Fire Fighting Skid Units: The Complete Guide to Portable Fire Suppression Systems

When seconds matter and water sources are scarce, a firefighting skid unit can mean the difference between a contained incident and a devastating loss. These compact, self-contained fire suppression systems have become indispensable tools for fire departments, forestry operations, agricultural properties, and commercial facilities facing the growing threat of wildfires and remote fire emergencies.

What Is a Fire Fighting Skid Unit?

A fire fighting skid unit is a portable, self-contained fire suppression system mounted on a structural frame or "skid" that can be transported via truck bed, trailer, or utility vehicle. Unlike traditional fire engines that require significant infrastructure and trained drivers, skid units deliver professional-grade firefighting capability in a compact, versatile package that can be deployed rapidly wherever protection is needed.

The essential components of a firefighting skid unit typically include a gasoline or diesel-powered pump, water tank (ranging from 100 to 500+ gallons), hose reels with various nozzle options, and a robust frame designed for rough terrain and frequent transport. This modular design allows operators to customize configurations based on specific fire risks, available water sources, and operational requirements.

Core Components That Define Performance

The Heart: Pump Systems

The pump serves as the critical component that determines a skid unit's firefighting effectiveness. Most quality units feature centrifugal pumps capable of delivering 10-50 gallons per minute (GPM) at pressures ranging from 100-300 PSI. High-performance models designed for wildfire suppression often incorporate two-stage pumps that can draft from static water sources like ponds, streams, or tanks while maintaining consistent pressure for effective fire knockdown.

Engine selection directly impacts reliability in field conditions. Honda and Briggs & Stratton gasoline engines dominate the market for smaller units due to their proven dependability and ease of maintenance. Larger skid units serving forestry departments and ranches often utilize diesel engines that provide superior torque, fuel efficiency, and longevity during extended operations.

Water Capacity and Management

Tank size represents a crucial trade-off between firefighting duration and portability. A 200-gallon skid unit provides approximately 4-5 minutes of continuous spray at 40 GPM—often sufficient for initial attack on spot fires or protecting structures while additional resources arrive. Properties with limited water access typically opt for larger 300-500 gallon configurations, accepting increased weight in exchange for extended operational time.

Modern skid units incorporate baffled tanks that minimize water surge during transport across uneven terrain. This engineering detail prevents dangerous shifts in center of gravity that could destabilize the carrying vehicle on steep vineyard slopes or forest access roads.

Types of Fire Fighting Skid Units: Matching Equipment to Mission

Rapid Response Skid Units

Designed for speed and maneuverability, these compact systems typically feature 100-200 gallon tanks mounted on lightweight aluminum or steel frames. Fire departments use them for vehicle fires, dumpster fires, and first-response scenarios where access is limited. Wineries and ranches appreciate their ability to fit in side-by-side UTVs or pickup beds, enabling immediate response to spot fires detected during patrol.

These units excel in scenarios where the primary objective is quick knockdown with water shuttle support nearby. Their reduced weight—often 800-1,500 pounds when full—allows a single pickup truck to carry them into locations inaccessible to traditional apparatus.

Wildland Fire Suppression Units

Purpose-built for forestry departments and rural fire districts, wildland skid units emphasize durability and extended operation in harsh environments. These systems typically incorporate 300-500 gallon polyethylene tanks resistant to UV degradation and impact damage from brush contact.

Key features include Honda GX390 or similar commercial-grade engines, Hannay or Hannay-style hose reels with 200+ feet of 1-inch or 1.5-inch forestry hose, and adjustable spray nozzles capable of switching between fog patterns for fire suppression and straight streams for hot spot work. Many include foam injection systems that dramatically improve knockdown effectiveness on wildland fuels while conserving precious water supplies.

Agricultural and Vineyard Protection Systems

Wineries and ranches face unique fire protection challenges: vast acreage, limited hydrant access, and valuable assets concentrated in remote areas. Their skid units often feature mid-range capacities (250-300 gallons) optimized for structure protection and creating defensive perimeters around buildings, equipment, and livestock areas.

These systems frequently incorporate dual hose reels allowing two operators to work simultaneously—critical when protecting multiple structures or establishing firebreaks. The best agricultural skid units include both firefighting and spray application capabilities, serving double duty for pesticide application, dust suppression, or irrigation support during off-season periods.

