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10 Signs Your Facility Needs an AirSweep

Author Archives: Dedet Panabi

  1. 10 Signs Your Facility Needs an AirSweep

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    When it comes to material flow, even a small disruption can lead to big problems. From delayed production schedules to wasted materials, inefficiencies pile up quickly. That’s where AirSweep can make all the difference. But how do you know if it’s time to invest in a flow aid system that actually works? Here are ten telltale signs your facility needs an AirSweep system now.

    1. Frequent Bridging and Ratholing

    If materials clump together and form bridges or ratholes in silos, bins, or hoppers, it’s a clear sign of inefficient flow. These issues block material from moving freely and can bring production to a halt. AirSweep solves this by delivering powerful, precise air pulses that break apart material blockages, ensuring smooth flow.

    2. Frequent Downtime for Manual Cleaning

    How often does your team have to stop operations to manually clean or unclog equipment? If workers are hammering on the sides of vessels or entering confined spaces to dislodge stuck material, it’s not just a waste of time—it’s a safety hazard. AirSweep eliminates the need for manual intervention, keeping workers safe and production running. Read more about how it can reduce cleaning and maintenance time.

    3. Wasted Material Due to Buildup

    Material that sticks to the walls of your equipment isn’t just an annoyance—it’s money down the drain. Whether it’s powder, grains, or sticky substances, AirSweep ensures that every last bit of material is discharged, maximizing yield and minimizing waste.

    4. Production Delays Due to Inconsistent Flow

    Inconsistent material flow can disrupt production timelines, leading to missed deadlines and unhappy customers. AirSweep’s on-demand activation ensures that materials flow exactly when and where you need them, keeping production on schedule.

    5. Current Flow Aids Aren’t Effective

    Are you using vibrators, fluidizers, or air cannons but still facing flow problems? These methods often fail to address the root cause of blockages and can even damage your equipment. AirSweep’s unique design targets material precisely, delivering reliable results without causing wear and tear.

    6. Challenging Materials

    Certain materials—like fine powders, moist substances, or sticky products—are notoriously difficult to handle. If you’re working with tough materials and experiencing frequent flow issues, AirSweep’s powerful air pulses can help. They’re designed to work with even the most challenging materials, ensuring consistent flow in every application.

    7. Excessive Energy Consumption

    Flow aids like vibrators or fluidizers can consume a lot of energy without delivering consistent results. AirSweep operates efficiently, using brief bursts of air to achieve maximum impact, helping you reduce energy costs without compromising performance.

    8. Plans to Scale Up Production

    As your business grows, so do the demands on your equipment. Increased production volumes can exacerbate existing flow problems or create new ones. Installing AirSweep ensures your facility is ready to handle higher capacity without compromising efficiency.

    9. Contamination Risks 

    For industries like food processing and pharmaceuticals, material buildup isn’t just a flow issue—it’s a contamination risk. Stuck material can rot, spoil, or mix with other products, leading to quality control problems. AirSweep’s clean, non-intrusive design ensures that your facility meets strict hygiene standards.

    10. Customer Complaints About Product Quality

    If inconsistent material flow is leading to poor-quality products, you’ll hear about it from your customers. Clumped or unevenly mixed materials can ruin batches and damage your reputation. AirSweep ensures even distribution and flow, so every product meets your high standards.

    Why AirSweep?

    Unlike traditional flow aids, AirSweep doesn’t rely on brute force or guesswork. Its powerful air pulses reach every corner of your equipment, dislodging stuck materials and restoring flow instantly. Whether you’re working with powders, granules, or sticky substances, AirSweep delivers reliable results, every time.

    Investing in AirSweep isn’t just about solving flow problems; it’s about future-proofing your facility. With less downtime, lower energy costs, and higher productivity, the benefits add up quickly.

    Ready to solve your material flow challenges once and for all? Contact us today to learn how AirSweep can transform your operations.

  2. Standard AirSweep or AirSweep Straight Shooter: Which Should You Get?

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    When managing bulk materials in industrial settings, ensuring consistent material flow from storage vessels is crucial. Without the right system, you could face costly delays, material waste, and equipment damage due to blockages or inconsistent discharge.

    AirSweep’s two primary models, the Standard AirSweep and the AirSweep Straight Shooter, are designed to solve these challenges. By understanding the key differences between these models, you can choose the best option to optimize your operations.

