Memorandum

Date:    September 12, 2013

To:         Boston Region MPO

From:   William Kuttner
MPO Staff

Re:         Proposed Freight Planning Action Plan for the Boston Region MPO: Meeting the Goals and Addressing the Issues

1         The Purpose of this Memorandum

Recognizing the importance of freight transportation and the unique challenges that a comprehensive freight analysis entails, the Boston Region Metropolitan Planning Organization (MPO) wishes to establish a formal freight-planning program starting in federal fiscal year (FFY) 2014. The MPO anticipates that freight analysis within the framework of this program would be ongoing, and conducted on a multiyear basis. To this end, staff was directed to develop an “action plan” for this program that would further the MPO’s freight-planning goals.

The efforts recommended for the action plan share several characteristics. They 1) deal with significant amounts of freight activity that affect the MPO, 2) are feasible, and 3) are within the capabilities of MPO staff. Furthermore, they are within the context of statewide Massachusetts Department of Transportation (MassDOT) freight focus areas, and the guidance of federal agencies. More specifically, the recommended efforts advance one or more of the following five broad freight-planning goals identified by MPO staff:

Over the years, MPO staff has done freight-related work within these five goals, including preparing regional planning documents, evaluating freight issues in these documents, preparing topical studies requested by the MPO, and conducting studies requested by implementing agencies. This memorandum envisions an MPO freight program in which efforts under these four goals would be mutually supportive; and in which findings and data developed in support of one goal would be utilized to expand upon and improve work towards the other three goals. Establishing freight analysis as a multi-year effort would facilitate this type of study integration.

The starting point for this memorandum is the Massachusetts Freight Plan2 (Freight Plan), which provides an overview of current and projected freight movements in Massachusetts. Using statewide freight tonnage as a reference point, some comparisons with freight in the Boston Region MPO area are discussed. The Freight Plan also supplies the key freight findings in the Boston MPO Long-Range Transportation Plan: Paths to a Sustainable Region3.

The next section of this paper discusses federally mandated freight planning, including anticipated new performance measurements required by MAP-21. The MAP‑21 freight requirements are still under consideration; a major concern among MPO and state administrators for meeting the MAP-21 requirements is the general lack of freight data at a useful level of detail. The appropriateness of the Boston Region MPO focusing its analysis on trucks as a simplifying assumption is discussed.

There follows a discussion of earlier freight-planning efforts and current freight-planning issues. Issues associated with the important truck mode are presented in three groups: 1) infrastructure investment, 2) urban policy, and 3) regional policy issues. Issues about other modes are also presented, often highlighting the intermodal connections between them and the truck mode.

After the freight issues are posed, a proposed freight action plan is presented. Work under the action plan falls into two broad groups. First, issues presented in the previous section serve as the basis for six specific freight studies. Second, data-intensive activities are discussed, notably: developing performance measurements, systematizing data collection, and improving the truck component of the regional model set.

The memorandum concludes by presenting several broader observations about the Boston Region MPO’s practices compared with those of other MPOs, which became apparent at the outset of this project as the capabilities of the Boston Region MPO were reviewed. These observations helped to both identify the issues and form the recommendations in the action plan.

2         Freight movements in Massachusetts and the boston REGION MPO

2.1      Statewide Freight Mode Shares and Trends

The Massachusetts Freight Plan [page 3-51] obtained recent estimates of freight tonnage by mode. Statewide 2007 estimates of freight moved annually with either an origin or destination in Massachusetts were:

                             Truck:                 195,950,000 tons

                             Rail:                      14,630,000 tons

                             Water:                   13,860,000 tons

                             Air:                              310,000 tons

In addition to the freight tonnage that specifically serves Massachusetts (cited above), another 53,350,000 tons of freight pass through Massachusetts annually. Much of this originates in or is destined for upper New England along routes that mostly bypass the Boston Region MPO area. This through-tonnage is 81% truck only, 13% rail only, and 6% intermodal.

Freight projections were developed on a statewide basis by mode. Total freight movements in Massachusetts were projected to increase from 278 million tons in 2007 to 471 million tons in 2035, representing a compound annual growth rate of 1.9%. All modes are projected to grow, and trucks are projected to either maintain, or slightly increase mode share, depending on projection methodology. Accommodating an increase in freight tonnage of this general magnitude would pose a major challenge to regional infrastructure. 

2.2      Freight in the Boston Region MPO Area

Comparable freight data is not available for the Boston Region MPO area. It is possible, however, to recognize several broad relationships between the statewide freight volumes and those within the 101 municipalities that comprise the Boston Region MPO.

The tonnage listed for rail includes both carload and intermodal service. In carload service, a rail car is delivered directly to a rail customer’s industrial tail siding, whereas in intermodal shipments, trailers and containers are loaded onto or removed from a train at an intermodal terminal and service to commercial customers for pickup, or delivery is made by truck.

The use of carload freight within the Boston Region MPO area has been in long-term decline. The industries for which carload freight is still competitive have gradually shifted their operations to larger facilities more distant from urban centers. Bulk commodities, chemicals, and building materials are representative of the types of freight that still are generating carload traffic.

Intermodal freight, however, is an increasingly viable mode for connecting urban areas to distant freight origins and destinations. Most of the rail freight entering the MPO consists of intermodal trailers and shipping containers that are transferred at either the recently expanded intermodal terminal in Worcester, or a terminal in Ayer. Neither of these two terminals is within the Boston Region MPO area, and their shipments originate and terminate throughout eastern Massachusetts and neighboring states. A meaningful portion of intermodal freight at these terminals serves the Boston Region MPO, however.

Similar patterns can be seen in the area of ocean shipping. All of the cargo of the container vessels serving Conley Terminal in South Boston—and most of the refined fuel arriving by ship in Chelsea, Everett, and East Boston—reach their final destinations by truck. These destinations may be within the Boston Region MPO, in a different Massachusetts MPO area, or in a neighboring state. Investigating these distribution patterns would significantly enhance understanding the role of ocean shipping in freight transportation.

There is still some ocean shipping in the Boston Region MPO area that does not utilize an intermodal transfer. Examples include jet fuel, which is piped from the terminal in East Boston to Logan Airport, and coal, which was delivered by ship directly to a power plant in Salem prior to its recent closing

Statewide, trucks accounted for 87% of the freight tonnage with an origin or destination in Massachusetts. A substantial portion of the remaining 13% of tonnage utilized a truck for a pickup or delivery. Within the Boston Region MPO area, the dependence upon trucks is even greater, given the very few remaining carload rail customers. The widespread use of intermodal transfers to move freight in the area does provide an opportunity to measure the flow of water- and rail-borne commodities in the region by studying the intermodal truck patterns in conjunction with any broader study of truck traffic.

3         MPO Freight Planning under Federal Regulations and MAP-21

3.1      MPO Freight Planning Practices

The importance of freight in state and MPO transportation planning is acknowledged in federal statutes and regulations, but MPOs are afforded wide latitude in how they approach this mandate. At a minimum, MPOs must make a long-range projection of the movements of goods, as well as people, to inform their long-range transportation plans4. Furthermore, transportation plans must include “. . . strategies to improve the performance of existing transportation facilities to relieve vehicular congestion and maximize the safety and mobility of people and goods. . .”5

Given the wide latitude allowed to MPOs in their approach to freight analysis and planning, the practices of 77 American MPOs were reviewed, and a summary of the findings is included in Appendix A. These 77 MPOs vary greatly in population, land area, industrial and logistics activity, and institutional structure. If all of these factors are considered, there is no apparent “peer group” for the Boston Region MPO whose practices might be emulated. Appendix A does make a number of individual comparisons between Boston and other MPOs.

Most MPOs do not actually do freight planning in the sense of developing freight-specific plans that can be implemented. Those that do are often the implementing agency, or work in close consultation with the implementing agency.

If an MPO is not preparing freight-specific plans, it does not mean that freight is being ignored. Highway improvements developed by the MPO will help freight, which can be used as a factor in the planning process. The practice in the Boston Region MPO is to assign points to highway projects in the Transportation Improvement Plan (TIP) process based on an estimate of the importance of the project for freight. Also, some freight-specific projects in an MPO region may be planned and initiated by the state, some other implementing agency, or as part of a multi-MPO planning effort.

