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Snowplow

A snowplow (also spelled snowplough in British English) is any of various devices or vehicle attachments intended for mounting on trucks, tractors, or other machinery to remove snow and ice from outdoor surfaces such as roads, sidewalks, railways, and airport runways worldwide.^[1] These implements typically feature a blade or moldboard that pushes or throws snow aside, often combined with spreading equipment for salt or abrasives to enhance road safety.^[2] The term "snowplow" originated in 1792 in New Hampshire, referring initially to simple angled wooden frames pulled by horses or oxen to clear paths.^[3] The development of snowplows accelerated in the 19th century amid growing needs for reliable winter transportation in snowy regions. The first U.S. patents for snowplows were issued in the 1840s, with early horse-drawn models deployed in Milwaukee in 1862 using carts to scrape streets.^[4] Motorization marked a pivotal advancement; in 1913, Good Roads, Inc., produced the first snowplow specifically designed for a motorized vehicle, deployed by New York City to clear urban roads.^[4] By the 1920s, car-mounted plows emerged, and innovations like Chicago's 1920 conveyor-belt snow loader improved efficiency for heavier accumulations.^[4] These evolutions were driven by severe events, such as the 1888 Blizzard, which exposed vulnerabilities in unprepared cities and spurred investments in mechanical removal.^[4] Snowplows play a critical role in public safety and economic continuity, operated by municipal crews, state highway agencies, and private contractors during winter storms. In the U.S., agencies like state departments of transportation maintain fleets equipped with hydraulic controls, trip edges for obstacle avoidance, and durable cutting edges made of tungsten carbide or rubber.^[5] Effective deployment involves tandem formations to clear multiple lanes simultaneously, though operators emphasize caution around these slow-moving, wide vehicles to prevent collisions.^[5] As of 2016, integration with GPS for route optimization was implemented in some regions prone to heavy snowfall, alongside efforts toward fuel-efficient designs.^[6] More recent advancements as of 2024 include autonomous snowplows and advanced sensor technologies for enhanced efficiency and safety.^[7]

Overview

Definition and Purpose

A snowplow is a device or vehicle-mounted attachment designed to remove snow and ice from outdoor surfaces such as roads, railroad tracks, or airport runways by pushing, throwing, or blowing the material aside.^[8]^[9]^[10] The primary purposes of snowplows include enabling safe vehicular travel by clearing pathways, preventing accidents from snow accumulation and subsequent ice buildup, supporting emergency services access during winter storms, and maintaining economic continuity in regions prone to heavy snowfall by minimizing disruptions to transportation and commerce.^[11]^[12]^[13] Snowplows achieve these goals by rapidly displacing snow to bare underlying surfaces, thereby reducing slip hazards and ensuring operational mobility for essential activities. At a basic level, snowplow operation involves the application of force by the blade to compress and displace the snow mass, incorporating principles of compression, friction, shearing, and inertial forces that govern snow movement during plowing.^[14] This displacement lowers the snow depth on travel surfaces, which in turn reduces the coefficient of friction caused by icy conditions, improving traction for vehicles and preventing skids.^[15] On a global scale, snowplows play a critical role in infrastructure management, with operations clearing millions of kilometers of roads annually in cold-climate countries; for example, in the United States, state agencies like the Utah Department of Transportation alone plowed over 8.6 million kilometers in the 2022-2023 season, while nationwide efforts across snowy regions exceed tens of millions of lane-kilometers per winter.^[16] In Canada, municipal fleets such as Toronto's 800+ snowplows contribute to clearing vast urban networks, supporting an industry valued at approximately $4.7 billion annually.^[17]^[18] Similarly, in Russia, cities like Moscow deploy around 14,000 snow-clearing vehicles each winter to manage extensive road networks amid heavy snowfall.^[19]

Importance in Infrastructure Maintenance

Snowplows play a vital role in mitigating the economic burdens imposed by winter weather, with state and local highway agencies in the United States expending between $2 billion and $4 billion annually on snow and ice removal operations to maintain roadways.^[20]^[21] These expenditures cover labor, equipment, materials like salt and sand, and related logistics, often escalating during severe seasons; for instance, 23 states collectively surpassed $1 billion in snow clearance costs in a single winter.^[22] Without such maintenance, unmaintained roads lead to substantial indirect losses, including business closures and supply chain disruptions that can cost $66 million to $700 million per day across affected regions, as seen in states like New York where a single day's shutdown equates to approximately $700 million in foregone economic activity from halted retail sales, lost wages, and delayed shipments.^[23]^[24] Hourly workers bear a disproportionate share of these impacts, comprising nearly two-thirds of direct losses from road closures.^[23] Beyond economics, snowplows significantly enhance public safety by reducing traffic accidents, injuries, and fatalities associated with winter conditions. In the US, over 1,300 people are killed and more than 116,800 injured annually in crashes on snowy, slushy, or icy pavements, with nearly 900 fatalities and 76,000 injuries occurring specifically during snowfall or sleet.^[25] Effective plowing and deicing operations demonstrably lower these risks; for example, before-and-after analyses on four-lane roads indicate a 93% reduction in accidents following deicing treatments, while winter maintenance operations overall improve traffic stability and decrease incident-induced delays during storms.^[26]^[27] Snow days without maintenance show fewer fatal crashes than dry days (incidence rate ratio of 0.93) but higher rates of nonfatal injury crashes, underscoring the protective effect of timely snow removal in preventing less severe but more frequent incidents.^[28] The deployment of snowplows is particularly crucial in ensuring infrastructure access across diverse settings, prioritizing routes that connect essential services in both urban and rural areas. In urban environments, plowing focuses on high-traffic arterials, emergency corridors to hospitals, fire stations, and transit hubs to sustain population centers during storms.^[29]^[30] Rural operations, by contrast, emphasize clearing isolated roads vital for reaching remote hospitals, schools, and utility infrastructure, where delays can isolate communities and hinder emergency responses or daily services.^[31]^[32] This targeted approach prevents broader disruptions, such as impeded access to medical facilities or educational institutions, which could otherwise exacerbate vulnerabilities in less densely populated regions. Snowplow operations increasingly integrate with advanced weather forecasting to enable preemptive deployment, optimizing resource allocation and minimizing disruptions. Systems like the Federal Highway Administration's Maintenance Decision Support System (MDSS) combine real-time road weather information systems (RWIS), numerical weather models, and 48-hour forecasts to generate site-specific recommendations for anti-icing and plowing, allowing agencies to treat high-risk areas before storms intensify.^[33] For instance, the Utah Department of Transportation employs in-house meteorologists who provide prestorm briefings and nowcasts to 82 maintenance sheds, reducing preparation times by 50% and facilitating proactive anti-icing to cut chemical usage and costs.^[33] Such coordination, including tools like the Road Weather Forecast Tool for 24-hour pavement temperature predictions, supports dynamic risk assessments and ensures snowplows are positioned ahead of accumulating precipitation, enhancing overall infrastructure resilience.^[33]