    Standard AirSweep: Broad and Reliable Coverage

    The Standard AirSweep is engineered for versatility and reliability. This model uses high-pressure, high-volume bursts of compressed air that radiate in a 360-degree pattern. These powerful bursts break material bonds, lift stubborn particles off vessel walls, and sweep them back into the flow stream. The key features are:

    • Wide Application Range: The Standard AirSweep is effective across a variety of materials, from fine powders like flour or cement to coarse substances such as grains or aggregates.
    • Multi-Equipment Compatibility: Whether installed in silos, hoppers, bins, or mixers, this model adapts to your equipment needs.
    • 360-Degree Effectiveness: Its broad activation area ensures that material flow is maintained across the entire vessel.

    If your goal is to eliminate material flow issues in large vessels or systems with uniform material distribution, the Standard AirSweep is a dependable choice. It ensures that even materials prone to bridging, ratholing, or clinging to walls can flow freely.

    AirSweep Straight Shooter: Precision and Targeted Power

    The AirSweep Straight Shooter offers a specialized approach for scenarios where precision is critical. Unlike the Standard model, the Straight Shooter delivers compressed air in a focused, linear column, resembling a fire hose’s stream. This design is ideal for applications requiring pinpoint accuracy or where structural constraints make 360-degree coverage unnecessary. The key features are:

    • Targeted Air Bursts: The linear air pulse breaks material buildup in confined or hard-to-reach areas.
    • Flexible Installation: The Straight Shooter can be mounted at different angles using standard pipe elbows or fittings, allowing you to direct the air exactly where it’s needed.
    • Specialized Applications: Perfect for cleaning specific vessel sections or addressing material buildup in equipment with complex geometries.

    If you’re working with materials that tend to clog in specific areas or have limited access points in your vessel, the Straight Shooter’s focused performance can resolve these challenges efficiently.

    Watch the AirSweep Straight Shooter USDA 135 in action. The model is also built to meet USDA sanitary requirements, and is ideal for food and pharmaceutical industries.

     

    Key Differences Between the Standard and Straight Shooter Models

    To make the best decision, it’s important to weigh the differences between these two models:

    Air Pulse Pattern:

    • Standard AirSweep: Distributes a 360-degree air burst to activate material flow broadly across the vessel.
    • Straight Shooter: Emits a linear column of air for precise, concentrated activation.

    Applications:

    • Standard AirSweep: Best for general use where wide-area activation is necessary.
    • Straight Shooter: Ideal for targeted cleaning or activating materials in confined spaces.

    Installation Flexibility:

    • Standard AirSweep: Typically mounted on vessel walls, covering large areas.
    • Straight Shooter: Can be installed at various angles, offering flexibility to target specific problem spots.

    Material Characteristics:

    • Standard AirSweep: Handles a wide range of materials effectively, particularly those prone to uniform clogging.
    • Straight Shooter: Excels in dislodging stubborn buildups in concentrated areas or specialized equipment.

    How to Choose the Right AirSweep for Your Needs

    Selecting between the Standard AirSweep and the AirSweep Straight Shooter depends on your unique requirements. Here’s how to decide:

    Evaluate Your Material Characteristics

    • Are your materials prone to bridging or ratholing across the vessel? The Standard AirSweep’s 360-degree coverage is likely your best bet.
    • Do you encounter localized blockages or material buildup in specific spots? Opt for the Straight Shooter to address these targeted issues.

    Consider Your Vessel Design

    • Large, open vessels benefit from the Standard AirSweep’s broad coverage.
    • Equipment with structural constraints or complex geometries calls for the Straight Shooter’s focused air bursts.

    Review Process Requirements

    • If your operations require frequent cleaning between batches or involve sticky materials, the Straight Shooter provides precise cleaning where it’s needed most.
    • For continuous flow in standard systems, the Standard AirSweep offers consistent performance.

    Optimize Material Flow with the Right AirSweep

    Both the Standard AirSweep and the AirSweep Straight Shooter are designed to tackle material flow challenges, but their unique strengths make them suited to different applications. The Standard AirSweep ensures comprehensive coverage for a variety of materials and vessel types, while the Straight Shooter offers pinpoint precision for specialized needs.

    By assessing your material characteristics, vessel design, and operational requirements, you can select the model that’s perfect for your setup. For expert guidance, consult with AirSweep engineers—their expertise can help you maximize efficiency, minimize downtime, and keep your materials moving effortlessly.