MPO highway travel models will normally have a truck component that can serve as a proxy for freight movements in the planning process. For most MPOs reviewed in the appendix, this represents the extent of their freight planning, with only a small minority of MPOs developing freight-specific transportation plans. Phoenix, Arizona, is an interesting example in that the MPO does not report undertaking any freight-specific planning; but it did report commissioning a truck survey whose results would be used for travel model improvement.

The Boston Region MPO has made consideration of freight an explicit goal in both its long- and short-range planning documents. Projects evaluated for inclusion in the TIP are scored partly according to the extent to which they improve freight mobility. The LRTP also discusses freight issues and potential investments such as harbor dredging that are not programmed through the MPO. Furthermore, it is now expected that studies focused on a particular area or corridor will have some commentary of freight or truck issues, even if these were not primary subjects of interest. Finally, the Boston Region MPO has begun exploratory work on developing transportation performance measurements that have been mandated by MAP-21; and one goal of this effort is that performance indices reflecting freight transportation as distinct from general traffic be defined in some manner.

3.2      MAP-21

In July 2012, a new multi-year federal transportation appropriation, Moving Ahead for Progress in the 21st Century, or MAP-21, was signed into law. Sections 1116-1118 of this act expressly concern freight-planning issues. Section 1118 strongly encourages states to develop comprehensive state freight plans. A practical incentive for states to develop these plans is found in Section 1116, which authorizes a higher share of federal funding for projects that can be shown to improve newly mandated freight performance measurements, providing that they are also included in the state freight plan. Finally, Section 1117 encourages states to form freight advisory committees.

MAP-21 does not prescribe a specific role for MPOs in developing freight plans. Interim Guidance on State Freight Plans and State Freight Advisory Committees6, mentions MPOs only twice. The State Freight Plan will need to discuss its decision-making process, including “ways in which the State coordinated with other States in regional planning efforts, and with metropolitan areas within the State that have done freight planning.”

The second reference to MPOs concerns membership in the State Freight Advisory Committee. Section 1117 of MAP-21 states that these advisory committees should include a cross section of public- and private-sector experts and stakeholders, which may include representatives of:

States had been encouraged in prior authorizations to develop state freight plans; and any states that had not yet developed a freight plan would be expected to. Those states, like Massachusetts, that had freight plans, were to build on these earlier efforts.

The Massachusetts Freight Plan (2010) was developed in consultation with input from a broad-based industry and advocacy working group. It is assumed that the primary focus of shipper and carrier advocacy would continue to be at the statewide level. Boston Region MPO staff has worked with freight stakeholders in the context of state-sponsored efforts, and will continue to be responsive to and reflect their concerns throughout the MPO freight program.

MAP-21 does establish an important new requirement for planning at all levels. States and MPOs are now required to develop, estimate, and periodically report performance measurements covering a range of transportation issues, including freight. This requirement to measure freight movement performance within an MPO is independent of whether an individual MPO has a distinct freight plan. The federal government is not exempt from this requirement. The individual state freight plans will inform a National Freight Strategic Plan for which performance measurements are also required. Another provision of MAP-21 reduces the local match of a federally funded project if the project is shown to be significant for freight and is included in the statewide freight plan.

The National Freight Strategic Plan performance measurements have not yet been defined, but when they do become defined, they will be offered as an acceptable formula for use by the states. In the interim, the U.S. DOT is encouraging states to develop performance measurements using their own analytical resources. A concern expressed by state officials is the scarcity of freight data that can be formed into some sort of performance index. Freight data is scarce at the state level and even more so at the MPO level. Identifying or acquiring data that can be crafted into a satisfactory MPO freight performance index is an important goal of the envisioned freight action plan.

3.3      Trucks Plus Intermodal: Approximating Regional Freight

One of the key findings of the Massachusetts Freight Plan was that 87% of freight shipments serving Massachusetts are truck only, and rail, ocean shipping and air freight combined make up only 13% of statewide tonnage. Furthermore, much of this 13% utilizes a truck for pickup or delivery.

Within the Boston Region MPO, truck distribution of intermodal rail, ocean shipping containers and refined fuels is even more important compared with the few carload rail and immediate dockside destinations. In addition, all air freight involves truck connections.

The prominence of trucks in regional logistics, both in truck-only and intermodal service, presents an opportunity for regional freight analysis. Developing a freight program focused on issues that affect travel in the MPO region, including a comprehensive picture of regional truck movements, would not only reflect the truck travel market, but also would reflect the important connecting intermodal markets.

Not only are trucks the dominant freight mode in eastern Massachusetts, but they represent a major portion of traffic on the regional road system. In recognition of this fact, the Boston Region MPO Phase I study focused on truck impacts. The final report, Results of the Boston Region MPO’s 2010 Freight Study – A Profile of Truck Impacts7, assembled most available regional truck data, but prominently offered a finding that truck data was inadequate and recommended a program of ongoing classification counts.

Other Phase I study findings include:

While trucks dominate regional freight transportation, either directly or in conjunction with an intermodal connection, a substantial number of trucks seen on regional roadways should not be thought of as freight shipments. Many trucks are engaged in local pickup and delivery activities that are not reflected in major freight surveys. A supermarket chain stocking its own stores falls into this category. Also, a significant portion of heavy vehicles are moving construction equipment, cement, building supplies, garbage, and the like. A program of study that focuses on trucks will comprehensively measure the burden of large vehicles on the MPO region’s roads, as well as reflect the great majority of freight shipments in the region.

4         Current FREIGHT Planning Issues

4.1      Truck Issues

4.1.1   Building upon Earlier Truck Studies

The Massachusetts Freight Plan and the Phase I MPO study both recognized the vital role of trucks in the state and regional economies, and both studies identified the obsolete design of interchanges connecting major regional highways as an important issue for trucks. Congestion delay, high truck volumes, and high rollover risk associated with older interchanges affect both trucks and general traffic alike. Programming major highway improvements into the LRTP and associated planning documents is clearly an important responsibility of the Boston Region MPO.

A number of important truck issues, however, involve policy and regulatory matters. While the implementation of policies and regulations is the responsibility of various state and local authorities, the MPO and MPO staff have supported policy-related investigations. These efforts have usually been funded by MassDOT, or in one instance, Massport, but the work has been requested at various times by the MPO, member municipalities, or the state.

A recurring policy issue is the operation of trucks in dense urban areas. The CTPS report, Truck Traffic in East Cambridge and Somerville8 considered the definitions of “excessive truck traffic” and analyzed trucks in a study mandated by the 1997 state transportation bond bill. The Regional Truck Study9 was undertaken in close cooperation with an MPO technical subcommittee. This study focused primarily on Cambridge, Boston, and four adjoining municipalities, and analyzed the status of the roadway truck exclusions then in effect, and the legal prerogatives for establishing or modifying recommended, allowed, or prohibited truck routes.

In the course of these and other investigations MPO staff has become aware of a number of freight issues where the knowledge and capabilities of the MPO staff might be productively utilized, both for project planning as well as for policy analysis. MPO Staff seeks out opportunities to meet with carriers and state and local officials involved with freight issues. Valuable input to the MPO from the public at large is also received through the Regional Transportation Advisory Council, a member of the MPO.

The issues identified through analysis and outreach fall into three broad groups: infrastructure investment planning, urban policy issues, and regional policy issues.

4.1.2   Infrastructure Investment Planning

The regional road system is shared by trucks and passenger traffic. Aging highway facilities built to the standards of an earlier era have a negative impact on both of these vehicle classes. The impacts on trucking can be especially serious:

These concerns are reflected by the Boston Region MPO in the preparation of the TIP. This involves reviewing crash data, available truck counts, and sometimes truck traffic assignments from the MPO travel model set. Based on these and other considerations such as land use, points are added to a project’s overall traffic benefit in recognition of potential benefits specifically for freight movement.

