This article provides detailed information about Industrial Vacuum Cleaners.
You will learn:
An industrial vacuum cleaner is a robust cleaning device crafted to effectively clear away debris, industrial waste, construction remnants, and byproducts from manufacturing settings or building activities. As an eco-friendly piece of machinery, industrial vacuum cleaners proficiently and securely remove and properly dispose of pollutants and hazardous substances.
Beyond tackling industrial debris, industrial vacuum cleaners play a crucial role as an environmental asset by filtering and purifying air within manufacturing facilities. Integrated with dust extraction systems, these vacuums collect, filter, and cleanse the air by extracting large particulate matter, resulting in a workspace that is both cleaner and safer.
Industrial vacuum cleaners, essential for heavy-duty cleaning in commercial and manufacturing environments, utilize alternating current (AC) power to drive a high-pressure fan that creates strong negative pressure, or vacuum suction. This powerful suction draws in dust, debris, hazardous particles, and ambient air from the targeted surface areas, channeling them through specially engineered intake systems. The airflow, laden with contaminants and industrial waste, is directed through a series of industrial-grade filtration stages before being deposited into a containment bag or high-capacity collection drum. Designed for enhanced durability and performance, industrial vacuum cleaners are critical for maintaining workplace safety, regulatory compliance, and productivity in facilities such as factories, warehouses, construction sites, and food processing plants.
The core operation of an industrial vacuum cleaner is based on the fundamental principle of negative air pressure. The air pressure outside the collection pipe is significantly higher than the pressure inside, producing a continuous vacuum effect that ensures efficient particle and contaminant extraction from the work environment. This method is highly effective for removing a wide range of materials, including fine dust, hazardous substances, metal shavings, liquids, powders, and chemical residues, depending on the industry application and vacuum system configuration.
The first step in the operation cycle of an industrial vacuum cleaner is generating negative pressure at a much greater magnitude than that of standard residential vacuum cleaners. Unlike household units鈥攚hich rely on low-energy motors for routine cleaning tasks鈥攊ndustrial vacuum systems use significantly larger and more robust motors. These high-performance motors generate the necessary suction force (measured in CFM or cubic feet per minute) to collect bulk debris and heavy particulates efficiently, as well as support extended operation times and multiple simultaneous users.
The vacuum pump is the driving force behind the industrial vacuum cleaner, utilizing mechanical, physical, or chemical processes to create a substantial pressure differential by removing air from a confined space. Types of industrial vacuum pumps鈥攕uch as centrifugal fans, positive displacement blowers, or side channel blowers鈥攁re selected based on application-specific requirements like airflow volume, suction power, and duration of operation. In an industrial setting, the vacuum pump is precisely engineered to deliver uninterrupted vacuum pressure across extended cleaning cycles, enabling optimal collection of both fine and coarse debris, hazardous powders, combustible dust, and other industrial contaminants.
Centrifugal exhausters are engineered to deliver high airflows with low noise emissions, providing quiet and efficient operations in demanding industrial environments. Heavy-duty, multi-stage centrifugal exhausters boast an extensive range of air volume and vacuum pressure ratings, supporting several operators through expansive vacuum pipe networks. Depending on the configuration, centrifugal exhausters are built with horsepower ranging from 15 HP up to 200 HP or more, addressing diverse operational needs鈥攆rom spot cleaning in small manufacturing shops to continuous large-scale debris removal within extensive industrial facilities.
These multi-stage centrifugal exhausters can accommodate simultaneous usage by multiple vacuum hoses, offering a superior solution for large industrial vacuum systems with complex layouts. Capable of moving thousands of cubic feet per minute (CFM) of air, these exhausters efficiently transport dust, shavings, granular solids, and even liquid spills through long lengths of industrial vacuum tubing. As a result, centrifugal exhausters are widely adopted for intensive cleaning operations, process dust control, and maintenance in sectors such as automotive manufacturing, food processing, pharmaceuticals, and aerospace.
The industrial vacuum cleaner鈥檚 fan is a critical component that creates the necessary air pressure differential for efficient operation. The fan moves air toward the exhaust port, generating increased air density in front of the fan while pressure decreases behind it. This pressure drop is the foundation of strong vacuum suction, drawing dust, debris, and hazardous materials from surfaces into the cleaning system. In advanced industrial vacuum cleaners, variable-speed fans and precision impeller blades are implemented to maximize airflow while reducing energy consumption and minimizing noise, resulting in enhanced cleaning efficiency and worker safety. The diagram below visually demonstrates how pressure drop and airflow contribute to suction in an industrial vacuum system.