  3. How to Solve Material Flow in 10 Common Processing Vessels

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    Managing bulk materials comes with a common challenge: ensuring smooth flow through every stage of processing. Blockages can strike at any point, leading to costly downtime, wasted product, and frustrated teams. Here’s a look at the processing vessels most prone to material hang-ups.

    Hoppers

    Hoppers store and dispense bulk materials like powders and granules, feeding them into the next stage of processing.

    Material hang-up: Bridging and rat-holing are the biggest culprits here. Materials can form a solid arch across the outlet or flow unevenly through a narrow channel. Sticky powders can also cling to hopper walls, disrupting flow and creating bottlenecks.

    Silos

    Silos store massive quantities of materials, from cement and grains to plastic pellets. They’re essential for large-scale operations.

    Material hang-up: Moisture and compaction can cause materials to stick to the silo walls or create blockages. Fine powders, in particular, tend to clump and resist flow, which leads to uneven discharge and wasted product.

    Bins

    Bins serve as short-term storage vessels for bulk solids, often holding material right before it’s processed.

    Material hang-up: Like hoppers, bins suffer from material stagnation. Solids may become compacted or form dead zones, preventing a consistent flow. Dusty materials can also accumulate on bin walls.

    AirSweep on an additive surge bin processing vessel

    Chutes

    Chutes transfer materials using gravity, directing them from one stage of processing to another.

    Material hang-up: Insufficient slope or the wrong surface finish can cause materials to stick or clump together, especially if they’re damp or adhesive. This results in blockages that stop material movement entirely.

    Cyclones

    Cyclones separate particles by size or density in pneumatic systems, a common process in industries handling fine powders or particulates.
    Material hang-up: Accumulation of fine particles often occurs in bends or outlets, especially in systems that deal with sticky or moisture-laden materials. This can clog the system and reduce efficiency.

    Mixing Vessels

    Mixing vessels homogenize ingredients, blending powders, liquids, or slurries in food, chemical, or pharmaceutical production.

    Material hang-up: Settling and clumping are common issues, especially with viscous materials. Unmixed components can adhere to the walls or bottom of the vessel, reducing the quality of the final blend.

    Feeders

    Feeders dispense materials in precise quantities, ensuring consistent input for downstream equipment.

    Material hang-up: Sticky or fine-grained materials can clog feeder mechanisms, leading to uneven discharge or complete blockages.

    Weigh Hoppers

    Weigh hoppers measure and dispense materials by weight, a critical function for accurate batching.

    Material hang-up: Material bridging or sticking to the hopper walls can result in inaccurate measurements. Over time, residual material build-up can compromise efficiency.

    AirSweep flow aid on a weighing hopper processing vessel

    Bag Dump Stations

    Bag dump stations transfer materials from bags into processing lines, filtering dust and contaminants in the process.

    Material hang-up: Residue from bags can collect on the grids, while powders may clog the transfer points, slowing down production.

    Storage Tanks for Slurries or Powders

    Storage tanks hold materials for later use, whether it’s liquid, slurry, or powder.

    Material hang-up: Sedimentation or compaction at the bottom of the tank is a frequent issue. These blockages make discharge inconsistent and increase clean-up time.

    Solve Material Blocks in Processing Vessels

    Material flow issues are more than just a nuisance—they can cost your operation valuable time and money. The good news is that these problems are solvable. With the right system in place, you can keep your processing vessels running smoothly, no matter the material.

    AirSweep is a pneumatic flow aid system that uses powerful bursts of compressed air to activate stagnant material and restore flow. Unlike vibrators or other mechanical aids that only address surface-level issues, AirSweep penetrates the material column, breaking up blockages at the source.

    AirSweep can be installed in all types of processing vessels—whether you’re dealing with a stubborn hopper, a silo that refuses to empty evenly, or a bin plagued by dead zones. It works seamlessly with powders, grains, and even sticky materials, ensuring efficient flow every time. Find out more about how AirSweep works.

     

  4. 5 Food Industry Trends for 2025

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    The food processing industry has undergoing significant transformations, driven by factors such as changing consumer preferences, technological advancements, economic conditions, regulatory policies, and environmental concerns. Learn about food industry trends that can affect plant operations and production goals.