Types

Road and Highway Snowplows

Road and highway snowplows are typically mounted on robust vehicle bases to handle the demands of clearing paved surfaces during winter storms. These vehicles primarily consist of medium- to heavy-duty trucks, such as Class 5 through Class 8 chassis, which provide the necessary power and stability for attaching plows and spreaders.^[34] In North America, common examples include municipal plow trucks like the International HX Series, Freightliner 114SD, and Peterbilt 548, which are engineered for severe-duty applications in urban and rural settings.^[35]^[36] Tractors, including compact models, and light-duty SUVs or pickups like the Chevrolet Silverado 1500 or Nissan Titan, serve as bases for smaller-scale or versatile operations, particularly in less demanding municipal contexts.^[37]^[38] Blade designs for these snowplows vary to address different snow conditions and road types. Straight blades, the most common and economical option, feature a flat, fixed or reversible edge that pushes snow perpendicularly to the side of the vehicle, making them suitable for general clearing on flat surfaces and ideal for operators new to plowing.^[39] V-plows, shaped like an inverted V, excel at cutting through deep drifts and windrows by directing snow outward in a funneling motion, allowing for angled operation to pile snow efficiently along curbs or medians.^[40] Underbody plows, mounted beneath the truck chassis, are specialized for high-speed removal of deep or packed snow, often featuring fixed-angle moldboards up to 10 feet long that scrape the road surface while complementing front-mounted blades to widen the cleared path.^[41]^[42] Many road snowplows integrate salt or chemical spreaders to enhance de-icing after initial clearing, distributing materials like rock salt or brine blends via rear- or underbody-mounted hoppers. These systems apply de-icers at controlled rates to melt residual ice without overuse, typically ranging from 100 to 300 pounds of salt per lane mile for highways and spot treatments on urban roads, depending on temperature, traffic, and storm severity.^[43] This combination allows a single vehicle to plow and treat surfaces sequentially, improving efficiency in anti-icing and maintenance operations. Operations differ significantly between urban streets and interstate highways, reflecting variations in traffic density, geometry, and priorities. In urban environments, snowplows navigate narrow streets, intersections, and pedestrian areas at reduced speeds to avoid obstacles, often prioritizing residential and arterial routes with multiple passes for complete clearing.^[31] On interstates and highways, plows cover longer stretches at higher but still moderated speeds—commonly 25 to 40 miles per hour in many jurisdictions—to maintain traffic flow while effectively displacing snow, with operators adhering to posted limits adjusted for visibility and conditions.^[44]^[45]

Railway Snowplows

Railway snowplows are specialized machines designed to clear snow from rail tracks, ensuring uninterrupted train operations in snowy regions. These plows must navigate fixed rail paths while integrating with locomotive power, differing from road-based equipment by focusing on track integrity and train scheduling. Primary types include wedge plows, which push snow aside using a V-shaped blade mounted on a railcar, and rotary plows, which employ a large rotating auger to throw snow clear of the tracks.^[46] Wedge plows are simpler and used for lighter accumulations, while rotary plows handle deeper drifts by pulverizing and ejecting snow via high-speed blades.^[47] Most railway snowplows are not self-propelled and require one or more locomotives to push them along the line, with the plow's internal engine powering the cutting mechanism.^[48] In North American railroads, such as the Canadian Pacific Railway, rotary snowplows have been essential since the late 19th century for maintaining service through harsh winters. The rotary concept originated from Canadian inventor J.W. Elliott in 1869, with early prototypes built in 1883, and was widely adopted by lines like the Canadian Pacific to clear mountain passes and prairies.^[47] These machines demonstrated capacities to handle drifts up to 10-15 feet deep, as seen in operations on routes like the Alaska Railroad, where avalanches and heavy snowfalls exceed typical depths.^[49] For instance, BNSF Railway's rotary plows feature an 11-foot-diameter fan capable of cutting through substantial drifts, throwing snow over 200 feet away at speeds of 80-90 RPM.^[50]^[51] Operational challenges for railway snowplows include preventing derailments caused by uneven snow or ice buildup, which can warp tracks or obstruct switches.^[52] Coordination with train schedules is critical, as plowing disrupts normal traffic and requires centralized command centers to monitor weather and adjust operations in real time.^[53] Track switching mechanisms must be cleared of snow to avoid freezing, which could halt movements and lead to delays or safety risks.^[52] Modern railway snowplows in regions like Scandinavia incorporate advanced hybrid designs that combine snow removal with track maintenance functions, such as ballast cleaning, to support high-speed lines. For example, Norway's Bane NOR operates high-performance snow blowers from Aebi Schmidt, capable of clearing up to 10,000 tonnes of snow per hour while mounted on rail vehicles.^[54] These units often feature hybrid road-rail configurations for versatile deployment, ensuring efficient winter operations on electrified and non-electrified tracks.^[55]

