/ Salisbury

Amesbury – Salisbury Trail Connector at I-95

2

607541

Georgetown- Boxford

Georgetown – Boxford Border to Boston Trail from Georgetown Road to West Main Street (Route 97)

2

607542

Georgetown- Newbury

Georgetown– Newbury Border to Boston Trail (Northern Georgetown to Byfield Section)

3

608298

Groveland

Groveland- Groveland Community Trail, from Main Street to King Street

3

605753

Groveland

Groveland- Reconstruction of Route 97 (School Street) from Parker Street to Gardner Street

4

608027

Haverhill

Haverhill- Bradford Rail Trail Extension, from Route 125 to Railroad Street

5

605306

Haverhill

Haverhill – Substructure replacement,

H-12- 039, I-495 (NB & SB) over Merrimack

River

6

608809

Lawrence / North Andover

Resurfacing Rt.114 from I-495 to Middleton

Townline

Draft FFYs 2018-2022 MVMPO TIP April 2017 94

Appendix H Key to Maps Showing Locations of Transportation Projects (Contin- ued)

Map

Number

Project

Number

City/Town

Project Description

7

608494

Newbury / Newburyport

/ Salisbury

Resurfacing of Route 1

8

RTD –

5219

MVRTA

Newburyport – Intermodal Transit Parking

Facility Construction

8

608792

Newburyport

Newburyport SRTS Middle and Elementary

Schools

9

608095

North

Andover

North Andover- Corridor Improvements on Route 114, between Route 125 (Andover Street) & Stop & Shop driveway

10

606159

North

Andover

North Andover – Intersection & Signal Improvements at Route 125 & Massachusetts Avenue

11

605020

Salisbury

Salisbury - Multi-use Trail Extension (Borders to Boston Trail)

Draft FFYs 2018-2022 MVMPO TIP April 2017 95