    1. Green Food Processing

    Sustainability is no longer a buzzword; it’s a mandate. Consumers and regulators alike demand eco-friendly practices that minimize environmental impact. This shift compels manufacturers to adopt renewable energy sources, reduce waste, and implement sustainable methods throughout production. Embracing green food processing not only meets regulatory requirements but also appeals to the growing segment of eco-conscious consumers.

    2. Food Waste Management

    With global food waste contributing significantly to environmental degradation, the industry is under pressure to enhance resource utilization. Innovations in processing techniques and supply chain management are being developed to address this issue. Efficient utilization of resources, improved storage solutions, and advanced inventory management systems are among the strategies employed to minimize waste. By tackling food waste, manufacturers can enhance profitability and contribute to food security.

    Flow aids can help minimize material waste caused by inconsistent flow. A food company threw away 40 pounds of mixture a day, and even had to pay to have it hauled away, until they installed AirSweep. Watch how AirSweep can be used to promote first-in/first-out flow for all types of food materials.

     

    3. Alternative Proteins

    The rise of plant-based and lab-grown proteins is transforming the food landscape. These alternatives cater to health-conscious consumers and address environmental concerns associated with traditional meat production. Incorporating alternative proteins into product lines allows manufacturers to diversify offerings and meet the evolving preferences of consumers seeking sustainable and ethical food choices.

    4. Enhanced Food Safety Measures

    Advancements in technology are leading to improved food safety protocols. The implementation of early warning systems, real-time analytics, and AI-driven solutions helps in the proactive detection and prevention of foodborne illnesses. By prioritizing food safety, manufacturers can protect public health, comply with stringent regulations, and maintain consumer trust.

    5. Personalized Nutrition

    With the rise of personalized nutrition, food safety is becoming more tailored to individual dietary needs. Technologies that track dietary preferences, allergens, and nutritional requirements are driving the development of personalized food products. This trend enables manufacturers to offer customized solutions, enhancing customer satisfaction and opening new market opportunities.

    Keep up with Food Industry Trends with a Smarter Flow Aid

    AirSweep can help food manufacturers align with industry trends such as sustainability, waste reduction, and enhanced food safety. The system’s efficiency contributes to greener processing by minimizing material waste and reducing energy consumption associated with manual cleaning and maintenance. It also provides consistent and powerful material flow, even for challenging materials like alternative protein products. Find out more about how AirSweep is used in the food industry and why it is more effective than other flow aids.

     

     

  5. 7 Most Common Bulk Materials Prone to Bridging and Ratholing

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    Bridging and ratholing are common problems in bulk material handling, and some materials are notorious for poor flow properties. Learn about the most challenging bulk materials and see proof of why AirSweep is the best flow aid for the job.

    What are bridging and ratholing?

    Bridging happens when bulk materials form a stable arch above an outlet, completely stopping the flow. This usually occurs because of particle cohesion, moisture, or poor hopper design.

    Ratholing creates a narrow channel through the material, leaving stagnant product clinging to the container walls. It’s common with materials that have poor flow properties or stick easily to surfaces.

    Both problems cause production stoppages, material spoilage, and costly manual intervention—headaches no plant manager wants.

    What materials are prone to bridging and ratholing?

    Flow problems can be caused by many factors, including vessel design or plant environment (like humidity and temperature). However, these materials have inherent properties that affect how they behave when they are stored, transported, or mixed.

    1. Cement and Fly Ash

    Cement and fly ash are ultra-fine powders that easily absorb moisture. This leads to clumping, compacting, and cohesion that quickly cause bridging. When stored under pressure, these materials become even tougher to handle because the pressure forces particles closer together, increasing their density and cohesion. The compacted material can form stable arches or stick tightly to hopper walls, making flow nearly impossible without external intervention.

    Watch: AirSweep Cement Mix Material Flow Test

    2. Food Powders

    Most food or beverage processing facilities or commercial bakeries use fine powders like flour, cornstarch, cocoa, and milk powder. These powders are hygroscopic, or readily absorb moisture from the air. Flour and starch compact under their own weight, while cocoa and milk powder stick to hopper walls due to moisture or static charges. These properties make bridging and ratholing and bridging frequent problems.

    Food and beverage manufacturers also have to meet strict sanitation standards. Stagnant material can become spoiled, and manually clearing out material blocks may cause contamination.