Airport and Specialized Snowplows

Airport snowplows are engineered for rapid clearance of runways and taxiways to prevent flight delays and ensure operational safety, often operating at speeds of 30 to 50 mph. High-speed blowers, such as the Oshkosh H-Series, utilize a two-stage design with a ribbon auger and impeller to ingest and eject snow, achieving capacities of up to 5,000 tons per hour while throwing material up to 200 feet.^[56]^[57] Multi-function units, like those from Aebi Schmidt's MB P5000 series, combine plows, brooms, and blowers on heavy-duty chassis, allowing versatile operations for plowing, sweeping, and blowing in a single pass to maintain clear widths efficiently.^[58] Specialized snowplows extend beyond aviation to niche environments requiring precision and durability. In ski resorts, snowcats such as PistenBully groomers equipped with dozer blades or pushers clear excess snow from trails and parking areas before grooming, ensuring safe access and optimal slope conditions.^[59] For agricultural settings, compact tractors fitted with front-mounted plows or snow pushers, like those compatible with John Deere or Kubota models, maintain farm lanes and barn entrances by displacing snow without damaging soil or crops.^[60] Military tundra vehicles, including armored winter service units based on tracked platforms like the Tucker Sno-Cat variants used in Arctic operations, feature reinforced plows for clearing forward operating bases and supply routes in extreme cold and deep snow.^[61] Performance metrics for these specialized plows emphasize efficiency in demanding conditions, with clearing widths reaching up to 22 feet for airport brooms and plows to cover broad runways quickly.^[62] Blower throw distances typically range from 50 to 100 feet, enabling snow to be deposited away from operational areas without refreezing hazards.^[56]^[63] Regulatory standards, outlined in FAA Advisory Circular 150/5200-30D, mandate post-clearing runway friction assessments using tools like Continuous Friction Measuring Equipment to achieve conditions no worse than "wet" pavement, ensuring Runway Condition Codes support safe aircraft takeoff and landing.^[64] These guidelines require friction surveys on cleared surfaces to verify contaminant levels below thresholds, such as no more than 25% coverage of snow or slush, with runways closed if braking action is reported as "nil" until remediated.^[64]

Design and Operation

Key Components

The blade, also known as the moldboard, forms the primary snow-contacting surface of a snowplow and is typically constructed from curved high-strength steel or durable polyurethane to withstand abrasive forces and varying snow conditions.^[65]^[66] These materials provide rigidity and flexibility, with steel offering superior impact resistance and polyurethane reducing weight while minimizing surface damage to paved areas.^[65] The moldboard is hydraulically adjustable for angle and height, allowing operators to optimize snow deflection and clearance; lift capacities commonly range from 4,000 to 10,000 pounds to handle heavy snow loads.^[67]^[68] Mounting systems integrate the snowplow with the host vehicle, primarily using A-frames for structural support, hitches for secure attachment, and quick-attach mechanisms for rapid connection and disconnection.^[69] A-frames, often articulating, distribute weight and forces evenly across the vehicle's chassis, while quick-attach systems like drive-in mounts enable one-person installation in seconds without heavy lifting.^[70]^[71] These components are engineered for compatibility with trucks, skid-steers, or loaders, ensuring stability during operation.^[72] Power sources for snowplow functions rely on hydraulic pumps driven by the vehicle's engine, converting mechanical energy into fluid pressure for actuation.^[73] These gear or piston pumps typically operate at pressure ratings of 2,000 to 3,000 PSI, providing sufficient force for blade movement while maintaining efficiency in cold environments.^[74]^[75] The system includes reservoirs, valves, and cylinders to control flow, with pressures adjustable for specific vehicle capabilities.^[76] Auxiliary features enhance functionality and safety, including integrated lighting for visibility in low-light conditions, wing extensions to increase effective blade width by up to 20 inches, and cutting edges reinforced with carbide inserts for extended wear resistance against ice and gravel. Modern auxiliary features include adaptive cutting edges like TRACE technology for contour-following and smart controllers for precise hydraulic adjustments.^[77]^[78]^[66] Carbide edges, embedded in steel bases, can last several times longer than standard steel, reducing maintenance frequency.^[79] Lights often feature LED modules with multiple patterns, while wings hydraulically deploy to contain windrowed snow.^[80]^[78] In specialized types, adaptations like rotary augers may supplement these core elements for granular snow handling.^[81]

Removal Mechanisms and Techniques

Snowplows primarily displace snow through two main mechanisms: pushing and throwing. Pushing involves using a straight or angled blade to physically shove snow ahead or to the side, relying on the vehicle's momentum and the blade's contact with the surface to create piles or windrows. In angle plowing, the blade is hydraulically adjusted to an angle, typically 30-45 degrees, directing snow laterally for efficient windrowing and allowing bidirectional operation without excessive maneuvering. This technique reduces the formation of large central piles and enables backdragging for cleanup. Throwing, in contrast, employs rotary blowers or fans that ingest snow via an auger and eject it at high velocities through a chute, ideal for deep accumulations where piling is impractical. These systems generate airflow rates ranging from 10,000 to 50,000 cubic feet per minute (CFM), with larger airport models achieving up to 29,000 CFM to propel snow over 100 feet.^[82]^[62]^[83] Operational techniques emphasize controlled sequences to maximize clearance while minimizing refreezing risks. Operators approach snow-covered areas at speeds of 15-25 miles per hour (mph), adjusting based on accumulation depth to maintain blade contact without excessive resistance. For layered or heavy snow, multiple passes—typically 2-3—are standard, with the first pass breaking the surface and subsequent ones refining the cut to achieve bare pavement. Edge cleanup follows main passes, using the plow's wing or angled blade to clear shoulders, curbs, and medians, preventing residual snowmelt from pooling and refreezing into ice patches. These steps leverage the physical principle of shear force from the blade's downward pressure, often augmented by hydraulic systems for precise angle and height adjustments during operation.^[84]^[85]^[86] Handling varies by snow type due to differences in density and adhesion. Dry snow, being light and powdery, flows easily and suits both pushing and throwing, as it offers low resistance and minimal clogging in blowers. Wet snow, denser and heavier from partial melting, behaves more like slush and is better managed by pushing with straight blades to avoid impeller blockages in rotary systems. For slushy conditions, adjustments include switching to rubber or urethane cutting edges, which provide flexible scraping without damaging surfaces and effectively displace adherent wet material. These adaptations ensure consistent performance, as wet snow's higher water content increases frictional drag by 2-3 times compared to dry snow.^[87]^[88] Efficiency is influenced by factors like snow volume and operational speed, with fuel consumption models showing typical rates of 5-15 gallons per hour for truck-mounted plows under load. Heavier wet snow or idling during stops elevates usage toward the upper end, while optimal speeds of 20-25 mph on lighter loads improve economy. Operating speeds generally range from 15-35 mph on treated routes, though heavy storms reduce this to 10-15 mph, with productivity equating to 5-15 lane-miles per hour per vehicle under normal conditions and 3-8 in dense storms, accounting for multiple passes and maneuvers. These metrics highlight the balance between displacement force and energy input, prioritizing complete clearance over speed.^[89]^[85]^[84]^[90]