Interchanges of substandard design can cause congestion delay for all traffic, and safety hazards for both cars and trucks. However, certain aspects of obsolete interchange designs are especially serious issues for trucks. Many of these older interchanges have tight turns with a small turning radius, and are almost flat, lacking the recommended amount of superelevation, or banking of the roadway through the tight curves.

MassDOT and the Massachusetts State Police maintain highway crash records that are updated regularly and made available to MPO staff for mapping and analysis. Fortunately, truck crashes are unusual events and the sample size stays appropriately small, with incidents scattered about the region. The Phase I study utilized crash records extensively in developing its findings.

The crash experience record and knowledge of interchange design are complemented by learning the actual number of trucks using congested and obsolete interchanges in the regional highway system. Knowing actual truck volumes at these critical points is important for several reasons:

Unfortunately, very little reliable truck data is systematically collected, and what little that is available is for a limited number of points on interstate highways. Truck volumes at interchanges being considered for reconstruction and on surface roads are basically nonexistent. Obtaining classification counts that break down traffic by type of vehicle for regional roadways on an ongoing basis was one of the important recommendations of the Phase I study.

The impact of bridge weight and height restrictions poses an interesting analytical problem, since it is not possible to count trucks on facilities from which they are currently prohibited. The regional travel model set might be used to estimate how many trucks would use a bridge if it were rebuilt or an underpass if its clearance were increased.

Weight and height restrictions affect roadway facilities in a similar manner, but they reflect two distinct planning issues. In the case of weight restrictions, the bridge has lost its carrying capacity because of age and presumably will be rebuilt at some point. With height restrictions, the bridge may be in good condition, and increasing the clearance would entail decisions both to rebuild a serviceable structure as well as whether to allow trucks to use a route that had been unavailable.

4.1.3   Urban Policy Issues

Some of the most contentious and analytically challenging truck policy issues result from the need to deploy modern truck fleets in dense, older urban areas. The needs of urban populations reflect those of the population as a whole, but the street sizes and the numbers of persons exposed to noise and other adverse conditions differ markedly from the communities outside the urban core, which were laid out in more recent eras.

The need to provide truck access in dense urban areas is legally protected, and the operation of trucks here, as elsewhere, is subject to a variety of state and local regulations intended to ensure safety and minimize adverse effects. Some key issues that relate primarily to trucks operating in a dense urban environment include:

The issues of truck prohibitions and recommended routes, for both non-hazardous goods and hazardous cargoes, have proved especially difficult, both to analyze and to achieve policy consensus. Past efforts by MPO staff to evaluate route restrictions encountered the problem that complete listings of restrictions did not exist. Since these earlier route studies, the problem has become more complex as regional municipalities have interpreted the applicable regulations differently.

Without a master database of truck prohibitions, the best use of staff time might be to focus on a more limited area that could be thoroughly checked for signage. An MPO-sponsored effort could study routing and associated truck volumes in support of a MassDOT regulatory process.

Most truck prohibitions exist in urban areas and divert trucks to other routes within the same municipality. A recent effort, however, to change hazardous cargo routes had the potential to affect the radial interstate highways as far as, and including, the I-95/Route 128 circumferential corridor. Hazardous cargo routes are still classed here as an urban policy issue because the problem is greatest at locations with the highest population density and potential for exposure.

MPO staff supported MassDOT in the hazardous cargo route study. Travel times on alternative routes were measured or estimated, and exposure formulas for shopping malls calculated. Unfortunately, the numbers of fuel tankers that would be affected by the proposed routes were not known. Detailed data collection and model calibration that could have framed the policy issues more completely were not feasible within the study budget and timeframe.

Management of on-street truck loading and unloading appears on this list because it is a perennial community concern in urban neighborhoods, especially those with a strong small business presence. Ultimately, allocation of neighborhood curb space for loading or unloading is an issue for which the municipal authorities are responsible. MPO staff might, in collaboration with a municipality, study and evaluate an urban truck nexus. Analysis of on-street truck activities could also yield useful road network capacity data that could be applied to the MPO regional model set.

4.1.4   Regional Policy Issues

The motor carrier industry faces some important challenges in operating efficiently over longer, often statewide, routes. Industry representatives have highlighted two issues where MassDOT is in a position to offer policy leadership:

New, stricter federal regulations of hours of service by truck drivers will pose a major challenge to the long-distance trucking industry. There is strong sentiment in the industry that the number of rest areas on or near the express highway system in Massachusetts needs to be increased.

The siting of truck rest areas is likely to be a MassDOT policy issue rather than an MPO investment issue since it might involve securing support from a host municipality. Furthermore, current understanding of regional truck flows suggests that the optimal location for a truck rest area might actually be outside the Boston Region MPO area. MPO staff, however, would be able to use modeling, analytical, and field data gathering capabilities to support MassDOT in addressing the rest-area policy question.

The motor carrier industry has indicated to MPO staff that one of its high priorities is to obtain permission—accurately and expeditiously—for overweight and oversized loads to use state highways. These permits are issued on a shipment-by-shipment basis, many of which originate outside Massachusetts. Each permit recipient agrees to adhere to a prescribed route and employ the requisite auxiliary vehicles. Web-based delivery of the permit and required route is considered optimal. Geographic information system (GIS) capabilities of the Boston Region MPO might offer useful support for MassDOT efforts in this area.

4.2      Freight Issues in Other Modes

4.2.1   Rail Issues

Rail transportation is important in Massachusetts, and the state has taken the lead in rail planning, recently issuing the Massachusetts State Rail Plan10. State leadership in rail planning in the Boston Region MPO is assumed because the state owns the majority of rail rights-of-way in eastern Massachusetts, most of which are used primarily for passenger rail operations. Existing or prospective freight operations on these state-owned lines generally requires the cooperation of and often investment by the Commonwealth. Any MPO role in these types of policy decisions would most likely be confined to technical analysis by MPO staff.

Outside the MPO region, the state has partnered with the freight railroads to increase track clearances between New York State and the major intermodal terminals in Worcester and Ayer. Completion of these projects will allow trains hauling containers in a double-stacked configuration to reach these terminals, increasing capacity and reducing the operating costs of long-distance intermodal operations. While these terminals and associated improvements are outside the Boston Region MPO area, many containers are delivered to destinations in the Boston Region MPO, which will directly benefit from these improvements.

A new unit train freight service had recently been proposed to bring ethanol from the Midwest to a fuel terminal in East Boston. Currently, both ethanol and gasoline are delivered by water, blended at a fuel terminal, and then delivered by tanker trucks to regional gas stations. The proposed unit train would have consisted of a group of identical rail cars kept together and operated as a “unit” between a single origin-and-destination pair. The proposed unit train would have reduced or eliminated the need to receive ethanol by barge.

Unit trains of bulk commodities, notably coal, allow railroads to achieve the greatest economies of scale. Ethanol is a hazardous cargo, and prior to the withdrawal of the proposal by the proponent, MassDOT had initiated efforts to add a level of state-mandated emergency preparedness in addition to a federally administered safety review. While there was no direct MPO role in the associated track improvements or regulatory proceedings, an understanding of ethanol travel by rail can complement any work done by MPO staff on hazardous cargo truck routes.

The improvement or elimination of railroad grade crossings is also an important rail safety issue. These improvements are usually implemented as highway projects and are warranted by the frequency and speed of the region’s commuter rail service. Clearly, any rail freight operations in a corridor where grade crossings are eliminated will benefit, and grade crossing elimination should be considered a benefit to freight in any MPO project evaluation.

4.2.2   Port Issues

Rail access to the port of Boston is an often-cited freight issue. At this time, Massport has no plans to implement rail-on-dock service at its Conley Terminal in South Boston. While it is unlikely that the MPO would be involved in the investment decision, the MPO would be in a position to provide technical support, especially with regard to container flows.

The containers arriving at Conley are distributed by truck throughout New England, whereas transferring containers to rail would require developing a new, long-distance distribution market in competition with the large middle Atlantic ports. Massport is lengthening its wharf at Conley, and an expanding economy supported by added terminal capacity can be expected to result in a steady increase in truck traffic emanating from this terminal to serve Conley’s existing regional markets.