    Watch: AirSweep Moist Cornstarch Material Flow Test

    3. Chemicals and Fertilizers

    Many chemicals and fertilizers absorb moisture, leading to cohesion and clumping. Granular fertilizers often bridge because of uneven particle sizes, while fine chemical powders compact or stick to equipment surfaces.

    Aside from slowing down operations, flow interruptions in fertilizers and chemicals disrupt batching accuracy and downstream processes like mixing and packaging.

    4. Plastic Pellets and Resins

    Plastic pellets and resins used in plastic production and packaging pose unique challenges. Smooth, spherical pellets interlock under pressure, causing bridging. Irregularly shaped   compact and form stable arches in hoppers.

    Recycled plastic and resins also pose more challenges. They have varying particle sizes and shapes, increasing the chances of bridging and compacting. As “green manufacturing” becomes a bigger priority because of sustainability goals, reliable flow systems ensure that recycling operations remain efficient, sustainable, and cost-effective.

    Watch: AirSweep Plastic Regrind Material Flow Test

    5. Coal and Aggregates

    Coal and aggregates are typically used in energy production, mining, and construction. These materials often have irregular particle sizes and varying moisture content. Fine coal dust, in particular, sticks together due to cohesion and compaction. Material blocks can choke boiler feed lines and delay energy production—a costly problem for any plant.

    6. Metal powders

    Metal powders are extremely fine, dense, and prone to static charge buildup. These properties cause bridging, compaction, and ratholing, particularly in precision processes like additive manufacturing.

    7. Sawdust and Wood Chips

    Sawdust and wood chips are typically used in paper and pulp industries, wood processing, and biomass energy production. They are lightweight and irregularly shaped, which makes them prone to interlocking and bridging in hoppers and silos. Their fibrous nature also causes the material to compress and compact over time, creating blockages that restrict flow.

    Watch: AirSweep Sawdust Material Flow Test 

    Solve bridging and ratholing for good

    Do you work with a tough material that is prone to bridging and ratholing? Have you tried other flow aids but still resort to manual cleaning or hammering the vessel? AirSweep provides a proven solution to keep your materials flowing, eliminate costly disruptions, and maximize productivity. To learn how AirSweep can improve your plant’s operations, contact us for a consultation.

  6. How to Solve Bridging and Ratholing of Cement and Mined Materials

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    Material flow is the backbone of any successful operation in the mining and cement industries. Yet, common issues like bridging, ratholing, and material pileups can derail even the best-laid plans. These disruptions not only impact productivity but also drive up costs with additional labor and energy consumption.

    The solution? AirSweep—a proven flow aid trusted by over 10,000 installations worldwide. Designed to handle the heavy-duty challenges of materials like clinker, fly ash, and copper concentrate, AirSweep ensures consistent material flow, minimizes downtime, and keeps operations running smoothly. Read on to discover why AirSweep outperforms traditional flow aids and how it’s revolutionizing bulk material handling in the cement and mining industries.

    Common material flow problems in mining and cement

    Heavy materials like clinker, fly ash, and copper concentrate pose significant challenges in processing plants. They often:

    • Bridge or rathole inside vessels, reducing live capacity.
    • Plug outlets, halting production lines.
    • Segregate particles, disrupting material quality.
    • Flood or flush fine powders, causing inefficiency and waste.

    Traditional flow aids like vibrators, air cannons, and fluidizers are no match for such issues. They can compact materials, waste energy, or create safety risks by dispersing particles.

    common material flow problems of cement and mined materials

    AirSweep flow aids solve the toughest flow problems of cement and mined materials.

     

    Why AirSweep is the best flow aid for cement and mined materials

    AirSweep releases high-pressure, high-volume, 360-degree pulses of compressed air that break through material blocks and clear vessel walls. It’s efficient, safe, and designed to tackle the toughest materials. It’s also more efficient, safe, and cost-effective than other flow aids.

    • Fluidizers fail to activate heavy materials.
    • Air cannons waste energy and spread material dangerously.
    • Vibrators compact materials instead of clearing them.

    AirSweep, on the other hand, activates materials quickly and completely, using less energy and plant air.

    AirSweep is trusted by cement and mining companies worldwide

    AirSweep has consistently delivered outstanding results across the mining and cement industries, solving some of the toughest material flow challenges.

    For a leading cement manufacturer, conventional air cannons failed to eliminate stubborn clogs and clinker, forcing workers to break blockages manually using bars—a time-consuming and inefficient process. By switching to AirSweep VA-51 units, the company significantly improved efficiency, completely eliminating residue buildup. The success was so remarkable that they implemented the system across multiple plants.