History

Early Innovations

In the pre-mechanized era of the 18th and 19th centuries, snow removal in Europe and North America primarily depended on manual labor using hand shovels, with workers loading cleared snow into horse-drawn wagons for disposal.^[91] In North American cities like Milwaukee, horse-drawn plows began appearing as early as 1862, marking an initial shift from purely manual methods to animal-assisted scraping.^[92] These early devices, often simple wooden or metal blades attached to carts, were used to push aside light accumulations on roads and paths, though they were ineffective against deep drifts.^[4] The first significant patents for mechanical snow removal emerged in the mid-19th century, focusing on railroad applications to address blockages from harsh winters. In 1869, Toronto dentist J.W. Elliott received Canadian patent #399 for the "Compound Revolving Snow Shovel," an innovative rotary design featuring a large wheel with flat blades to scoop and eject snow sideways, powered initially by steam.^[93] This concept laid the groundwork for more advanced rotary plows, though Elliott never built a working prototype. For roads, early patents in the 1840s introduced horse-drawn scrapers, but adoption remained limited until the late 19th century.^[94] By the 1880s, U.S. railroads widely adopted rotary snowplows during severe winters, particularly on lines crossing the northern plains and Rockies, where snowdrifts frequently halted operations. Orange S. Jull, building on Elliott's idea, patented an improved rotary design in 1884 and demonstrated a functional steam-powered model in 1887, which was quickly deployed by railroads like the Union Pacific to clear tracks efficiently. These machines significantly reduced reliance on manual labor gangs, which previously numbered in the hundreds or thousands per storm, by mechanizing the removal of deep snow that wedge plows and hand shoveling could not handle.^[47]^[95] Canadian inventors played a pivotal role in early innovations tailored to prairie blizzards, where vast open landscapes amplified snow accumulation. Elliott's rotary concept was specifically aimed at Canadian railway challenges, and wedge plows—simple triangular steel blades mounted on the front of locomotives or carts to deflect snow—became common in the late 19th century for lighter clearing on prairie lines. Basic wedge designs featured a V-shaped prow, often 10-15 feet wide, angled to push snow to the sides without ejection, allowing horse- or engine-pulled operation over moderate drifts.^[96] These regional adaptations enabled reliable winter transport across Canada's expansive rail network, influencing U.S. designs during cross-border expansions.^[97]

20th-Century Developments

The 20th century marked a period of significant mechanization in snowplow technology, transitioning from horse-drawn and early motorized designs to scalable, engine-powered systems that supported expanding infrastructure. In the 1920s, motorized road plows evolved with truck attachments, allowing for faster and more efficient clearing of highways and urban streets. Carl Frink of Clayton, New York, developed one of the first practical truck-mounted snowplows in 1920, prompted by the need to clear bus routes in heavy snow; this design featured adjustable wings and was quickly adopted across the U.S., increasing plowing speeds from under 5 mph to over 30 mph.^[98] Similarly, the introduction of snow loaders in cities like Chicago in 1920 used conveyor belts to load cleared snow into dump trucks, reducing manual labor and enabling larger-scale operations; by the 1920-21 season, New York City deployed over 300 blade plows on trucks and tractors alone.^[4]^[99] These innovations tied directly to the growth of automobile use, making reliable winter road access essential for commerce and daily life. Railway snowplow technology also advanced during this era, with rotary designs—originally conceptualized in the late 19th century—becoming staples for deep snow removal on tracks. The 1930s and 1940s saw the widespread adoption of diesel-electric locomotives to push these rotaries, replacing steam power and improving reliability in remote, high-snow areas; for instance, the Alaska Railroad's rotary plows, initially steam-powered in 1930, were integral to maintaining lines under military control during World War II, ensuring supply routes in extreme northern conditions.^[49] By the 1950s, conversions to fully diesel-powered rotaries accelerated, as seen with the Milwaukee Road's mid-decade upgrades, which powered the blades via traction motors for greater efficiency without reliance on locomotive steam.^[100] These developments were crucial for industrial rail networks, preventing disruptions from snowdrifts up to 8 feet deep and supporting wartime logistics in regions like the Rockies and Alaska.^[47] Post-World War II, the boom in U.S. infrastructure drove standardization and fleet expansion for snow removal, particularly with the launch of the Interstate Highway System in 1956, which necessitated coordinated plowing across thousands of miles of new roads. State highway departments prioritized snow removal as a high-priority public service, mobilizing fleets that grew from hundreds in the 1920s to thousands by the late 1950s to handle increased traffic volumes and suburban expansion; for example, post-war vehicle ownership surges forced rapid deployment of plows for even minor accumulations of 4 inches.^[101]^[4] Internationally, snowplow adoption spread to regions with extreme climates, with Scandinavian countries leading adaptations for harsh winters. In Norway, Øveraasen developed the world's first car-mounted snowplow in 1923, evolving into robust models for mountainous and arctic conditions by the mid-20th century; these designs emphasized durability for heavy snowfalls, influencing regional standards.^[102]

Modern Applications and Challenges

Technological Advancements

Since the early 2000s, GPS and automation technologies have transformed snowplow operations by enabling route optimization software that minimizes inefficiencies such as overlap and deadheading. These systems use real-time data from GPS, weather forecasts, and traffic conditions to generate efficient paths, potentially reducing plowing time by 28-40% in urban networks, as demonstrated in implementations by departments of transportation.^[31] In Minnesota, the Department of Transportation (MnDOT) began integrating GPS tracking into its snowplow fleet during the 2010s, with over 80% of vehicles equipped by 2019 to monitor locations and optimize routes in real time, enhancing coordination during storms.^[103]^[104] Advancements in materials and power systems have further improved efficiency, with lightweight composites replacing traditional steel in plow blades and frames to reduce vehicle weight and fuel consumption. For instance, composite-based designs, such as those in metalpless plows, contribute to lower emissions and better fuel economy by decreasing overall load, aligning with broader vehicle lightweighting principles that yield 6-8% fuel savings for every 10% weight reduction.^[105]^[106] Electric hydraulics have also emerged, replacing conventional systems in some models to enhance precision and energy use; for example, electrification projects on foldable snowplows offer potential fuel savings through reduced idling and more efficient actuation.^[107]^[108] Sensor integrations, including real-time snow depth radars and auto-adjusting blades, have enabled more adaptive operations. Radar and LiDAR sensors mounted on plows measure snow accumulation ahead of the vehicle, allowing operators to adjust strategies dynamically, as seen in systems like SnowSat LiDAR that scan up to 50 meters forward for precise depth mapping.^[109]^[110] Auto-adjusting blades, such as those in the PRODIGY and SPEEDWING models, use mechanical or hydraulic mechanisms to automatically reposition wings from scoop to windrow modes based on plow angle, improving snow displacement without manual intervention.^[111]^[112] In smart city applications, these technologies have been adopted to streamline winter maintenance; at Oslo Airport, a pioneering implementation of autonomous snowplows since 2018 uses GPS-guided unmanned vehicles for 24-hour readiness, reducing response times from potential delays in manual deployment to near-immediate activation during heavy snowfall.^[113]^[114] This case illustrates broader efficiency gains, with automation ensuring consistent clearing and minimizing human error in adverse conditions. Building on these foundations, recent developments include the March 2024 introduction of the first fully autonomous commercial snowplow by Teleo and Storm Equipment, enabling remote operation for enhanced safety and efficiency in urban and industrial settings.^[7] In 2025, manufacturers like BOSS unveiled innovations such as Cold Front Technology for improved performance in sub-zero conditions and advanced lighting systems.^[115]