Commercial and Industrial Skid Systems

Manufacturing facilities, lumber yards, and processing plants often deploy heavy-duty skid units as part of comprehensive fire safety plans. These premium systems feature high-output pumps (30-50 GPM), larger fuel tanks for extended runtime, and industrial-grade components rated for daily readiness rather than occasional use.

Insurance requirements frequently drive specifications for these units, with carriers requiring minimum pump capacities, tank volumes, and maintenance documentation. Forward-thinking facilities integrate their skid units into overall emergency response plans, conducting regular drills that ensure staff can deploy equipment effectively during actual emergencies.

Strategic Benefits for Different Operations

For Fire Chiefs and Emergency Services

Firefighting skid units extend departmental capabilities without the six-figure investment required for traditional apparatus. Rural fire districts particularly benefit from positioning skid units at remote fire stations or mounting them on brush trucks to create dual-purpose vehicles.

The tactical advantage lies in simultaneous operations—a standard engine can lay supply line while a skid-equipped pickup performs initial attack, effectively doubling available firefighting positions. During wildfire season, departments loan or stage units with trained community members in high-risk areas, creating a distributed response network that reduces initial response times from minutes to seconds.

Mutual aid becomes more flexible when multiple agencies operate similar skid units. Standardized equipment means personnel from assisting departments can immediately operate unfamiliar units without extensive familiarization, streamlining operations during large-scale incidents.

For Forestry Operations

Wildfire suppression in timber lands demands equipment that matches the environment's rugged character. Skid units prove invaluable during logging operations when spark-producing equipment operates in standing timber and dry slash. A skid unit stationed at the active logging site enables immediate response to ignitions before they establish, often extinguishing dangerous situations with minimal water and no need to evacuate crews or halt production.

Forestry departments appreciate the economic efficiency—a $5,000-$15,000 skid unit provides capabilities that might otherwise require a $300,000 dedicated wildland engine. Multiple units can be positioned across vast timber holdings, creating a distributed suppression network responsive to fires detected by lookout towers or aerial patrols.

The ability to draft from streams, ponds, and portable tanks transforms tactical options during extended campaigns. While aerial resources and hand crews work the main fire, ground crews equipped with skid units can protect structures in the wildland-urban interface or extinguish spot fires ahead of the main fire front.

For Vineyard and Winery Operations

California's wine country has witnessed devastating wildfires that destroyed vintages, infrastructure, and in some cases, entire estates. Progressive vineyard managers now view firefighting skid units as essential equipment rather than optional safety gear.

The seasonal nature of fire risk aligns perfectly with skid unit capabilities. During harvest season when fire danger peaks, units can be pre-positioned near crush pads, barrel rooms, and other high-value facilities. Vineyard workers receive basic training in equipment deployment, creating an immediate response capability that can protect structures during the critical minutes before fire department arrival.

Many wineries discover their skid units provide insurance premium reductions that partially offset acquisition costs. Carriers recognize that on-site suppression capabilities significantly reduce total loss probability, particularly for properties located beyond five-mile response distances from municipal fire stations.

The compact nature of modern skid units allows transport via ATV or side-by-side through vineyard rows where conventional vehicles cannot operate. This maneuverability proves crucial when fires start within the vineyard itself, allowing operators to attack flames before they reach structures or spread to neighboring properties.

For Ranch and Agricultural Properties

Ranchers managing thousands of acres face a stark reality: they are their own first responders. When grass fires ignite miles from the nearest road, a firefighting skid unit mounted in a pickup bed becomes the primary defense against losing pastures, equipment, livestock facilities, and sometimes homes.

The self-sufficiency factor cannot be overstated. Ranch operations already maintain pickup trucks, ATVs, and utility vehicles—adding a skid unit simply enhances existing equipment's capabilities. Many ranchers fabricate custom mounting systems that allow rapid loading and unloading, using the skid unit for fire protection when needed and freeing the vehicle for regular ranch work otherwise.

Water sourcing flexibility proves essential in agricultural applications. A quality skid unit can draft from stock tanks, irrigation ditches, or portable water buffaloes, converting any water source into a firefighting supply. During controlled burns conducted to manage pasture health, the skid unit provides safety backup, allowing ranchers to conduct prescribed fires with confidence.