The filtration system is essential to the performance and reliability of any industrial vacuum cleaner. Filters are strategically located at inlet points, such as where the vacuum hose connects, to trap large particles and prevent system blockages. For applications involving hazardous, fine, or combustible dust, a multi-stage filtration approach is used, often combining cyclonic pre-separators, cartridge filters, and high-efficiency particulate air (HEPA) filters. HEPA filters are especially vital for environments requiring stringent cleanliness standards, as they trap particles as small as 0.3 microns with a 99.99% efficiency rate. This advanced filtration protects both equipment operators and sensitive processes鈥攕uch as pharmaceutical production, electronics manufacturing, and cleanroom operations鈥攂y ensuring clean air is returned to the workspace and containing industrial pollutants.
Industrial vacuum cleaner hoses are designed for maximum durability, flexibility, and chemical resistance. These hoses are often constructed from abrasion-resistant, anti-static, or conductive materials鈥攕uch as steel wire reinforced with polyurethane or thermoplastic elastomers鈥攖o accommodate aggressive vacuuming of rough, heavy, or combustible materials. The hose鈥檚 wall thickness and internal diameter are calibrated to optimize both airflow and pressure rating, ensuring the hose remains functional under rigorous industrial conditions.
Pressure resistance is a key requirement, as industrial vacuum hoses must withstand significant suction forces without collapsing or restricting performance. Transparent or clear hoses are popular in industrial settings as they allow for visual inspection, minimizing downtime by enabling prompt identification and removal of blockages or build-up within the line. Specialized hoses are also available for explosion-proof applications or for working with corrosive chemicals. Proper selection of an industrial vacuum hose is critical for system longevity, operator safety, and maintaining compliance with OSHA, NFPA, or other industry regulations.
Industrial vacuum cleaner accessories are purpose-built to boost vacuum system versatility, efficiency, and safety across a wide range of challenging environments. The right vacuum accessories help adapt the core system to specific cleaning tasks, materials, and surfaces鈥攊ncluding concrete floors, assembly lines, machine tools, and confined production areas. Standard and optional components include battery packs for cordless operation, ergonomic hand and wall brushes, squeegees for liquid recovery, high-capacity floor nozzles, specialized bulk pickup nozzles, brush rolls, crevice tools, replacement filters, and multiple sizes of connection fittings and industrial vacuum tubing.
Selecting the proper accessories can increase productivity, worker safety, and maintain compliance when managing combustible dust, oil spills, metal shavings, or hazardous powders. Many leading manufacturers offer custom accessories and integrated toolkits designed to meet industry-specific needs鈥攚hether for food and beverage, automotive, plastics, or pharmaceutical operations. Operators should always consult equipment catalogs or speak with industrial vacuum system providers to ensure the best fit for their application and operational requirements.
Industrial vacuum cleaners are as diverse as the industries they serve, designed to handle a wide range of materials. Whether removing oil slicks, powders, sand, rocks, or other substances with varying consistencies and particulate sizes, these vacuums are engineered to meet the specific needs of different cleaning processes.
Traditionally, vacuum cleaners are often seen as canister models on wheels used by custodial staff. However, many industrial vacuum cleaners are much larger, sometimes occupying entire rooms or mounted on trucks. Operators are specially trained to handle these machines and manage potentially hazardous materials. When considering industrial vacuum cleaners, it鈥檚 crucial to account for the types of materials they are designed to handle, which can include heavy, bulky, hazardous, and toxic substances.
Truck-mounted industrial vacuum cleaners are designed for mobility, making them ideal for disaster sites and locations where materials like sludge, slurry, industrial waste, liquids, and sewage need to be removed. Despite their larger size compared to traditional industrial vacuum cleaners, they operate on the same principle: using a tank for collection and a pump to create negative pressure. The collected waste material is stored in the truck鈥檚 tank and then transported to a disposal site.
Explosion-proof industrial vacuum cleaners are engineered to safely handle flammable substances, dangerous solids, and hazardous liquids that could be ignited by sparks or friction. They are constructed from non-flammable materials and designed to minimize the risk of sparks from material friction or static electricity. These vacuums are equipped with features to ensure safe operation in environments where explosive atmospheres are a concern.
The construction of explosion-proof industrial vacuum cleaners involves careful consideration of static dissipation, electrical insulation, and chemical neutrality. Manufacturers select materials for the housing, inlets, casters, and nozzles to meet these requirements. These materials are chosen to ensure that static electricity is effectively managed, electrical components are well-insulated, and the equipment remains chemically neutral, reducing the risk of ignition in hazardous environments.
Central vacuum systems are integrated into the design and construction of a building. Powered by the building's electricity, they operate similarly to heating or air conditioning systems. These systems consist of a central unit connected to various rooms through a network of tubes, which can be installed in ceilings or walls.
The performance of a central vacuum system largely depends on its motor type. Brush motors, while useful, have limitations in their capacity for central vacuum systems. In contrast, centrifugal exhausts can provide powerful suction for multiple hose units simultaneously. Generally, centrifugal systems are the most powerful and robust, offering superior performance for larger or more demanding cleaning applications.