Another seaport access issue is the proposed extension of the so-called “Track 61,” also in the South Boston seaport. This track was last used to transport construction materials for use in the CA/T project, and was improved as far as a construction staging area, beyond which it has been inactive.

There have been proposals to reconstruct Track 61 to reach industrial parcels slated for new development, and it has always been assumed that service would be by the carload rather than large unit trains. While it is anticipated that rail rates for carload service would cover the rail service providers’ operating costs, very little contribution to the capital costs of reconstruction would be anticipated, and it is assumed that reconstructing Track 61 would be a public investment, justified to a large degree by support of the working port. The MPO might at some point be involved in programming a public investment, and MPO staff would be able to analyze freight travel impacts.

4.2.3   Other Issues

Air freight has historically experienced stronger growth than the other modes, and all air freight depends upon trucks to connect with customers. Logan Airport has a very small land area for an airport with its level of activity, land that must be shared by passenger, freight, and airline support facilities. Long-term growth in air freight may eventually necessitate adding or expanding regional air freight facilities. Given the scarcity of land at Logan Airport, it might be feasible to direct some future air-side growth to locations like the Massport-operated Worcester airport or the former Pease Air Force Base in New Hampshire.

Several authorized-vehicle-only roadways have been constructed to support both ocean container and air freight movements, and counting trucks on these special-purpose roadways can yield valuable freight data that can also be used to evaluate special-purpose roads as a freight strategy. If opening these routes to general traffic is studied and found feasible, this could become an element of an MPO congestion management strategy.

5         proposal for An MPO freight Action Plan

5.1      Goals, Issues, and Actions

The goals of the MPO freight action plan stated at the outset of this memorandum are:

Related to these broad goals are a number of freight-specific issues concerning the important truck mode as well as the other freight modes. These issues concern establishing infrastructure investment priorities as well as regulatory issues for which state and local authorities are ultimately responsible.

This freight action plan envisions efforts in two broad areas:

The current freight issues that have been included in the action plan are those which MPO staff believes would elicit general stakeholder support. Issues such as local truck prohibitions, on-street loading/unloading, overweight/oversize load routing and permitting, and non-highway investments are issues that MPO staff could study in the future. These studies would require close consultation with implementing agencies as well as stakeholder consensus.

5.2      Action Plan on Current Freight Issues

5.2.1   Infrastructure Investment Planning

MPO and state planning efforts have identified two key highway interchanges—notably the I-93/I-95 interchanges located in Woburn north of Boston and Canton south of Boston, respectively—as causes of severe regional congestion. In addition, crash data and deficient highway geometry at these interchanges indicate that safety is an issue for trucks. To supplement ongoing review of crash data and deficient interchange design, truck volumes estimates should be obtained, either from the regional model set, field observation, or both, in order to:

  1. complete the safety analysis, and
  2. support a potential application for 95% federal funding, in accordance to MAP-21 provisions.

The need to reconstruct the badly deteriorated Beacham Street, serving industrial areas in Everett and Chelsea, has been apparent for a long time. This project, however, is not included in any of the current MPO planning documents. The importance of this corridor for regional logistics is broadly acknowledged, and the freight action plan could anticipate the inclusion of this corridor in an MPO or state plan at some point. This effort would identify major trip generators, notably produce terminals, fuel depots, a scrap metal export pier, and a postal service processing center. Truck movements at these locations would be counted and some proximate turning movements observed. The result would be a clear picture of how freight flows between this industrial area and the regional road network.

As a subject of study, Beacham Street has everything: truck depots, fuel depots, truck trips originating, truck trips passing through, aging roadways, and potentially a nearby casino. A completed Beacham Street study can serve as a model for studies at comparable locations throughout the MPO. Also, one or more points within the study area may be suitable for ongoing measurement as part of the new performance measurements required by MAP-21.

5.2.2   Urban Policy Issues

Urban hazardous cargo movements continue to be of state and local policy interest, and the distribution of fuel from the terminals in East Boston, Chelsea, Revere, and Everett should be a high priority. This work would be similar to the Beacham Street analysis, except that it would include some more distant fuel depots in Revere, East Boston, and other parts of Chelsea. The density of fuel trucks in traffic thins the further the trucks are from their terminals of origin, but some attempt should be made to analyze fuel truck flows to where they enter downtown Boston.

The designation of hazardous cargo routes is an ongoing policy issue within the geographical extent of the MPO. Although the policy deliberations are outside the MPO process, some of the parties involved in the policy issues are MPO members. In this regard, developing data about hazardous cargo movements can be viewed as supporting the MPO.

Some roadways in Boston are limited to commercial vehicles, both trucks and buses. The operating authorities for these routes, MassDOT and Massport, have the option of changing the use eligibility for these facilities. Indeed, general use of the South Boston Haul Road is planned during the upcoming Callahan Tunnel closure. Topics of this study may include:

  1. Callahan Tunnel closure before/after analysis
  2. Volumes of seaport- or airport-related truck traffic
  3. Viability of truck-only routes as a freight strategy
  4. Feasibility and potential benefits of opening these routes to all vehicles. Appropriateness of using these routes as part of congestion mitigation strategy can be considered.

5.2.3   Regional Policy Issues

The capacities of Conley Terminal, Logan Airport airfreight operations, and the intermodal freight terminals in Worcester and Ayer may well be expanded in the future without a need to be programmed by the Boston Region or any other Massachusetts MPO. The resulting increases in intermodal trucking, however, will definitely have an impact on the MPO region, and MPO members have in the past and can be expected in the future to have concerns about intermodal terminal operations. MPO staff can measure use of these terminals using techniques similar to the Beacham Street and hazardous cargo studies, and estimate an existing-conditions baseline that can inform analysis of long-term trends or proposed investments.

This is an important truck corridor connecting the Middle Atlantic and Upper New England regions. This route is at the edge of the Boston Region MPO but entirely within the Boston Region MPO travel demand model area. This has been suggested as a promising area where a needed new truck rest stop might be sited, either on or off I-495. Data from truck counts, license plate surveys, or postcard surveys could be used in conjunction with the statewide model to help state and local authorities estimate the potential use and benefit of any planned rest area, as well as inform traffic safety and operational analyses.

5.3      Action Plan on Performance Measurement, Data Gathering and Collecting, and Improvement of Technical Capabilities

5.3.1   Developing and Updating Performance Measurements

The new transportation performance measures mandated by MAP-21 are now in the second year of a three-year federal rulemaking process, which is expected to go into effect in spring 2015. The 2012 MAP-21 authorization was unusual in that it is only in effect for two years, several years less than other recent multi-year authorizations. It is possible that a new authorization would be enacted in 2014, and would take effect prior to completion of the performance measures rulemaking process. In theory, Congress could modify or even eliminate this reporting requirement. The working assumption at this point is that the rulemaking process would not be affected by the re-authorization.

Up to this time, truck crash data has been a basic tool to indicate parts of the road system that are not serving freight movements safely. State transportation planners assume, however, that measuring the performance of the freight transportation system and tracking its progress will require significantly more data about the patterns and timeliness of truck movements within regional traffic.

Regional traffic congestion is an ongoing concern, and is studied as part of federally mandated Congestion Management Process (CMP). It is assumed that ultimately these ongoing CMP efforts will inform the MPO performance measurement requirements for regional traffic. As in the case with truck crashes, to truly understand the impact of regional congestion on truck traffic, it is necessary to estimate the truck portion of traffic during the most congested periods.

It is anticipated that the regulations that are promulgated in 2015 will set overall measurement requirements, but will also offer a measurement approach that affected jurisdictions can choose to utilize. Until that time, states and MPOs are encouraged to innovate and develop indices from available data. The Boston Region MPO might develop a freight performance measurement utilizing CMP and crash data, as well as data derived from the Boston Region MPO and statewide model sets.

5.3.2   Gathering Freight Data through Ongoing Planning Efforts

The freight-specific investigations described in the previous section are assumed to be funded as part of the envisioned ongoing MPO freight program. The MPO or MPO members might suggest additional freight-specific studies that the ongoing program would undertake, when practical. As has been done at times in the past, the MPO could allocate funds for a freight-specific study that would have its own scope and schedule.