Selecting the Right Fire Fighting Skid Unit: Critical Specifications

Pump Performance Parameters

Flow rate and pressure represent the two fundamental specifications that determine firefighting effectiveness. For initial attack on grass fires, vegetation fires, and structure protection, target minimum pump performance of 20 GPM at 150 PSI. This combination delivers adequate reach (40-50 foot throw) and fire stream effectiveness for most applications.

Forestry operations and departments planning aggressive interior attack should specify 30-40 GPM capabilities. Higher flow rates enable foam application, simultaneous dual-line operations, and effective penetration of dense vegetation or structural fires.

Pressure consistency matters more than peak pressure. A pump that maintains 175 PSI throughout its flow range proves more useful than one that achieves 250 PSI only at minimal flow. Quality manufacturers provide pump curves showing performance across the operating range—study these carefully during evaluation.

Engine Reliability and Maintenance

Engine selection significantly impacts long-term operational costs and field reliability. Commercial-grade Honda GX series engines (GX200, GX270, GX390) have earned widespread respect for starting reliability after extended storage and maintaining performance in dusty, high-temperature conditions common to wildfire environments.

Electric start options add convenience and enable quick deployment by personnel who might struggle with recoil starting under stress. However, electric start systems introduce batteries requiring maintenance and potential failure points. Many departments specify electric start with backup recoil for maximum reliability.

Diesel engines provide superior fuel efficiency and torque, making them ideal for larger skid units requiring extended operation or higher pump outputs. The trade-off involves higher initial costs and slightly more complex maintenance requirements. Operations planning extended campaigns or daily readiness often find diesel economics favorable over gasoline alternatives.

Tank Construction and Capacity

Polyethylene tanks dominate the firefighting skid market due to their corrosion resistance, UV stability, and impact tolerance. Quality tanks feature full-length baffles that minimize water surge while allowing complete drainage for winterization. Translucent tank walls enable quick visual capacity checks—a small detail that proves valuable during rapid response scenarios.

Tank capacity should reflect operational doctrine and water availability. Properties with hydrants or reliable water sources can optimize for portability with 150-200 gallon tanks. Remote operations benefit from 300-500 gallon capacities that provide extended operation between refills.

Consider water weight in transport calculations: water weighs 8.34 pounds per gallon, meaning a 300-gallon tank adds 2,500 pounds to vehicle gross weight. Ensure your truck, trailer, or UTV can safely transport the loaded unit across the terrain where you'll operate.

Hose and Nozzle Configuration

Professional skid units feature powder-coated steel or aluminum hose reels that protect hose from UV degradation and enable rapid deployment. Spring-rewind reels add convenience but introduce mechanical complexity and potential failure points. Manual rewind mechanisms prove more reliable for infrequent-use applications while spring-rewind excels for departments conducting frequent operations.

Hose diameter represents a critical trade-off between flow capacity and deployment speed. One-inch hose moves easily, deploys rapidly, and provides adequate flow for most initial attack scenarios. Departments prioritizing maximum flow capability or planning structural firefighting support should specify 1.5-inch hose despite its increased weight and deployment time.

Adjustable fog nozzles provide tactical flexibility, allowing operators to switch between wide fog patterns for maximum cooling during structure protection and straight streams for reach and penetration. Quality nozzles feature durable brass or aluminum construction with comfortable grip surfaces that reduce operator fatigue during extended operations.

Mounting and Transport Considerations

Pickup Truck Bed Installation

The most common deployment method involves securing the skid unit in a pickup truck bed using integrated mounting points or custom brackets. This approach provides excellent mobility while maintaining the truck's daily utility. Aluminum or composite beds resist corrosion from water exposure better than steel, though proper drainage and periodic cleaning extend any bed's service life.

Weight distribution significantly affects handling and safety. Position the skid unit forward in the bed, keeping the center of gravity ahead of the rear axle. This placement improves traction on rough terrain and prevents dangerous tail-heavy handling characteristics. Calculate combined weight to ensure compliance with gross vehicle weight ratings—overloading creates liability and accelerates wear.

Quick-release mounting systems enable rapid deployment of skid units to different vehicles as needs change. Operations managing multiple vehicles often maintain a single skid unit that transfers between trucks based on daily fire danger levels, staff assignments, or specific operational requirements.

Trailer Systems

Dedicated trailers provide maximum capacity and equipment integration while preserving truck bed utility. Single-axle trailers handling 1,500-3,000 pound loads prove adequate for most skid units, while larger systems require tandem axles for stability and legal compliance.