    In the mining sector, a company handling copper concentrate faced daily disruptions, with workers spending up to two hours clearing material blockages. Air cannons posed safety hazards by dispersing materials, while vibrators were both noisy and ineffective. Installing three AirSweep VA-12 units transformed their operations, providing a quiet and effective solution that allowed workers to redirect their efforts to other critical tasks.

    For a concrete company dealing with fly ash, material bridging around vessel outlets brought production to a standstill. Four AirSweep units were installed while approximately eight tons of fly ash remained in the bin. The result? Production went from zero to full capacity overnight, ultimately boosting overall output by 60%.

    These real-world applications highlight AirSweep’s ability to optimize material flow, reduce labor, and enhance productivity in even the most demanding environments.

    Fits Every Vessel, From Silos to Trucks

    AirSweep can be installed on all types of bulk material handling equipment, from silos and hoppers to truck trailers. The wear plates and hard-facing AirSweep units can be bolted on flat walls or surfaces to protect equipment. In truck applications, AirSweep proves equally effective, activating materials during transport to guarantee smooth and efficient unloading.

    AirSweep can be installed on equipment used to transport cement and mined materials.

     

    Built for Durability and Performance

    AirSweep systems come with the longest warranty in the business—seven years—a testament to their reliability. Whether you need to clear stubborn clogs in silos or ensure smooth transport in trailers, AirSweep delivers unmatched performance.

    Ready to revolutionize your operations? Contact the AirSweep team today to find out how we can optimize your material flow and prevent costly downtime.

     

  7. AirSweep launches new and improved bulk material handling equipment

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    For decades, half of S&P 500 companies and thousands of SMEs across the globe have used AirSweep to prevent bridging, ratholing and other material build-up. Now AirSweep has gotten even better.

    On May 7, 2024 Control Concepts, Inc. rolled out the AirSweep MAX (short for Material Activation Xcellence). It further improves the AirSweep technology to deliver more power and energy efficiency. Laboratory tests found that it delivers up to 52% better performance than its predecessor.

    “Our original AirSweep was already in a product class of its own,” said Eric Esselstyn, Director of Sales at Control Concepts. “When  fluidizers and industrial vibrators failed, AirSweep could lift and sweep even the stickiest materials into the flow stream without damaging the vessel.” With the new, patented improvements, the AirSweep MAX is poised to become the most powerful and cost-efficient flow aid. Companies can get faster, first in/first out flow with zero manual intervention and less maintenance costs.   

     

    Patented design provides more power per pulse

    The new AirSweep MAX has 20 patented improvements and six proprietary parts.

    This patented design creates more powerful air pulses and a more free-flowing air stream. It can move more material or speed up material flow with the same amount of energy.

    Lab tests proved that AirSweep max had 52% more output and pressure 31% more air output than the original AirSweep. For factories or plants that move massive amounts of material each day, this can significantly improve productivity or shorten vessel cleaning times.

    Other plants that seek to lower operating costs can also use this technology to lower the operating pressure. They will use less plant air and energy, but still be able to move the same amount of material.

    airsweep max-new-ai-ad1

    Designed for durability

    AirSweep MAX uses aerospace-grade design specs – the highest standard for quality and durability. Each unit is also made and hand-assembled in the United States, following strict quality control standards.

    “You can’t copy quality and durability,” said Henry Tiffany, President of Control Concepts, Inc.  “We already know how well the original AirSweep works, and now it’s even better performance for the same cost? The MAX will be the last flow aid our customers will ever need.”

    Like the original AirSweep, the AirSweep MAX requires preventative maintenance every one million cycles. Control Concepts Inc. also provides a seven-year warranty, the longest in the business.

    Easy installation and integration

    AirSweep MAX is compatible with the original AirSweep system, so it’s very convenient to upgrade your unit. It is also incredibly easy to install. Workers don’t need special tools or training – anyone can do it. This also makes it ideal for quick field service and assembly.

    MAXimize your material flow today

    Learn more about AirSweep MAX and how it can help improve your process. Contact us for more information or a custom proposal for your process and material.

     

Copyright Control Concepts, Inc. , 19 S. Main Street, Brooklyn, CT 06234 • ph: 860-928-6551 • fax: 860-928-9450

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