Most studies undertaken at the direction of the MPO are not freight specific, however. These studies variously look at corridors, intersections, station areas, or regional congestion. Trucks in varying numbers make up a portion, usually unknown, of traffic in the diverse study areas. Estimating the impact of trucks, as well as the benefits to trucks of improvements within the study area, is difficult when the truck volumes are not known. In many cases, calculating the impacts and benefits of total traffic is a perfectly acceptable approximation.

Coordination between these more general studies and the freight action plan can provide an efficient way of obtaining truck data on an ongoing basis. Many regional locations are studied each year, some of which involve more freight and logistics activities than others. Those locations with more noteworthy freight activities can be studied as resources permit as part of the freight action plan. These efforts would yield freight analyses for incorporation into the general studies, and data obtained would be structured for use in ongoing model improvement efforts. Efficiencies would be derived in this approach as analysts looking at different aspects of a study—such as land use, traffic, and safety—would be able to coordinate their efforts and pool their findings.

A recent example of potential synergy was presented by a study of safe bicycle and pedestrian access to an urban transit station. A field visit noted relevant safety issues, and also observed that the station was next to a large plumbing-supply distributer. It was noted that the plumbing distributer did not appear to pose any dangers to station access. However, several hours of additional field work could have established a ratio of large trucks supplying the distributor to smaller plumbers’ vans purchasing supplies. Patterns of access and egress and trip-generation rates might also have been noted. Such additional findings might have been appropriate at some level of detail for the station area analysis, but would have extremely valuable in truck model development.

5.3.3   Improving Analytical Capabilities.

The freight-specific studies as well as the freight enhancements of the more general studies are all assumed to require new data collection. Neither existing truck data nor current model assignments adequately represent truck activity at most regional locations.

Given the general scarcity of detailed freight and truck data, the quantity of data that the action plan might develop in the studies listed above represents a veritable trove of new knowledge about regional logistics. Not only would these newly obtained data inform discussion of regional transportation issues, but they also would provide vital raw material for the process of improving truck components of the regional travel demand model set.

Appendix B describes in greater detail the treatment of trucks in the travel demand model and the techniques that can be used to improve the modeling of truck movements. The appendix lists three important capabilities offered by a calibrated model:

In addition to these three practical uses might be added a fourth use. The model can serve as a repository for the diverse types of truck data acquired to address the issues and topics of concern to stakeholders. Re-estimation of truck components of the travel demand model as data is acquired allows the model to gradually evolve into a more dependable representation of truck activity.

The performance measurements that are mandated by MAP-21 are still being developed. The freight measurements will be promulgated later in the process, with review of proposed rules in 2014 and final rulemaking in 2015.

It is anticipated, however, that there will be some flexibility within the regulations that are eventually adopted. The acquisition of data and its incorporation into a process of model improvement will prepare the Boston Region MPO to respond to guidance from the future federal regulations.

6         conclusions and recommendations

6.1      Conclusions

Development of the freight planning action plan began with a review of MPO freight planning practices, both in Massachusetts and elsewhere, with special attention to the vital state roles in freight planning. The freight planning capabilities of the Boston Region MPO were also reviewed. Several general observations from the exploratory phase of this study that informed the preparation of the action plan include:

6.2      Recommendations

The specific tasks included in the recommended action plan fall into two general groups: 1) studying specific freight-related issues, and 2) expanding and utilizing MPO data and technical resources. Each task in these two groups furthers one or more of the five action plan goals:

The first three goals are met through six recommended studies. These six studies could be supplemented by similar studies requested by the MPO membership. The six initial studies are:

Most of these six studies also complement official planning efforts insofar as some level of official planning interest has been expressed about the topics. These studies also focus on locations and topics where a large amount of truck and logistics data would be obtained in the course of the study, supporting the fourth goal of expanding technical capabilities.

There are three action items that meet the last two goals above:

The figure on the following page shows graphically the development of the Proposed MPO Freight Action Plan.

In closing, the proposed MPO Freight Planning Action Plan described in this memorandum will yield important policy findings, logistics insights, and useful data. These efforts will also form an MPO freight planning foundation on which to base further freight study and analysis.

 

WSK/wsk


The figure shows graphically the development of the Proposed MPO Freight Action Plan.

           APPENDIX A

           Survey of MPO Freight Planning Practices

A-1      Introduction

The requirements of the MPO planning process are described in the Code of Federal Regulations (CFR), Part 450. There are several references to freight in CFR § 450.322, which concerns the development and content of a metropolitan transportation plan. The prescriptive text is:

This implies that MPO freight planning might focus on trucks that can be projected and studied as a component of overall road traffic. In this minimal sense, traffic planning is freight planning.

Other freight modes can also be studied, either by MPOs or as part of required statewide freight plans. The analysis and modeling of truck movements by MPOs, however, remains a core planning capability for four reasons:

In addition to the basic requirement that MPO planning “…relieve[s] vehicular congestion and maximize[s] the safety and mobility of people and goods,” MPOs may choose to become involved in freight planning. Better understanding the variety of MPO freight planning practices is the purpose of this appendix.

A-2      Characterizing MPOs by Freight Planning Practices

A large sample of MPOs was selected for this analysis in order to ensure that a variety of freight planning efforts would be represented. An initial 70-MPO sample was formed consisting of Boston as well as all 69 MPOs that are geographically larger than the Boston region. In addition, seven selected MPOs geographically smaller than Boston are discussed later in this memorandum. 

After the large MPOs were identified, an initial group of websites was studied to learn the types of freight-specific activities being reported, focusing especially on publications. This preliminary review suggested that MPO freight-specific activities could be thought of as a set of ascending steps. The 70 large and 7 small MPOs were then characterized by the highest level of freight planning activity that they report.

At the lowest level, an MPO website will report no freight-specific activities at all. Travel demand models utilized by these MPOs may have a truck component, but this is not considered a “freight-specific activity.”

The next level up is the case of an MPO that does no freight-specific planning itself, but participates in a larger regional group, usually consisting of several MPOs, that has some level of freight-specific activity.

The minimal MPO freight-specific activity is sponsoring a freight advisory group. Membership structures vary, and limits on the scope of proffered advice appear few.

The next step is doing freight-specific studies. At this level, the studies tend to give an overview of freight in the MPO region, offer broad recommendations, and allow decision makers and implementing agencies to be better informed about freight issues. These studies may be performed by MPO staff or by a consultant working for the MPO.

The highest level of freight planning is for an MPO to develop specific infrastructure proposals, or analyze and select freight-specific projects. The planning efforts may be performed by MPO staff or by a consultant working for the MPO. A resulting freight-specific proposal can be implemented by an operating agency.

A-3      Characterizing MPOs Demographically and Geographically

A website maintained by the U.S. DOT lists all MPOs and their websites, as well as both population and land area of each planning region. The readily available land area measurement not only serves as a basis for selecting the 70-MPO sample, but provides a context for considering the role of MPOs in freight planning. Industrial and logistics activities that benefit from economies of scale are now finding suitable sites further from urban centers at locations that are more likely to be within a geographically large MPO.

Table 1 summarizes the freight-planning efforts of the 70 geographically largest MPOs, including Boston. In the table, MPOs are grouped by their highest level of freight-specific activity. MPOs doing “planning,” the highest level, are listed at the beginning of the table and are referred to as the planning group. After the planning group are 7 MPOs that do studies, the study group, followed by two groups of MPOs progressively less involved with freight. The 32 MPOs that report no freight-specific activity comprise the remainder of the table.

Boston appears on the first page in boldface type and is characterized as an MPO that studies freight issues. To facilitate comparison of the Boston Region MPO with other MPOs, the population and land area columns in Table 1 are expressed as an index, with Boston equaling 100 for both metrics.

With 3,160,000 residents, the Boston Region MPO is the 14th largest MPO by population. With 1,458 square miles, however, Boston is only the 70th largest MPO geographically. The 69 other MPOs cited in Table 1 all have land area indices greater than 100. In the case of the Los Angeles MPO, the land area is more than 26 times greater.

