Impact Of A Smoothness Incentive Disincentive On Hot Mix Asphalt Maintenance Resurfacing Costs
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| Author | : Kevin K. McGhee |
| Publisher | : |
| Total Pages | : 40 |
| Release | : 2006 |
| Genre | : Pavements, Asphalt |
| ISBN | : |
Smoothness, the absence of bumps and dips in the riding surface of a pavement, improves the quality of the ride and is believed to prolong the life of the pavement. This research addressed the impact of potential pay adjustments for smoothness on maintenance contract prices for hot-mix asphalt. In addition to the construction costs associated with potential incentives/disincentives for smoothness, the research examined the financial value of the resulting product (presumably smoother pavements). The analysis included maintenance cost savings for the owner/agency, as well as any reduction in delay and operating costs for the motoring public. A detailed statistical analysis of 5 years of Virginia's plant mix resurfacing schedules found no statistically definitive impact on bid price as a result of the Virginia Department of Transportation's (VDOT) special provision for rideability for asphalt pavements. A similar analysis on a more focused data set, however, did document a lifetime reduction in the International Roughness Index (IRI) of almost 9 in/mi. This reduction in roughness (increase in smoothness) implies an increase in pavement service life, which translates into reduced annual maintenance costs. Although the analysis supports as much as 7 years in additional functional life, an example calculation demonstrates that just a 2-year life extension will supply approximately $1,295 (about 6% of material costs) in owner/agency savings for every lane-mile of highway that is resurfaced under the special provision for rideability. If VDOT continues to employ the special provision with the frequency it has averaged over the past 4 years (1,033 lane-miles per year), using the special provision will save on the order of $1.3 million per year. The lifetime decrease in roughness can lead to even more dramatic user cost savings. One real example provided in the report demonstrates a fuel cost savings (for trucks alone) of $160,000 over a 10-year period for each lane mile of highway that is resurfaced under the special provision for rideability.
| Author | : Douglas M. Marshall |
| Publisher | : CRC Press |
| Total Pages | : 1944 |
| Release | : 2015-10-26 |
| Genre | : Political Science |
| ISBN | : 113802693X |
The proliferation of technological capability, miniaturization, and demand for aerial intelligence is pushing unmanned aerial systems (UAS) into the realm of a multi-billion dollar industry. This book surveys the UAS landscape from history to future applications. It discusses commercial applications, integration into the national airspace system (NAS), System function, operational procedures, safety concerns, and a host of other relevant topics. The book is dynamic and well-illustrated with separate sections for terminology and web- based resources for further information.
| Author | : Piyush Sharma |
| Publisher | : |
| Total Pages | : |
| Release | : 2013 |
| Genre | : |
| ISBN | : |
In an effort to motivate contractors to complete construction projects early on high-impact highway pavement construction projects, state transportation agencies (STAs) including TxDOT have often used incentive/disincentive (I/D) contracts. However, determining I/D rates is extremely difficult due largely to the lack of systematic methods for helping STAs determine effective I/D rates. The primary goal of this project is to develop a novel framework for determining the most realistic and economical I/D dollar amounts for high-impact highway improvement projects. To achieve its goal, this project proposes an integration analysis including project schedule and the lower and upper bounds of the I/D contract. The lower bound is the contractor's additional cost of acceleration, and the upper is the total savings to road users and to the agency. The study data were gathered using Construction Analysis for Pavement Rehabilitation Strategies (CA4PRS) software. These data were then grouped by four different types of pavements, namely Joint Plain Concrete Pavement (JPCP), Continuously Reinforced Concrete Pavement (CRCP), Hot Mix Asphalt (HMA), and Milling and Asphalt Concrete Overlay (MACO). With these data, a series of regression analyses were carried out to develop predictive models for the validation of time-cost tradeoff to determine I/D lower bound. Road user cost and agency cost savings were quantified using CA4PRS to develop lookup tables to determine I/D upper bound. Adjustment of contractors' additional cost of acceleration with Level of Service (LOS) and total savings adjustment using Net Present Value (NPV) were incorporated in the research study to calculate point based estimates of I/D for lower and upper bound, respectively. Lastly, case studies on real world projects were conducted to evaluate robustness of the model. The research results reveal that the predictive models give appropriate results for the case studies in determining the I/D dollar amount for the lower and upper bound. This study will provide the research community with the first view and systematic estimation method that STAs can use to determine the most economical and realistic I/D dollar amount for a given project- an optimal value that allows the agency to stay within budget while effectively motivating contractors to complete projects ahead of schedule. It will also significantly reduce the agency's expenses in the time and effort required for determining I/D dollar amounts. The electronic version of this dissertation is accessible from http://hdl.handle.net/1969.1/151087