Quality trailers incorporate tool boxes for hand tools, spare fuel, and firefighting accessories. Some operations outfit trailers with additional water tanks, portable pumps, and foam concentrate containers, essentially creating mobile fire caches deployable to remote incidents or staging areas.

Consider licensing and braking requirements in your jurisdiction. Many regions require electric brakes on trailers exceeding specific weight thresholds. Ensure your towing vehicle provides adequate brake controller capacity and hitch weight rating for safe operation.

UTV and ATV Integration

Utility terrain vehicles equipped with firefighting skid units create highly mobile rapid response capabilities perfect for vineyards, timber lands, and ranch operations. Compact skid units weighing 400-800 pounds loaded fit within most UTVs' cargo capacity, though operators must verify specific vehicle ratings.

The tactical advantage lies in accessing terrain impossible for wheeled vehicles—riding trails, vineyard rows, forest paths, and steep hillsides all become accessible firefighting positions. Early attack on small fires before they establish often prevents escalation that would require expensive aerial or heavy ground resources.

Custom UTV skid systems often incorporate additional fuel tanks, pre-connected attack lines, and quick-disconnect fittings that enable immediate operation upon arrival. Some forestry operations maintain multiple compact skid units positioned at trail heads, ready for immediate deployment via UTV when lookouts detect smoke.

Operational Best Practices and Maintenance

Pre-Season Preparation

Firefighting equipment that fails during emergencies provides negative value—it creates false confidence while delivering no capability. Implement rigorous pre-season testing protocols that verify every component's functionality before fire season arrives.

Start engines monthly during off-season to prevent carburetor varnishing and ensure reliable starting. Stabilize fuel or drain systems completely if extended storage periods (90+ days) are anticipated. Ethanol-free gasoline significantly reduces carburetor maintenance issues in infrequently operated equipment.

Test pumps under load by flowing water through all discharge ports, verifying pressure gauge accuracy, and confirming primer systems function properly. Replace any degraded hoses, damaged couplings, or worn nozzle gaskets during pre-season maintenance rather than discovering failures during actual emergencies.

Water Quality and System Protection

Water quality affects pump longevity and operational reliability. Sediment-laden water accelerates wear on pump components, particularly seals and impellers. Install in-line strainers when drafting from ponds, streams, or tanks containing debris. Clean or replace strainer screens regularly based on water quality conditions.

Freezing protection becomes critical for operations in cold climates. Drain pumps, hoses, and tanks completely after use during freezing weather. Many operators add RV antifreeze to pump casings for additional protection, following manufacturer guidelines regarding appropriate products and procedures.

Biological growth can occur in tanks during warm weather, particularly in agricultural operations where tank water may sit for extended periods. Periodic tank flushing and occasional chlorination prevents biofilm development that can clog strainers and contaminate pumps.

Training and Operational Readiness

Equipment capabilities mean nothing without trained operators who can deploy systems effectively under stress. Conduct realistic training exercises that simulate actual emergency conditions: poor visibility, uneven terrain, time pressure, and communication challenges.

Practice basic troubleshooting procedures: restarting engines that stall under load, clearing clogged strainers, managing kinked hoses, and switching between water sources. These skills separate effective operators from those who own equipment but cannot use it when conditions deteriorate.

Document operational procedures in laminated quick-reference cards stored with each skid unit. Include starting procedures, priming instructions, common troubleshooting steps, and emergency shutdown protocols. New operators or personnel assisting from other agencies can reference these guides for immediate familiarization.

Real-World Applications: When Skid Units Make the Difference

Case Study: Vineyard Fire Suppression

A Northern California winery detected smoke from an electrical malfunction in a barrel storage building during harvest. The nearest fire station was 8 miles distant with an estimated 15-minute response time. Two employees deployed the estate's skid unit mounted on a ranch utility vehicle, arriving at the structure within 90 seconds of detection.

Using 150 gallons of water from the skid unit's tank, they contained the fire to the room of origin while a third employee established a drafting operation from a nearby irrigation reservoir. By the time the fire department arrived 14 minutes after ignition, the fire was extinguished with damage limited to approximately $30,000 rather than the potential total loss exceeding $5 million in structures, inventory, and equipment.