Each MPO group is arranged in descending order of population. No MPO more populous than Boston has a smaller land area, and all 13 MPOs with more residents appear in Table 1. Of the 14 MPOs in the planning group, seven are more populous than Boston. In the study group, North New Jersey, Houston/Galveston, and Detroit have more residents than Boston. On the second page of Table 1 are shown the six MPOs that only sponsor advisory groups, and of these only Seattle/Tacoma is more populous than Boston. Washington, DC and Phoenix, AZ are more populous than Boston, but lead the group of 32 MPOs that report no freight-specific activity at all.

The population densities of each MPO are also shown in Table 1. With 2,167 residents per square mile, Boston is the second-densest MPO region. The MPO for New York City is the densest MPO, extending nearly twice the land area as Boston but having almost four times the population. The third densest MPO is Chicago, but its density is achieved with population and land area almost three times those of Boston.

 

 

Table 1a
Freight-Specific Activities by MPOs Geographically Larger than the Boston Region MPO
MPOs that Plan Specific Freight Projects
Location State(s) Boston=100
Population
Boston=100
Area
Population/
Square Miles
Freight-specific MPO activities featured on website
Advise
Freight-specific MPO activities featured on website
Study
Freight-specific MPO activities featured on website
Plan
Other freight-related activities Total
Population
Square
Miles
LA area (6 counties) CA  571 2,651 467 x x x MPO freight subcommittee 18,051,203 38,649
NYC (10 counties) NY  391 187 4,537 N/A x x N/A 12,367,508 2,726
Chicago  IL  267 281 2,062 x x x C.R.E.A.T.E. participant 8,444,660 4,096
SF area (9 counties)  CA  226 513 955 N/A x x Trade Corridor Improvement Fund 7,150,828 7,485
Dallas/Fort Worth TX  203 341 1,292 x x x dedicated 4-person freight staff 6,417,630 4,969
Philadelphia  PA, NJ  178 261 1,476 x x x N/A 5,626,318 3,811
Atlanta  GA  153 314 1,054 x x x N/A 4,819,026 4,573
San Diego County CA  98 292 727 N/A x x TransNet county tax measure 3,095,271 4,260
Pittsburgh  PA  81 488 362 x x x N/A 2,574,953 7,110
Cincinnati  OH,KY,IN  63 180 756 x x x N/A 1,981,230 2,619
Hampton Roads VA  51 143 777 x x x N/A 1,618,505 2,082
Nashville  TN  44 199 477 x x x N/A 1,382,526 2,899
Buffalo  NY  36 108 721 N/A x x N/A 1,135,511 1,576
Fresno County CA  29 413 155 x x x San Joaquin Valley Blueprint (8 MPOs) 930,885 6,016
14 MPOs Combined N/A 171 455 814 N/A N/A N/A N/A 5,399,718 6,634

 


 

Table 1b
Freight-Specific Activities by MPOs Geographically Larger than the Boston Region MPO
MPOs that Study Freight Issues
Location State(s) Boston=100
Population
Boston=100
Area
Population/
Square Miles
Freight-specific MPO activities featured on website
Advise
Freight-specific MPO activities featured on website
Study
Freight-specific MPO activities featured on website
Plan
Other freight-related activities Total
Population
Square
Miles
North Jersey NJ  208 302 1,492 x x N/A N/A 6,579,801 4,409
Houston/Galveston TX  186 581 696 N/A x N/A N/A 5,892,002 8,466
Detroit  MI  149 316 1,021 N/A x N/A C. of C. Translinked participant 4,703,593 4,608
Boston  MA  100 100 2,167 x x N/A N/A 3,159,512 1,458
Cleveland  OH  66 138 1,033 N/A x N/A N/A 2,071,325 2,006
Austin  TX  51 195 565 N/A x N/A N/A 1,603,952 2,840
Birmingham  AL  27 133 441 x x N/A N/A 853,551 1,934
Yuma  AZ, CA  6 379 35 N/A x N/A N/A 195,807 5,522
8 MPOs Combined N/A 99 268 802 N/A N/A N/A N/A 3,132,443 3,905

 

 

Table 1c
Freight-Specific Activities by MPOs Geographically Larger than the Boston Region MPO
MPOs that Sponsor Freight Advisory Groups
Location State(s) Boston=100
Population
Boston=100
Area
Population/
Square Miles
Other freight-related activities Total
Population
Square
Miles
Seattle/Tacoma WA  117 438 578 FAST Corridor participant 3,690,866 6,384
Baltimore  MD 84 158 1,158 N/A 2,662,204 2,299
Miami  FL  79 138 1,237 N/A 2,492,108 2,015
Sacramento  CA  72 424 368 N/A 2,274,557 6,189
Kansas City  MO, KS  60 149 875 Kansas City Smartport member 1,895,535 2,167
Albany  NY  26 151 374 N/A 823,239 2,204
6 MPOs Combined N/A 73 243 651 N/A 2,306,418 3,543

 


 

Table 1d
Freight-Specific Activities by MPOs Geographically Larger than the Boston Region MPO
Freight-specific Efforts by Regional Groups
Location State(s) Boston=100
Population
Boston=100
Area
Population/
Square Miles
Other freight-related activities Total
Population
Square
Miles
Bakersfield  CA  27 560 103 San Joaquin Valley Blueprint (8 MPOs) 839,614 8,161
Monterey (3 counties) CA  23 353 142 Central Coast Comm. Flows (3 MPOs) 732,667 5,151
Harrisburg  PA  18 117 337 5-MPO South Central PA Freight Study 571,847 1,699
Stanislaus County CA  16 104 340 San Joaquin Valley Blueprint (8 MPOs) 514,453 1,514
Spokane  WA  15 122 265 Inland Pacific Hub participant 471,221 1,776
Tulare County CA  14 332 91 San Joaquin Valley Blueprint (8 MPOs) 442,171 4,838
Santa Barbara County CA  13 189 154 Central Coast Comm. Flows (3 MPOs) 423,891 2,751
San Luis Obispo County CA  9 228 81 Central Coast Comm. Flows (3 MPOs) 269,637 3,323
Merced County CA  8 135 130 San Joaquin Valley Blueprint (8 MPOs) 255,366 1,971
Madera County CA  5 148 70 San Joaquin Valley Blueprint (8 MPOs) 150,865 2,152
10 MPOs Combined N/A 15 229 140 N/A 467,173 3,334

 

 

Table 1e
Freight-Specific Activities by MPOs Geographically Larger than the Boston Region MPO
No MPO Freight-specific Activities Mentioned
Location State(s) Boston=100
Population
Boston=100
Area
Population/
Square Miles
Total
Population
Square
Miles
Washington  DC,MD,VA  158 213 1,604 4,991,324 3,111
Phoenix  AZ  123 640 415 3,871,710 9,338
Minneapolis/St. Paul  MN  90 204 959 2,849,557 2,970
Denver  CO  89 247 784 2,827,082 3,605
St. Louis  MO, IL  81 315 561 2,571,253 4,586
Milwaukee WI  64 184 752 2,019,767 2,685
Las Vegas  NV  62 555 241 1,951,300 8,089
Orlando  FL  58 196 642 1,837,385 2,860
Salt Lake City  UT  49 122 879 1,561,348 1,777
West Palm Beach  FL  42 137 659 1,318,571 2,002
Jacksonville  FL  40 127 687 1,274,426 1,855
Oklahoma City  OK  36 144 545 1,140,532 2,093
Raleigh  NC  34 110 669 1,071,012 1,600
Tucson  AZ  31 631 107 980,263 9,195
Richmond  VA  30 148 431 934,060 2,165
Northwest Indiana IN  24 104 507 771,648 1,523
Little Rock  AR  20 110 388 621,397 1,603
Polk County FL  19 138 299 602,069 2,013
South Jersey NJ  19 119 342 594,419 1,738
Lansing  MI  15 117 271 464,036 1,712
Central Mississippi MS  15 109 289 461,430 1,595
Northwest Arkansas AR  13 126 231 424,404 1,836
Reno  NV  13 445 64 412,326 6,489
Beaumont  TX  12 153 174 388,746 2,229
Shreveport  LA  12 124 206 371,948 1,805
Marion County FL  10 114 199 331,309 1,665
Naples  FL  10 145 152 321,522 2,117
Utica  NY  9 186 111 299,541 2,710
Butte County CA  7 115 131 220,000 1,675
Shasta County CA  6 264 46 177,223 3,843
Glens Falls  NY  5 125 79 143,664 1,818
Skagit County WA  4 120 67 116,901 1,750
32 MPOs Combined   38 206 395 1,185,068 3,002


