Research in Progress (RIP) https://rip.trb.org/ en-us Copyright © 2024. National Academy of Sciences. All rights reserved. http://blogs.law.harvard.edu/tech/rss tris-trb@nas.edu (Bill McLeod) tris-trb@nas.edu (Bill McLeod) Research in Progress (RIP) https://rip.trb.org/Images/PageHeader-wTitle-RIP.jpg https://rip.trb.org/ Developing Native Seed Germplasm https://rip.trb.org/View/1708071 Thu, 21 May 2020 16:44:01 GMT https://rip.trb.org/View/1708071 Dust Mitigation Monitoring Project https://rip.trb.org/View/1708070 Thu, 21 May 2020 16:26:49 GMT https://rip.trb.org/View/1708070 Development of a Tabletop Dustfall Column and Test Procedure for Chemical Dust Suppressant Performance Testing https://rip.trb.org/View/1656366 Tue, 08 Oct 2019 15:21:18 GMT https://rip.trb.org/View/1656366 Improved Approaches to Environmental Compliance During Highway Construction https://rip.trb.org/View/1530099 0.5” of rain or weekly, whichever occurs first, with special attention to outfalls to surface waters. On active areas with exposed soils, it can be difficult, dangerous and sometimes impossible to drive around a site to conduct the required inspections after a rain event due to the slippery conditions. However, relatively inexpensive unmanned aerial vehicles (UAVs) have provided new capabilities ideally suited to facilitate these inspections from a single point of easy access. These ‘flying cameras’ can be either be manually controlled or pre-programmed to fly to inspection points and collect either high-resolution images or video of the existing conditions, both of which provide a record and documentation of the inspection. Surface drainage and catchment areas of two sediment basins as captured by an inexpensive unmanned aerial vehicle (UAV) and post-processed using modern photogrammetry techniques. Sediment basins are currently designed based on 10- or 25-year recurrence rainfall events for the local area, and a number of assumptions surrounding drainage area, land cover, and runoff coefficients. Previous work has suggested that changes in surface topography that occur at different stages of construction (Brown 2011) often result in water that doesn’t drain to the basin as expected. While evaluations of sediment retention have been conducted (Brown et al., 2015; McCaleb and McLaughlin, 2008; Line and White, 2001), the hydrological performance of sediment basins with skimmer outlets has not been characterized relative to the watershed conditions. Furthermore, there is little available information on the appropriate factors to use for predicting runoff on construction sites. Using a UAV to collect aerial surveys around an instrumented basin a preliminary investigation into runoff and discharge at an active NCDOT project suggested that even with considerable rainfall, a relatively low fraction (17% of rainfall) reached the basin. Dust control is also required under dry conditions in order to comply with air quality regulations. This is normally achieved with frequent passes of a tanker truck spreading water, often several times per day, which requires a full-time operator, a source of large amounts of water, and which adds to the traffic on haul roads. There are a wide variety of dust control products available which could be more effective, more economical, and more environmentally friendly than running water trucks up and down the road. These are widely used in arid areas and the technology may be transferred readily to construction projects in North Carolina. Silt fence, used on most construction projects, is currently constructed using steel posts that are required to have 1.25 lb of steel per foot. There is no known testing standard or specification which has been conducted to allows a user to determine whether a post can appropriately if that is an appropriate resist the forces specification based on expected forces exerted by either water or soil backed up behind the silt fence. It is likely that if post designs are optimized, posts could be made from of less steel or from other materials. Optimized, economical posts could be sufficient to withstand the pressures typically exerted on silt fences at considerable cost savings. Wood posts, for example, are a sustainable resource with a much lower environmental footprint.]]> Thu, 02 Aug 2018 15:00:23 GMT https://rip.trb.org/View/1530099 Early Warning Sensor Network for Brown Out Conditions: Phase III - Pilot Implementation on I-10 https://rip.trb.org/View/1464478 Thu, 13 Apr 2017 16:20:57 GMT https://rip.trb.org/View/1464478 Biocement for Road Repair https://rip.trb.org/View/1360873 Tue, 14 Jul 2015 01:01:00 GMT https://rip.trb.org/View/1360873 Environmental Impacts of Oil and Gas Brine Applications for Dust and Ice Control in New York https://rip.trb.org/View/1313519 Tue, 24 Jun 2014 01:00:36 GMT https://rip.trb.org/View/1313519 Performance of Dust Palliatives on Unpaved Roads in Rural Alaska https://rip.trb.org/View/1256369 Fri, 12 Jul 2013 01:00:23 GMT https://rip.trb.org/View/1256369 Dust Suppression through Active Control of Vehicle Surfaces https://rip.trb.org/View/1236652 Thu, 03 Jan 2013 15:50:39 GMT https://rip.trb.org/View/1236652 Build a Mobile Vehicle for In-Situ Measurement of Dust of UFP and PM1 https://rip.trb.org/View/1236651 Thu, 03 Jan 2013 15:50:38 GMT https://rip.trb.org/View/1236651 Drag Reduction Proof of Principal Research https://rip.trb.org/View/1236226 Thu, 03 Jan 2013 15:43:17 GMT https://rip.trb.org/View/1236226 Dust Measurement to Determine Effectiveness of Rural Dust Strategies https://rip.trb.org/View/1234599 Thu, 03 Jan 2013 15:15:17 GMT https://rip.trb.org/View/1234599