The insurance carrier subsequently reduced premiums by 15% based on demonstrated on-site suppression capabilities and trained personnel—a savings that recovered the skid unit's acquisition cost within three years.

Case Study: Forestry Initial Attack

A logging operation in the Pacific Northwest experienced a hydraulic fluid leak that ignited when it contacted hot exhaust components on a feller-buncher. The equipment operator immediately shut down and retreated while the landing's fire watch deployed a skid unit positioned 100 yards from active operations.

The fire watch applied water and foam from the skid unit, controlling the fire before it spread beyond the immediate equipment area and into surrounding slash. Total burned area measured less than one-quarter acre. The same ignition without immediate response could have evolved into a major wildfire requiring aerial resources and causing extensive timber loss, potential injuries, and weeks of operational shutdown.

The forestry company attributes approximately $2 million in avoided losses to the $8,500 skid unit and trained fire watch protocol that enabled immediate response.

Case Study: Ranch Grass Fire Defense

A Texas rancher detected a grass fire advancing across neighboring property toward his cattle operation during severe drought conditions. With 30-40 mph winds and response times exceeding 30 minutes due to remote location, he deployed two skid units: one mounted in a pickup truck and another on a UTV.

Working with family members and ranch hands, they established a wet line along a graded road section, using the skid units to saturate vegetation ahead of the fire front. This defensive perimeter held until fire department arrival, protecting structures, equipment, and livestock facilities valued at over $750,000.

The rancher's $11,000 investment in two skid units and basic training prevented catastrophic losses while demonstrating the reality that rural properties must maintain self-rescue capabilities during large-scale incidents when professional resources face overwhelming demand.

Regulatory Compliance and Insurance Considerations

NFPA Standards and Local Requirements

While firefighting skid units typically aren't subject to the same regulatory requirements as commercial apparatus, operations should reference relevant National Fire Protection Association (NFPA) standards for guidance on pump testing, hose maintenance, and operational safety.

Some jurisdictions require permits or registrations for private fire suppression equipment, particularly when systems connect to municipal water supplies or hydrants. Verify local requirements before deployment to ensure compliance and avoid potential liability issues.

Departments integrating skid units into official response plans should establish standard operating procedures addressing deployment protocols, safety requirements, personnel qualifications, and maintenance schedules. Documentation demonstrates due diligence and supports defensive positions should incidents result in legal review.

Insurance Implications

Property insurance carriers increasingly recognize effective fire protection measures with premium reductions. Submit documentation of skid unit capabilities, training programs, and maintenance protocols when requesting reviews. Engineering surveys may verify installations and operational readiness as part of underwriting processes.

Some carriers require minimum specifications: certain pump capacities, tank volumes, or specific features like foam injection systems. Discuss requirements before purchasing equipment to ensure your investment qualifies for maximum insurance recognition.

Liability insurance warrants consideration for operations allowing employees or volunteers to operate firefighting equipment. Verify that existing policies cover fire suppression activities or obtain specific endorsements. Proper training documentation and qualification records support defensive positions should operational incidents result in claims.

Future Trends in Portable Fire Suppression

Technology Integration

Modern skid units increasingly incorporate electronic monitoring systems that track engine hours, maintenance schedules, and operational readiness. Some advanced systems provide remote monitoring via cellular connections, alerting managers to low fuel levels, battery conditions, or unauthorized movement.

GPS integration enables fleet management for operations maintaining multiple units across vast properties. Dispatchers can identify the closest available unit to a reported fire, optimizing response times and resource allocation during large-scale incidents.

Compressed Air Foam Systems (CAFS)

Compressed air foam technology dramatically improves firefighting effectiveness while reducing water consumption—a critical advantage in remote areas with limited water supplies. CAFS-equipped skid units mix compressed air with foam concentrate and water, creating foam that clings to surfaces, penetrates fuel beds, and provides superior cooling compared to plain water.

While CAFS systems add complexity and cost, forestry departments and wildland operations increasingly view them as worthwhile investments. The ability to extinguish fires using 70-90% less water extends operational duration and enables effective firefighting where traditional water supplies would prove inadequate.

Hybrid and Electric Power Systems

Environmental concerns and noise restrictions drive interest in electric or hybrid-powered skid units. Battery-electric systems eliminate engine noise, reduce maintenance requirements, and enable operations in noise-sensitive environments like residential wildland-urban interface areas.