A-4      Variety of MPO Freight-specific Activities: Modest to Ambitious

A-4.1   Advice and Advocacy

Three columns in the center of the first page of Table 1 indicate MPO efforts in each of the three freight-specific activities: advising, studying, and planning. While Boston sponsors a freight-advisory group, a number of MPOs that do studies or develop plans do not report having a freight advisory committee. In these MPOs, any freight advocacy takes place outside the MPO, and some websites make reference to these non-MPO efforts, such as the Translinked advocacy effort sponsored by the Detroit Chamber of Commerce, shown directly above Boston. Six MPOs that only sponsor freight-advisory committees are listed in their own group at the top of the second page of Table 1.

A-4.2   Geographical Expansion

The importance of geographical extent in freight planning is illustrated by the two MPO groups on the second page of Table 1: MPOs that only sponsor freight-advisory groups and efforts by larger, regional groups. The Seattle/Tacoma MPO is more populous than Boston and covers more than four times the land area, but its freight plans are developed through the Freight Action Strategy for the Everett-Seattle-Tacoma Corridor (FAST Corridor) effort that includes neighboring MPOs, state agencies, and private carriers. The freight planning for Kansas City is also undertaken by a larger, multi-jurisdictional group that includes the MPO as a member.

Geographical extent is also expanded by developing freight plans on a multi-MPO basis. Sixteen MPOs are referenced in Table 1 as participating in multi-MPO freight planning. All MPOs in California consist of one or more counties, and eight single-county MPOs cooperate in a planning effort called the San Joaquin Valley Blueprint. Seven of these eight MPOs are larger than the Boston Region MPO and appear in Table 1. All eight websites cite ongoing freight-planning efforts undertaken under the aegis of the Blueprint. Fresno County, a Blueprint member, also does its own freight planning and is included in the planning group of MPOs.

Three California MPOs consisting of five counties extending from Monterey Bay to Santa Barbara have joined to sponsor the Central Coast Commercial Flows Study. This study identifies freight bottlenecks and is also working with the Monterey Bay MPO to evaluate the potential for a rail intermodal terminal specializing in agricultural products.

Five MPOs in Pennsylvania jointly commissioned the South Central Pennsylvania Freight Study. Only the Harrisburg MPO is larger than Boston, and it mentions no freight-specific activity outside of the five-MPO study.

A-4.3   The Planning Group

The freight-specific planning activities by the14 MPOs in the planning group at the beginning of Table 1 are interesting in two respects. Not only do they illustrate a range of MPO planning activities, but they also manifest institutional arrangements where the MPO is entrusted with freight-planning responsibilities. Many of the planning studies are done by consultants, but the detail and specificity of the proposals accepted by the MPO clients indicates the central role of these MPOs in certain aspects of the freight-planning process. This section highlights only a few of the freight-planning topics investigated by these MPOs.

A-4.4   The Largest Group: No Freight-specific Planning

Of the 70 MPOs in Table 1, 32 do not report any freight-specific activity, and are cited on the last two pages of Table 1. The Washington, DC and Phoenix, Arizona MPOs are more populous than the Boston Region MPO, and Minneapolis and Denver are similar in population. Most of the geographically smaller MPOs, some only slightly larger than Boston, are found in this group.

The Phoenix MPO does highlight a freight effort on its website. Phoenix retained a consultant to undertake a truck survey for the express purpose of improving the truck component of the MPO’s regional travel demand model. Since the underlying assumption of this study is that MPOs will reflect trucks in their travel demand models in some manner appropriate to the data available to them, surveying trucks for model improvement is not considered a “freight-specific” activity.

A-4.5   Summary Statistics and Smaller MPOs

Summary statistics of the 70 MPOs listed in Table 1 are presented at the top of Table 2. Planning and demographic information for Boston and seven selected smaller MPOs is also shown at the bottom of Table 2.

As shown in Table 2, on average, the geographically larger MPOs tend to give freight-related activities more prominence. Given that there are a number of large MPOs without freight-specific activities and small MPOs with freight-specific efforts, the size of the MPO, per se, will not necessarily indicate the appropriateness of freight-specific planning at a particular MPO.

The New Orleans MPO offers an important example. The New Orleans region has one-third the population of the Boston region, but is almost the same size geographically. New Orleans does freight planning, one focus of which is intermodal connections. Unlike the Boston Region MPO, however, the transcontinental rail connections and extensive industrial Mississippi riverfront all lay within the MPO region.

The 69 MPOs summarized at the top of Table 2 are on average larger than the Boston Region MPO, which is as expected because this sample was formed from all MPOs geographically larger than Boston. It can be argued, nevertheless, that on average these MPOs are much larger. Even if SCAG, the Los Angeles MPO, is removed from the 14-MPO planning group, that group would have an average size of 4,171 square miles, almost three times the size of the Boston Region MPO.

The advantage of a large geographical extent in freight planning is that industrial and logistics activities that are gradually moving to less dense areas and implementing newer, larger freight systems are more likely to be found in a larger study area. The demonstrably small Boston MPO region has already witnessed the out-migration of key logistics activities, and any MPO freight-planning program should acknowledge this.

 

Table 2a

Summary of Geographically Large MPO Groups

 
MPOs Geographically Larger than Boston Grouped by Activity Number of MPOs  MPO Group Average Total Population  MPO Group Average Square Miles  MPO Group Average Population/Square Mile
Plan freight projects 14     5,399,718 6,634 814
Study freight issues 7     3,128,576 4,255 735
Sponsor advisory groups 6     2,306,418 3,543 651
Work with regional groups 10     467,173 3,334 140
No freight-specific activities 32     1,185,068 3,002 395

 

 

Table 2b

Selected Geographically Smaller MPOs

 
Selected Geographically Smaller MPOs Freight- specific Activity  MPO Size and Density  Total Population MPO Size and Density Square Miles MPO Size and Density  Population/Square Mile
Boston, MA Study 3,159,512 1,458 2,167
Louisville, KY & IN Study 1,060,541 1,419 747
Indianapolis, IN None 1,518,800 1,337 1,136
New Orleans, LA Plan 1,057,709 1,329 796
San Antonio, TX None 1,763,463 1,287 1,370
Providence, RI None 1,053,527 1,193 883
Hartford, CT None 757,215 760 996
Portland, OR None 1,499,844 487 3,080


 


APPENDIX B

           Gathering Data and Improving Truck Modeling

B-1      Trucks in the Boston MPO Travel Demand Model Set

The Boston Region MPO travel demand model set is a computer-based tool that depicts transportation activity across 164 municipalities in eastern Massachusetts. The model can depict trips in a recent year or a future year, and can estimate trips by mode, trip purpose, vehicle type, or time of day. Demographic trends are reflected in long-range projections, and effects of changes to the transportation system can be estimated for either near-term or long-range scenarios.

How closely the model results reflect observed travel patterns will depend upon the quality and quantity of available travel data. The model is adjusted to reflect this available data, a process known as calibration. A calibrated model offers several broad classes of transportation insights, including

Vehicle and truck volumes estimated by the model can be invaluable in understanding and potentially solving freight and truck issues. The third model result listed above, “filling in the blanks,” so to speak, is one of the most directly useful results. All truck issues, either investment planning or policy related, should be informed by the numbers of trucks affected. Any question regarding trucks should begin with a review of the numbers of trucks estimated by the model to be operating in the study area. These numbers may be deemed to be appropriately reliable for the investigation at hand, or they may inform targeted additional fieldwork.