Safety and Environmental Considerations

Snowplow operations involve significant safety risks due to reduced visibility, slippery conditions, and interactions with other vehicles. Drivers undergo specialized training to enhance visibility, utilizing features such as amber flashing lights on the cab and rear of the vehicle, along with extended mirrors to monitor blind spots effectively.^[116]^[44] Public awareness campaigns, such as "Give Plows Space" promoted by state departments of transportation, emphasize maintaining a minimum distance of 200 feet behind operating plows to avoid collisions from flying debris or sudden maneuvers.^[116]^[44] Accident statistics highlight the hazards, with causes including hidden obstacles under snow, tailgating, and improper passing. In the United States, snowplow-related crashes vary by state; for instance, Michigan reports approximately 225 incidents annually involving snow and ice removal equipment.^[117] Iowa averages 32 snowplow accidents each winter (2015-2024 data), often resulting in vehicle damage and injuries due to these factors.^[118]^[119] Nationally, while comprehensive data on snowplow-specific fatalities is limited, broader winter road crashes claim over 1,300 lives yearly, underscoring the need for vigilant operation.^[25] Environmental impacts from snowplow activities primarily stem from de-icing agents, with road salt contributing to freshwater salinization. The U.S. applies 15 to 32 million metric tons of road salt annually for snow removal, leading to runoff that contaminates waterways, harms aquatic life, and elevates chloride levels in rivers and lakes.^[120]^[121] This pollution exacerbates ecosystem stress, including vegetation damage and soil erosion near treated roads.^[122] Alternatives like beet juice mixed with brine reduce salt usage—such as by 20% in some municipalities—while lowering the freezing point and corrosiveness, though they require careful application to avoid staining or attracting pests.^[123]^[121] Regulations address these concerns through federal guidelines on de-icer use and emissions. The Environmental Protection Agency (EPA) provides best management practices for de-icing material application and storage, recommending tracking systems for routes and rates to minimize environmental release, along with certification under programs like Design for the Environment for safer products.^[124]^[125] Additionally, EPA noise emission standards under 40 CFR Part 205 apply to snowplow trucks as heavy-duty vehicles, limiting sound levels to protect public health during operations.^[126] These measures promote sustainable practices without compromising road safety.