Hybrid systems offering both electric and combustion power provide interim solutions, enabling quiet operation when appropriate while maintaining extended runtime capability when needed.

Making the Investment: Cost Considerations and ROI

Initial Acquisition Costs

Basic firefighting skid units suitable for agricultural and light-duty applications range from $4,000-$8,000. These systems typically feature gasoline engines, 100-200 gallon polyethylene tanks, manual rewind hose reels, and fundamental pump capabilities adequate for initial attack scenarios.

Mid-range professional units designed for fire department or forestry service cost $10,000-$20,000. Enhanced specifications include larger capacity tanks (250-400 gallons), commercial-grade Honda or Briggs & Stratton engines, powder-coated steel hose reels, and higher-output pumps delivering 30-40 GPM.

Premium wildland fire suppression systems with CAFS capabilities, electric start diesel engines, 500-gallon capacity, and advanced monitoring systems command $25,000-$40,000. These represent comprehensive solutions for operations requiring maximum capabilities and expecting frequent deployment.

Custom fabrications incorporating specific mounting solutions, additional hose reels, foam proportioning systems, or specialized features add 15-30% to base unit costs. Many operations find custom configurations worthwhile when standard offerings don't precisely match operational requirements.

Calculating Return on Investment

Traditional ROI calculations prove difficult for emergency equipment that may operate infrequently. A more relevant framework considers "return on insurance"—the relationship between acquisition costs and potential loss prevention value.

A $12,000 skid unit protecting a $2 million property requires preventing just one significant fire event over its 15-20 year service life to justify acquisition costs multiple times over. When calculating ROI, include insurance premium reductions, avoided business interruption costs, potential life safety value, and environmental protection benefits.

Operations viewing skid units as dual-purpose equipment—firefighting plus spray application, dust control, or irrigation support—can allocate costs across multiple functions. A unit generating $1,000 annually in secondary utility while providing fire protection demonstrates clear economic value beyond traditional ROI calculations.

Lifecycle Costs and Maintenance Economics

Well-maintained firefighting skid units provide 15-25 years of reliable service with minimal maintenance costs. Annual maintenance typically involves $200-$400 in materials: engine oil, fuel stabilizer, pump seal kits, hose gaskets, and minor repairs.

Engine rebuilds or pump replacements may be required after 1,500-2,500 hours of operation—representing decades of service for units deployed primarily for emergency response. Component-level repairs typically cost 15-25% of new equipment prices, making refurbishment economically attractive compared to replacement.

Compare lifecycle costs against alternatives: contracted fire protection services, insurance premium increases without on-site suppression capabilities, or potential losses from inadequate protection. Most operations discover skid units provide exceptional value across extended service periods.

Conclusion: Investing in Preparedness

Firefighting skid units represent more than equipment purchases—they embody commitments to proactive protection, operational readiness, and community resilience. Whether you lead a rural fire department extending suppression capabilities, manage forests requiring rapid initial attack, protect vineyard assets from seasonal fire threats, or run ranch operations in remote locations, these versatile systems deliver professional firefighting capabilities where traditional resources cannot respond or respond too slowly to prevent devastating losses.

The decision framework is straightforward: assess your fire risks, identify water sources and access challenges, determine realistic response time expectations from outside resources, and calculate potential loss magnitudes. If this analysis reveals a protection gap between available resources and actual risks, a firefighting skid unit likely represents your most cost-effective mitigation strategy.

Begin by engaging reputable manufacturers or dealers specializing in fire protection equipment. Discuss your specific operational requirements, geographic challenges, and budget parameters. Request demonstrations showing actual operation under realistic conditions—quality vendors welcome opportunities to prove equipment performance before purchases occur.

Invest equally in training and equipment. The finest firefighting skid unit provides zero value without operators prepared to deploy it effectively under actual emergency conditions. Develop realistic training programs, conduct regular exercises, and maintain rigorous maintenance schedules ensuring readiness when seconds count and water sources are scarce.

The next wildfire season, equipment fire, or agricultural emergency won't announce itself in advance. The prepared organization—the fire department with strategically positioned skid units, the forestry operation with trained crews and ready equipment, the winery with robust self-protection capabilities, or the rancher equipped for rapid response—transforms potential catastrophes into manageable incidents.

Your fire fighting skid unit investment begins today. The return materializes the moment you need it and it performs flawlessly, protecting what you've built and those who depend on you.