The model also estimates the impact of changes to the network such as the numbers of trucks that could be expected to use a weight-restricted bridge after reconstruction. Changes in truck traffic resulting from long-term traffic trends and changes in land use patterns are modeled outcomes that can inform a number of planning efforts.

Preparing the truck components of the regional travel demand model set to support these analyses poses several challenges:

None of these challenges is insurmountable. Indeed, these four circumstances, both individually and collectively, should serve as an incentive to gather data and refine the model set so that the movements of trucks within the overall assigned traffic flows come to more closely reflect actual truck travel patterns.

Gathering truck data and improving truck modeling capabilities will be an incremental process. Reliable truck data may be obtained in the future as a task of the proposed regional freight program. Alternatively, information about trucks may be gathered as a supporting task for some other project not necessarily focused on freight. In study efforts where freight and trucks are not central, the freight program should be able to fund some level of data gathering that could both inform a brief freight commentary for use in the study, as well as contribute quantitative data for the ongoing process of model improvement.

These data obtained on a project-by-project basis through field observation, interviews, toll reports or other means can be used to re-estimate truck flows on a periodic basis, gradually enhancing the accuracy with which the model depicts current truck travel patterns. Task two of this study illustrates this with an example of how newly obtained data, in this case entry-exit analyses of Massachusetts Turnpike toll reports, can be used to re-estimate the distribution of regional truck trips.

Analysis of current truck flows from turnpike toll reports shows a large number of trucks enter the Boston regional model area on Interstate 90 west of I-495, and then this strong flow of trucks gradually thins as it nears Boston, as more trucks leave to use the I-495 and I-95 beltways than enter I-90 eastbound to reach downtown Boston. The model currently distributes trucks in this corridor more in the manner of daily commuters, with the number of trucks increasing as I-90 approaches the urban core. The truck trip table will be re-estimated to reflect these toll report-based findings. The toll structure for trucks is also being updated based upon new calculations of average truck size that were also obtained in this investigation.

B-2      Types of Trucks and Cargo

Knowledge about the contents of trucks and their movement patterns would provide valuable information about the logistics systems that underpin the regional economy. Given the scarcity of truck data at present, it is assumed that in the near term, data-gathering efforts will need to focus on the overall truck movements rather than on specific commodities.

Hazardous cargo, however, is a class of commodity whose measurement and modeling require attention throughout the freight program. Trucks carrying hazardous cargo, mostly gasoline and home heating oil, are assigned separately to roadways in the regional model network from which they are not expressly excluded. Not only are these vehicles subject to truck exclusions such as on parkways, they are also excluded from tunnels including the Central Artery, the Turnpike Extension under the Prudential Center and Copley Place, and the harbor crossings including the Tobin Bridge, whose approach passes underground.

The designation of hazardous materials (hazmat) routes is an important ongoing regulatory issue. Analysis is complicated by the designation of hazmat routes that allow hazardous cargo only to certain destinations. The proposed increase of ethanol processing in Boston may result in a need to reliably model hazmat truck traffic.

Another data and modeling issue is the treatment of pickup trucks and vans traveling for business purposes. These vehicles make up a significant portion of traffic, exceeding the numbers of large trucks by currently unknown factors. These vehicles are indistinguishable from private autos when using technical data-gathering tools such as tubes, loops, or toll reports. The regional model set assigns these trips from a pickup and van trip table trip table which was estimated without the benefit of a broad-based survey. This may be the least understood component of the regional model set.

B-3      The Geographical Extent of Regional Logistics

The many intricate supply chains serving the North American economy seek and realize economies of scale as technology and land use patterns steadily evolve. Double-stacked container rail service, statewide permitting of 53-foot trailers, higher vertical stacking standards for new warehouses, and expansion of the Panama Canal are all powerful cost-reduction drivers to which New England is still adapting.

The geographic footprints of facilities and service regions expand together with these trends, as illustrated by a few examples. The celebrated transit-oriented development in the North Point area between the Lechmere and Community College rapid transit stations was made possible by the relocation of a small truck-rail intermodal terminal in the 1970s to a larger facility in Ayer, convenient to Interstate 495 and just outside the boundary of the Boston Region MPO. Similarly, intermodal operations at the Beacon Park facility in Allston have recently been replaced by a newly rebuilt and much larger facility in Worcester. Finally, the region’s largest supermarket chain, Stop and Shop, relocated its warehouse operations several years ago from an older industrial area at the southern tip of Boston to a new facility in Freetown, outside the Boston Region MPO, from which it stocks most of its stores in New England.

In recognition of the constrained geographical extent of the Boston Region MPO, the MPO travel demand model area includes 164 eastern Massachusetts municipalities, 63 more than are included in the 101-municipality Boston Region MPO. The model area includes three neighboring MPOs in their entirety: Merrimack Valley Planning Commission (MVPC), Northern Middlesex Council of Governments (NMCOG), and Old Colony Planning Council (OCPC). Portions of Montachusett Regional Planning Commission (MRPC), Central Massachusetts Regional Planning Commission (CMRPC), and Southeastern Regional Planning and Economic Development District (SRPEDD) are also included into the model area.

Of the three examples mentioned above, only the intermodal facility in Ayer, an MRPC community, is within the model region. Any truck entering the Boston MPO region model area from the expanded intermodal terminal in Worcester, a CMRPC community, or the Stop and Shop warehouse in Freetown, a SRPEDD community, is treated as an “external” trip, and is indistinguishable in the model from a truck originating in a different state.

The 164-municipality model area encompasses the entire extent of I-495, the metropolitan region’s outer beltway. The phase I freight study11 identified the northwest arc of this highway as being the heaviest truck route in the region. Indeed, the need to plan for truck rest areas is consistently flagged as a freight-planning issue, and this key corridor connecting northern New England with the Middle Atlantic region always enters into these discussions. Unfortunately, only portions of I-495 lie within the 101-municipality Boston Region MPO.

B-4      The Statewide Model

The Massachusetts statewide traffic model is a tool that could potentially address some of the issues of industrial logistics lying outside the Boston Region MPO travel demand model area. The statewide model actually includes all of Rhode Island and southern New Hampshire, including Manchester, Portsmouth, and the former Pease Air Force Base.

Modeling distribution into the MPO region from the closer-in external locations, such as the intermodal terminal in Worcester and the Stop and Shop warehouse in Freetown, would clearly support MPO freight planning. The placement of rest areas in response to stricter federal hours of service regulations is a problem that would benefit from some understanding of the longer truck movements that the statewide model estimates.

The statewide and MPO models are in distinctly different stages of development. It is envisioned, however, that any truck data developed that is used to improve the Boston MPO travel demand model set would also be utilized in efforts to update and improve the Massachusetts statewide model.

B-5      Conclusion

The first objective of the MPO freight program is that it should complement freight-planning efforts by the state and individual planning agencies. This can mean much more than merely ensuring that any findings and recommendations of an MPO freight program agree with state and agency plans. Model use and development activities by the Boston Region MPO staff are ongoing and intensive, and expanded capabilities in the realm of freight should be available to state and agency planners. The steady acquisition and incorporation of freight and truck data into both the Boston Region MPO and statewide model sets harnesses the technical resources of the Boston Region MPO staff in support of statewide and agency freight planning.

1 Moving Ahead for Progress in the 21st Century, 2012 Federal Authorization

2 Massachusetts Freight Plan, MassDOT, 2010

3 Boston Region MPO Long-Range Transportation Plan: Paths to Sustainable Region, 2011

4 Code of Federal Regulations, CFR § 450.322. See Appendix A.

5 Ibid.

6Federal Register, October 15, 2012

7 Results of the Boston Region MPO’s 2010 Freight Study – A Profile of Truck Impacts (2012)

8 Truck Traffic in East Cambridge and Somerville (1999)

9 Regional Truck Study (2001)

10 The Massachusetts State Rail Plan, MassDOT, 2010

11 Results of the Boston Region MPO’s 2010 Freight Study – A Profile of Truck Impacts (2012)