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Commerce - Safe Winter Roads
Among all economic classes, snow-related shutdowns harm hourly workers the worst, accounting for almost two thirds of direct economic losses. The negative ...<|separator|>
[24]
Protect Your Business from the Hidden Costs of Snowstorms
The research showed that a single day's shutdown in New York costs about $700.17 million, while Massachusetts loses about $265.12 million. Investing in timely ...
[25]
Snow & Ice - FHWA Road Weather Management
Sep 6, 2024 · Over 70 percent of the nation's roads are located in snowy regions, which receive more than five inches (or 13 cm) average snowfall annually ...<|separator|>
[26]
[PDF] Winter Weather Highway Safety: Preventing Crashes, Injuries and ...
Data averages based on fourteen-year study from. 1995 ... Before and after analysis on four-lane roads showed a 93% reduction in accidents after deicing.
[27]
Assessing the safety impacts of winter road maintenance operations ...
These findings suggest that the WMO can improve road safety by reducing incident-induced delays and improving traffic stability in winter weather conditions.
[28]
Effects of Snowfalls on Motor Vehicle Collisions, Injuries, and Fatalities
In other words, persons on the road during snowfalls experience a fatality risk 18% higher than on dry days (0.84 × 1.4 = 1.18). Their injury risk would rise by ...
[29]
Snow Removal - City of Aurora
Priority 1: Major Arterial Streets (Red) These streets are targeted first to ensure routes remain clear to the city's emergency centers. Hospitals, fire ...
[30]
Snow Plow Priority Route - Overview - ArcGIS
Oct 27, 2025 · Priority 1 routes include major streets, hospital zones, roads accessing emergency service facilities, roads with severe grades and transit ...
[31]
[PDF] Optimizing Snow Plowing Operations in Urban Road Networks
Extensive utilization of snow plows, salt and chemicals damage the roads, corrode cars and metal bridges, and have an overall negative impact on the environment ...
[32]
How Lexington, KY decides what streets are plowed and when
such as hospitals and schools — are plowed first. Those roads are rank 1 ...
[33]
[PDF] Surface Transportation Weather Snow Removal and Ice Control ...
Jun 16, 2008 · ... weather information in transportation agencies; snowplow operations; maintenance decision support systems; modeling and forecasting weather ...Missing: preemptive | Show results with:preemptive
[34]
Municipal Trucks, Snow Plows, and Maintenance Vehicles
Find the right municipal vehicles to manage snow and ice, maintain your community, and keep your residents safe with Monroe Truck Equipment.
[35]
Mother Nature Not A Match for 114SD - Freightliner
The 114SD powers through snow and ice, has tough components, front frame extensions, great visibility, thermal insulation, and is designed to withstand damage.
[36]
Snow Plows | International®
Browse medium, heavy, and severe-duty trucks equipped with the features and capabilities to get the job done.<|separator|>
[37]
https://www.snowplowsdirect.com/top-trucks
[38]
IMPACT™ Heavy-Duty Straight Blade & V-Plow
WESTERN® IMPACT™ Heavy-Duty are professional-grade straight blade & v-plows designed exclusively for utility vehicles & compact tractors.Missing: underbody | Show results with:underbody
[39]
https://www.winterequipment.com/resources/blog/snow-plow-blade-types-explained/
[40]
Which Plow is Right For You—Straight, V, or Winged? | SnowEx
Apr 29, 2021 · Straight blade plows tend to be the most popular because they're uncomplicated and come at the lowest price point out of the three style types.
[41]
https://www.hendersonproducts.com/underbody-scrapers.html
[42]
Under Body Snow Plows - Monashee Manufacturing
This is a fixed angle, 10 ft long mould board, able to clear a path 8.5 ft wide and is commonly used with and without additional front plows or wing plows.
[43]
[PDF] A Strategic Guide to De-Icing for Municipalities & Contractors
Depends on blend. Rock salt gradation. (fine - coarse). Bulk and blended on site. 100 - 300 lbs/lane mile. (45 - 136 kg/1.6 km). Highways and roadways. Impact ...Missing: snowplow | Show results with:snowplow
[44]
Top-10 list of things snow plow operators want drivers to know
Feb 11, 2022 · Plows often operate at speeds of 45 mph or less, depending on road conditions, including snow levels, drifting and ice. Plows work in small ...
[45]
Frequently Asked Questions (FAQ's) - Delaware Department of ...
Plows aren't just removing snow. They may also be spreading salt or brining roadways. Be patient—slow down, plows are large and move slower than highway speeds ...<|control11|><|separator|>
[46]
Railroad Snow Plows: Keeping The Lines Open - American-Rails.com
Sep 4, 2024 · All wedge plows could not propel themselves and required being pushed by a locomotive. Southern Pacific rotary snow plow MW208 is seen here ...
[47]
The inventor of the rotary snowplow was… a dentist? - BNSF Railway
Jan 14, 2025 · In 1869, Dr. JW Elliott, a dentist from Toronto, Ontario, devised the rotary snowplow concept. The machine unpacked snow using revolving blades and flat plates.
[48]
[PDF] "ROTARY SNOW PLOWS - UtahRails.net
The de- sign concepts of this rotary plow were to utilize as much as possible the components in use on diesel- electric locomotives, and to have at least as ...
[49]
Snow fighting on the Alaska Railroad
deep snows (sometimes can be in excess of 10 to 15 feet); avalanches, snow slides (snow, mud and rock); ice buildup on the rails and switch points ...
[50]
Heavy snowfall is no problem for BNSF's rotary snowplows
Dec 4, 2020 · Weighing in at more than 150 tons and equipped with an 11-foot fan that can cut through deep snowdrifts, rotary snowplows play a crucial role in BNSF's winter ...Missing: depth | Show results with:depth
[51]
Railroad snow plow methods in North America - Trains Magazine
Jan 1, 2023 · The rotary concept is credited to Canadian dentist J.W. Elliot, who developed the idea in 1850. Elliot's idea was a machine that could move ...<|control11|><|separator|>
[52]
Winter Weather Action Plan for Rail Shipping Safety - Union Pacific
Ensure switches and derails are operable, clear of snow and ice, and are not frozen. Switches are most susceptible to snow and ice build-up, which can cause ...Missing: coordination | Show results with:coordination
[53]
Freight Rail Climate Resiliency - Association of American Railroads
When severe winter storms strike, centralized command centers coordinate real-time network monitoring and operational adjustments. Key personnel analyze ...
[54]
Two High-Performance Snow Blowers for the Norwegian State ...
Oct 28, 2025 · With a clearing capacity of up to 10,000 tonnes per hour, it makes a significant contribution to ensuring reliable rail operations during the ...Missing: modern hybrid
[55]
https://rollingstockworld.com/track-machines/aebi-schmidt-snow-blower-undergoes-testing-in-norway/
[56]
None
### H-Series Airport Snow Blower Specifications
[57]
[PDF] SPECIFICATIONS FOR A HEAVY DUTY AIRPORT SNOW ...