| Author | : Michael D. Fontaine |
| Publisher | : |
| Total Pages | : 70 |
| Release | : 2009 |
| Genre | : Road markings |
| ISBN | : |
The Virginia Department of Transportation (VDOT) currently uses snowplowable raised pavement markers (SRPMs) to supplement longitudinal pavement markings on some facilities. SRPMs are much more visible than traditional longitudinal markings under wet, nighttime conditions. SRPMs have been reported to dislodge from pavement, however, which has raised the question as to whether alternative marking materials might be able to replace SRPMs. The purpose of this study was to investigate the visibility performance of longitudinal pavement marking materials currently on the market. The specific objectives of this study were (1) to determine whether or not new pavement marking materials could be used in place of SRPMs; (2) if SRPMs were to be used, to develop guidelines for their installation and maintenance; and (3) to determine the costs and benefits of using SRPMs to the maximum extent possible. No new data on the visibility or durability of pavement marking materials were collected for this study. The study primarily synthesized existing research on the characteristics of different marking materials and then applied information derived from the synthesis to Virginia-specific data to estimate the impacts of using different materials. National practices for installing, inspecting, and maintaining SRPMs were also reviewed. The results of the literature review indicated that SRPMs remain the only marking system that provides sufficient nighttime preview time at high speeds, especially under wet conditions. Further, SRPMs can improve safety in certain situations, but they can also degrade safety in other situations since drivers may travel at higher speeds when the distance they can see down the road at night increases. Proposed guidelines for the installation and maintenance of SRPMs were developed. They recommend that SRPMs be installed on all limited access freeways, on all two-lane roads with an average daily traffic volume above 15,000 vehicles per day, and on all roads with a posted speed limit of 60 mph or greater. Several other situations where SRPMs might be installed based on engineering judgment were also identified. A proposed maintenance schedule that requires inspections every 2 to 3 years was also developed. A conservative economic analysis indicated that the benefits of installing and maintaining SRPMs using the guidelines developed in this study outweighed the costs by more than 80 to 1, based purely on potential safety improvements on road geometries where SRPMs have been shown to improve safety. Further, VDOT can realize cost savings by discontinuing SRPM usage on low-volume facilities and by revising particular SRPM standards.
| Author | : Brian K. Diefenderfer |
| Publisher | : |
| Total Pages | : 52 |
| Release | : 2009 |
| Genre | : Interstate 64 |
| ISBN | : |
Beginning in 2004, the Virginia Department of Transportation (VDOT) undertook a series of pavement rehabilitation projects to address deficiencies in three sections of the I-64 corridor between Richmond and Newport News. I-64 serves as the primary avenue between the Richmond and Hampton Roads metropolitan areas and carries a combined traffic volume ranging from approximately 20,000 to 90,000 vehicles per day. For nearly 100 mi, this roadway is a four-lane divided facility that was originally built between the late 1960s and early 1970s as either a jointed reinforced or continuously reinforced concrete pavement. The existing concrete pavement was rehabilitated using three rehabilitation procedures: two standard approaches and an experimental approach. The standard rehabilitation procedures included the use of full-depth portland cement concrete (PCC) patches overlaid by a hot-mix asphalt (HMA) overlay and full-depth PCC patches followed by grinding of the pavement surface. The experimental rehabilitation procedure consisted of the use of full- and partial-depth HMA patches followed by an HMA overlay. The purpose of this study was to document the initial condition and performance to date of the I-64 project and to summarize similar work performed by state departments of transportation other than VDOT. The pavement rehabilitation cost per lane-mile was nearly 20% less for the section of I-64 for which full-depth PCC patches followed by grinding of the pavement surface was used than for the other two sections. However, the experimental results do not allow for a comparison to determine any differences in the structural capacity or service life between the sections. The study recommends that VDOT's Materials Division annually monitor the ride quality of the pavement in the three rehabilitated sections of I-64 so that the end of service life can be defined as the pavement roughness increases because of deterioration. Further, the Virginia Transportation Research Council should collaborate with other research organizations to encourage and pursue full-scale or laboratory-scale accelerated pavement testing to determine the optimum repair materials and methods for pre-overlay repair of existing PCC pavements and to develop models to quantify the deterioration of an asphalt overlay placed over an existing concrete pavement because of reflection cracking.