The vehicle has a 4x4 chassis, 22-foot broom, 35-55 mph working speed, 75-foot turning radius, 29,000 lbs front axle, 27,000 lbs rear axle, 150 gallon fuel ...
[58]
MB5 | Aebi Schmidt Group
A clearing width of up to 18 ft. allows you to clear areas ... Clean and aggressive clearance is achieved with the MB P5000 Series airport snow plows.
[59]
A Night in the Life of a Snowcat Driver: How Ski Slopes are Groomed
Apr 26, 2021 · Snowcats will push mountains of snow out of the way and help to keep the parking lot surface even before the plows or loaders can do their work.
[60]
Blade? Loader? Blower? What's the Best Option for Acreage Snow ...
Choosing equipment that's most effective for snow removal often depends on the size and type of tractor, or other unit powering the equipment.
[61]
Military & Tactical Vehicles | Polaris Government & Defense
... Arctic mobility vehicle options: MRZR Alpha with Cold Weather Accessories and Military Snowmobiles. ... Designed for next level deep snow conditions, the ...
[62]
Airport Brooms & Plows - Larue - Industrial snow removal equipment ...
AIRPORT FRONT BROOMS Standard features include an adjustable deflector, four high speed caster wheels, a snow shedding hood and automatic variable ground speed ...
[63]
A Monsterblower to Hamburg Airport - Øveraasen
Clearing width: 3 400 mm; Capacity: 12 000 tons/hour; Casting distance: 20 - 50 meters. More news: STARK to cooperate with Øveraasen in Sweden and Norway ...
[64]
[PDF] AC 150/5200-30D, Airport Winter Safety and Operations, 29 July 2016
Jul 29, 2016 · This advisory circular (AC) provides guidance to assist airport operators in developing a snow and ice control plan, assessing and reporting ...
[65]
Snow Plow Cutting Edges - DMC Wear Parts
A typical cutting edge is made from either steel or polyurethane, but some models feature rubber cutting edges that are more affordable. There are also hybrid ...Missing: moldboard | Show results with:moldboard
[66]
DXT Plows - BOSS Snowplow
Easily program the 2 AUX buttons to manage plow headlights, ClearBeam lights, warning lights, and VBX+ on/off functions. ... Poly XT And DXT Plow Wing Extensions.
[67]
Hydraulic cylinders for Snow Plow equipment - SEA HydroSystems
Sep 10, 2024 · In the realm of heavy-duty snow plowing, our hydraulic cylinders stand tall, offering an exceptional push force of up to 10,000 lbs. This ...Missing: capacity | Show results with:capacity
[68]
https://www.magisterhyd.com/product/1-5inch-bore-x-6inch-stroke-snow-plow-western-hydraulic-cylinder/
[69]
https://www.4qte.com/prd-1293-fisher-hdx-snow-plow
[70]
Quick-Hitch Snowplow Mounting Systems - Hiniker Snow Plows
Mar 23, 2018 · The self-aligning drive-in mount lets you connect your Hiniker plow in seconds. This eliminates manually lifting, pushing, and pulling the plow into place.Missing: frames | Show results with:frames
[71]
SnowDogg® Quick Link Municipal Snow Plow Hitches
Quick link style coupling provides a single-handle, hitch-side locking mechanism for easy mounting. Telescoping lift arm ensures level plow lift.
[72]
Top 5 Ways Snow Plow Attachments Connect to Equipment
Aug 28, 2025 · The way a snow plow attachment connects to its host machine determines not only how securely it mounts, but also how quickly it can be installed ...
[73]
Amazon.com: Magister Hydraulic Power Unit for Snow Plow 12V DC ...
This 12V DC double-acting hydraulic unit has an 8-quart steel tank, 2900 PSI max pressure, 3kW motor, and 1.8 GPM flow at 2500 PSI.
[74]
Maxim 1.5 in. Bore x 6 in. Stroke Single-Acting Snowplow Cylinder ...
18 in. Hydraulic Cylinder Type, Snowplow. Maximum Operating Pressure, 3,000 PSI. Maximum Weight Capacity, 12 lb. Model Compatibility, Universal. Package ...
[75]
https://www.magisterhyd.com/product/8-qts-steel-reservoir-snow-plow-power-unit-12v-dc-double-acting/
[76]
Western pump pressure? | Snow Plowing Forum
Dec 28, 2002 · Regular and Heavy Duty are 1750 psi, commercial is 2100 psi, and light duty is listed at 1550. I know that the fisher pump is the same pump used ...Snow Plow Pressure GuageTurning the pump up | Snow Plowing ForumMore results from www.plowsite.com
[77]
Wing-Tip LED Snowplow Lights - Grote Industries
Grote's Wing-Tip LED Snowplow Lights feature LED strobe light modules with 11 light patterns and waterproof TPR cabling with built-in strain relief ...Missing: extensions | Show results with:extensions
[78]
How To Choose the Right Snow Plow Cutting Edge Material
Jan 8, 2024 · In this blog post, we'll explore different cutting edge materials and discuss when it's best to use each one for optimal snow plowing performance.
[79]
Buyers Products PW22 Pro-Wings Snowplow Extension - Amazon.com
This snowplow extension adds 20 inches of blade width to your plow and does not affect plow trip.Missing: auxiliary | Show results with:auxiliary
[80]
Snow Plow Wings and Wings Systems - Everest Equipment
Hydraulic front post, rear wing lift and rear slider control. Rear and front post heights 36”, 48” and 60”. Full moldboard safety trip options include ...
[81]
Snow Pusher or Angle Plow? How to Choose. - SnowWolf Plows
Snow pushers contain more but can't angle or backdrag, and typically you only plow in one direction – toward the pile. Angle plows have limited containment, and ...
[82]
Loader-mounted industrial snow blower | Winter maintenance
Remarkable airflow · Airflow: Up to 4.35 m/h (9165 cfm) · Airspeed: Up to 581 km/h (361 mph) · Power: 129 kW (174 hp) Caterpillar® turbocharged, Tier 4 Final ...Missing: snowplow | Show results with:snowplow
[83]
[PDF] FINAL REPORT Prepared for Transportation Research Board Wilfrid ...
Feb 29, 2024 · Agencies have found that the optimal speed is approximately 15-17 mph. • Multiple passes (2 or 3) have been shown to be beneficial in ...
[84]
Snow and ice plan | WSDOT - | WA.gov
Our trucks need to cover more than 20,000 lanes miles. To efficiently treat roadway surfaces for snow and ice our trucks travel about 25-35 miles per hour.
[85]
Snow Plow Techniques and Planning - Kolpin
Apr 13, 2020 · With the blade angled to the left or right side of the vehicle, make consecutive passes--each time throwing the snow forward and to the side.
[86]
Different Types of Snow & Removal Techniques - Chicago Ice Melt
Mar 2, 2023 · Dry snow can be removed using a snow blower, shovel, or broom, while wet snow can be removed using a shovel with a wide blade or a snow plow ...
[87]
Snow Plow Blades - DMC Wear Parts
Snow Plow Blades ... Rubber – Rubber edges are a lightweight and flexible blade that are best for clearing light snow and slush while protecting the road surface.
[88]
[PDF] Attachment B Fuel Adjustment Worksheet 2025-2026 Winter Season
Sep 25, 2025 · 6.75 gallons/hour. 300000 - 360000 ADDITIONAL VEHICLE CODES ... Assumed Fuel Consumption Rates For Various Categories Of Hired Equipment.Missing: snowplow | Show results with:snowplow
[89]
Snow in the Regency
Nov 25, 2011 · Typically, these men were accompanied by a large, open horse-drawn wagon into which they would shovel the snow. When the wagon was full, it ...Missing: 18th 19th
[90]
A brief history of snow removal - Marketplace.org
Feb 14, 2014 · According to the National Snow and Ice Data Center, they were first used by the city of Milwaukee in 1862. Early snow plows were horse-drawn ...
[91]
Rotary Snow Plow -
Jan 15, 2019 · The Rotary Steam Snow Shovel, for Railroad use, was a True “Canadian Invention” aka: Rotary Snow Shovel aka: Rotary Snow Plough aka: Elliot-Jull Snow Plow.
[92]
https://www.marketplace.org/story/2014/02/14/brief-history-snow-removal
[93]
The oldest railroad snow plow in the U.S. earns landmark status
Apr 20, 2015 · “Rotary plows proved much more effective against heavy snowfalls than wedge plows and manual labor,” said ASME in a bronze plaque presented to ...
[94]
Rotary Snowplough | The Canadian Encyclopedia
The rotary snowplough uses a revolving wheel with plates to scoop and eject snow. Jull's design used a 3m wheel with pivoting plates. It became standard on ...
[95]
Oregon Short Line #762 - Mid-Continent Railway Museum
... snow plow. The first concept of a machine railroad snow plow was conceived by a Toronto dentist named J.W. Elliot in 1869. Resembling a fan mounted on a ...Missing: Elliott | Show results with:Elliott
[96]
History Lesson: Where would we be without Clayton's Carl Frink?
Jan 12, 2024 · Frink came up with the first snowplow,” LaShomb said, “and within a short amount of time the snowplow was all over the country doing ...
[97]
[PDF] A SHORT HISTORY OF MAN'S ATTEMPTS TO MOVE THROUGH ...
Straight blade snowplows attached to truck in use in 1925 (12). £1. AM. :aj • . Figure 3. Displacement snowplow mounted on truck used in central and northern ...
[98]
Union Pacific's Rotary Snow Plows - UtahRails.net
May 26, 2024 · The Union Pacific and connecting lines that later became part of the Union Pacific system, acquired a total of 18 rotary plows.
[99]
[PDF] SNOW PLOW TRUCKS - Transportation Research Board
By the 1950's snow removal, keeping roads and streets always passable, become a public service with high priority. As the service got better, the expectation, ...
[100]
100 years in snow! - Øveraasen
The company, which was established as an engine factory by Hans and Even Øveraasen in 1908, developed the world's first snow plough for mounting on a car in ...Missing: history Soviet
[101]
Road Saviors | Columns | mankatofreepress.com
Feb 28, 2019 · And 80 percent of MnDOT snowplows have GPS where you can track where they are online. Another 25 percent have cameras, so you can see the ...
[102]
Now you can see where MnDOT snowplows are and what the roads ...
Jan 26, 2017 · To see the images, travelers can go to the 511mn.org site and click on the "Plow Cameras" tab on the left side of the screen. That will bring up ...Missing: GPS history
[103]
https://www.mankatofreepress.com/mankatomagazine/columns/road-saviors/article_a8f319b4-3b8d-11e9-9e04-03d91376c5b5.html
[104]
Lightweight Materials for Cars and Trucks | Department of Energy
Lightweight materials offer great potential for increasing vehicle efficiency. A 10% reduction in vehicle weight can result in a 6%-8% fuel economy improvement.Missing: hydraulics snowplows
[105]
[PDF] Electrification of a foldable snowplow - DiVA portal
The aim and goal with this report is to investigate the possibility to replace a hydraulic cylinder system on a foldable snowplow with an electric ...
[106]
[PDF] Reducing Winter Maintenance Equipment Fuel Consumption Using ...
This project analyzes the impact that idling and snowfall have on the fuel consumed by MnDOT's snowplow fleet, with the underlying objective to determine ...
[107]
Predictive snow depth measurement | SnowSat LiDAR
SnowSat LiDAR measures snow depth up to 50 m (165 ft) in front and to the side of the vehicle on a surface of up to 2,600 m² (28,000 sqft). The operator can ...
[108]
LiDAR radar is also used in snowplows - Highmotor
Jan 9, 2023 · LiDAR technology is not only used to create self-driving vehicles, but is also practical in hazardous services such as snow ploughing.
[109]
PRODIGY™ Multi-Position Wing Snow Plow | WESTERN®
When you change the plowing angle, the PRODIGY snowplow wings automatically adjust to provide the most efficient plowing configuration for the job. WATCH ...
[110]
SPEEDWING™ Winged Snow Plow - SnowEx
Intuitive mechanical wings automatically adjust from scoop mode to windrow position as you angle the plow. By combining the ease of straight blade operation ...
[111]
How Oslo Airport's impressive autonomous snow removal tech works
Dec 26, 2022 · A fleet of enormous unmanned machines is revolutionising how Oslo Airport clears snow from its runways, as Matteo Legnani reports from a wintry Norway.Missing: Ostfriese | Show results with:Ostfriese
[112]
Avinor to trial self-driving snowploughs at Oslo Airport
Sep 25, 2018 · Norwegian state-owned airport operator Avinor has unveiled plans to trial two autonomous snowploughs at Oslo Airport for snow clearing work.
[113]
Snowplow drivers share tips on how to stay safe on the road during ...
Nov 29, 2022 · Stay at least 200 feet behind a working snowplow. Make sure that you can see the plow's mirrors to ensure the driver can see you. If you must ...
[114]
Ohio snowplow involved in collision - FOX Weather
Jan 20, 2024 · A study of crashes involving snow and ice removal equipment by Michigan State University found about 225 crashes occur in the state each year.
[115]
Snowplow Accidents: An Unrecognized Winter Hazard - Killino Firm
Iowa, for example, averages 46 snowplow accidents occur every winter. The state has paid more than $1.2 million to repair other vehicles and settle injury ...
[116]
Road Salt - Cary Institute of Ecosystem Studies
It makes our roads safer, but is polluting our waterways. Each year in the US, we use 15-32 million metric tons of road salt to keep winter roads free of ice ...
[117]
Winter is Coming! And with it, tons of salt on our roads | US EPA
... roads resulting in approximately $5 billion dollars in annual repairs in the U.S. alone. ... A recent study showed that the annual median snow/ice cover on ...<|separator|>
[118]
How Road Salt Harms the Environment - State of the Planet
Dec 11, 2018 · Recent research indicates that salt is accumulating in the environment and poses an emerging threat both to ecosystems and human health.
[119]
Why Cities Turn To Beet Juice To Clear Winter Roads | Weather.com
Dec 15, 2023 · In places like Lincoln, Nebraska, beet juice has helped reduce the annual average usage of salt by 20%, according to Tim Byrne, maintenance ...Missing: benefits | Show results with:benefits
[120]
[PDF] Deicing Material Application and Storage
Roadway managers should develop a tracking system that maps application routes, logs application rates and notes areas of high accumulation of ice/snow.
[121]
[PDF] Green Purchasing Best Practices: Deicers
Some types of snow and ice control products (particularly those sold in small containers) are certified by US. EPA's Design for the Environment (DfE) Program.<|separator|>
[122]
40 CFR Part 205 -- Transportation Equipment Noise Emission Controls
This Vehicle Conforms to U.S. EPA Regulations for Noise Emission Applicable to Medium and Heavy Trucks. ... U.S. EPA noise emission standards. Used on motorcycles ...