| Author | : Brent Charles Leverett |
| Publisher | : |
| Total Pages | : 386 |
| Release | : 2008 |
| Genre | : Incentives in industry |
| ISBN | : |
| Author | : |
| Publisher | : |
| Total Pages | : 20 |
| Release | : 2002 |
| Genre | : |
| ISBN | : |
Life-cycle cost analysis is an effective decision-making tool for pavement designers and highway agencies. Given adequate historical data on asphalt performance and the use of rational pavement design methods, the designer can readily determine which pavement design alternative is the most cost-effective for the particular location. The use of high-performance, premium materials and new, enhanced technologies in asphalt pavement construction provide benefits to the roadway owner and user when their costs are considered over the increased service life of the pavement. The implementation of timely, systematic asphalt pavement maintenance and rehabilitation enhances the use of these materials and methods and improves their overall cost-effectiveness. Life-cycle cost analyses indicate that improvements in pavement smoothness, quality control through end-result specifications and use of high quality materials such as performance graded asphalt cement, heavy duty binder course and stone mastic asphalt mixes substantially reduce the overall life-cycle costs of the asphalt pavement. This is particularly evident for higher volume roads and when user costs such as delay are considered. The elements of pavement life-cycle cost analysis, design considerations and the impact of hot-mix asphalt materials and technology advancements made in Ontario over the last 10 to 15 years are presented. For the covering abstract of this conference see ITRD number E211271.
| Author | : |
| Publisher | : |
| Total Pages | : 45 |
| Release | : 2015 |
| Genre | : Contractors--Roads--Design and construction |
| ISBN | : |
Smoothness specifications are applied by almost all state transportation agencies, including the Virginia Department of Transportation (VDOT), to promote the overall quality and optimum ride quality of pavements. VDOT has a ride specification that provides a pay adjustment (either incentive or disincentive) depending on the smoothness of the final paved surface. VDOTs ride specification also has a provision to waive the disincentive and apply the incentive part only to projects where project geometry, etc., is perceived to make it difficult for the contractor to achieve the desired ride. When applied, the waiver is intended to encourage the contractor to apply additional efforts to improve the ride for otherwise difficult projects. In late 2011, VDOTs executive leadership formed an Asphalt Quality Task Force to identify and recommend specific achievable measures to improve the quality of the asphalt paving in Virginia. The task force agreed to consider the proposal to make an incentive-only provision the default for projects that would otherwise not qualify for the regular ride specification application. This study documented and critically reviewed the pilot application of the incentive-only provision for rideability on selected asphalt resurfacing schedules for VDOTs 2013 construction season. Several lane-miles of control sites were compared with the incentive-only sites to determine if the prospects of added incentives led contractors to alter their paving procedures in pursuit of a higher quality ride. There was no statistically reliable distinction between the achieved quality of the incentive-only and control sites. Further, it was found that the originally proposed incentive-only provisions did not provide any meaningful benefit to VDOT or contractors. The study developed a revised incentive-only specification and further recommended that the proposed provision be applied to a wider range of projects in VDOTs 2015 construction season.
| Author | : Y. Li |
| Publisher | : |
| Total Pages | : 16 |
| Release | : 2003 |
| Genre | : Cost and benefit |
| ISBN | : |
The Arizona Department of Transportation (ADOT) implemented an incentive/disincentive asphalt concrete (AC) smoothness specification in 1990. Since then hundreds of projects have been tested for smoothness. These projects have included a wide variety of layer combinations of one or more of the following: overlay, remove, replace, and finishing course. The number of projects and variation in design allows comparisons of the smoothness results for different design strategies as well as trends in smoothness results over time. In addition to the tests on the final surface, many projects were also tested on intermediate lift surfaces.
| Author | : Asphalt Institute |
| Publisher | : |
| Total Pages | : 102 |
| Release | : 2001-01-01 |
| Genre | : Asphalt |
| ISBN | : 9781934154175 |