The collected waste in central vacuum systems is transported through a network of tubing to a central enclosure. This enclosure is equipped with filters, bags, and storage compartments to manage the debris. Central vacuum systems are designed to provide an efficient and integrated method for cleanup, tailored to the specific needs and layout of the building or structure where they are installed.
Each stationary vacuum system, similar to central systems, is customized to meet the specific demands of the industry it serves. These systems can be installed indoors or outdoors and are designed for ultra-heavy duty use. They are equipped to handle a range of materials including wet or dry heavy abrasive substances, fine powders, and granular particulates. Operating continuously, stationary vacuum systems feature various filtration mechanisms, such as shake-out designs or centrifugal filters, to efficiently manage and process debris.
Much like truck-mounted industrial vacuum cleaners, portable industrial vacuum cleaners provide the flexibility to be used in isolated locations, such as disaster sites, liquid spills, or construction areas, as well as in places that are difficult to access with conventional equipment. Portable industrial vacuums range from models that can be carried on the back of a worker to larger units mounted on wheels for easier mobility.
The central design parameter for portable industrial vacuum cleaners is ease of mobility. These units are designed and engineered to meet the specific needs of the industry and handle the materials being cleaned. Their design often focuses on balancing portability with the necessary capacity and power to effectively manage various types of debris and contaminants.
ESD industrial vacuum cleaners are designed specifically for the electronics market to clean, remove, and collect dust and debris from sensitive electronic components. They feature permanent dissipative and grounded rubber nozzles to prevent electrostatic discharge (ESD), which can damage delicate electronic systems. Unlike other industrial vacuum cleaners, ESD models are precision-engineered for applications involving sensitive electrical systems, such as circuit boards or electrical panels.
Air-powered industrial vacuums operate on compressed air and are used in hazardous environments where electricity is not available. They have no moving parts, making them suitable for handling both wet and dry materials. These vacuums are ideal for industries that need to comply with National Fire Protection Association (NFPA) and Occupational Safety and Health Administration (OSHA) regulations concerning the handling of toxic and harmful debris and waste materials.
The operation of an air-powered industrial vacuum cleaner involves a compressed air line connected to a Venturi box. This box contains a constriction in the airflow that creates the negative air pressure needed to draw in debris and waste materials through a vacuum hose inlet. For instance, the model from Vac-U-Max features a twin Venturi suction source, enhancing its efficiency and suction power.
One of the key distinguishing features of industrial vacuum cleaners is their motor type, which can be either single-phase or three-phase. Both motor types operate on the principle of creating a magnetic field. The main difference lies in the movement of this magnetic field: a single-phase motor produces a stationary magnetic field, while a three-phase motor generates a rotating magnetic field due to the 120掳 phase offset between each phase of the power supply. This rotating magnetic field in a three-phase motor contributes to greater efficiency and power for heavy-duty applications.
A single-phase motor generates an oscillating magnetic field that moves back and forth. This motor typically has zero starting torque, requiring the use of an additional phase to start the motor. In contrast, three-phase motors produce a rotating magnetic field, leading to higher power output and efficiency. Three-phase motors are generally more powerful and suitable for heavy-duty industrial applications compared to single-phase motors.
Continuous duty vacuum systems are engineered for extended operation, offering exceptional durability and high performance. These systems are highly efficient and designed to operate continuously or intermittently, depending on the application. They typically feature robust, long-lasting motors, with many being central systems that utilize centrifugal exhauster motors for optimal performance.
The range of continuous duty vacuums includes various types, such as high-efficiency portable vacuums and specialized process vacuums. Portable continuous duty vacuums typically offer airflow rates between 150 to 300 CFM (cubic feet per minute), while process vacuums generally provide airflow rates ranging from 50 to 200 CFM. Each type is designed to meet specific needs based on application requirements and operational efficiency.
Industrial vacuum cleaners offer an efficient and safe solution for cleaning spills, dust, dirt, and debris. They can complete tasks that would otherwise take several hours or even days using traditional methods in a fraction of the time. By reducing the need for manual labor, these vacuum cleaners help lower labor costs and contribute to safer, cleaner, and more organized work environments.
Traditionally, vacuum cleaners are associated with household use for cleaning carpets and floors. However, in manufacturing and industrial settings, industrial vacuum cleaners play a crucial role in maintaining safety and productivity. They are essential tools for managing and removing debris, dust, and hazardous materials, helping to ensure a safe and efficient work environment.
Farmers have faced the challenge of dust from grain and livestock feed cultivation for centuries. Although it may appear harmless, this dust is highly flammable and volatile, posing significant ignition risks. Explosion-proof industrial vacuums, whether air or electrically powered, are specifically designed to safely collect and remove this dust, mitigating the threat of fires and explosions in agricultural settings.
In the automotive industry, paints and coatings are essential for protecting products during production. When changing over paint types or finishing processes, it's crucial to manage the residue and overspray left in the paint booths. To effectively handle this, industrial vacuum cleaners equipped with highly efficient filtration systems are used to recover and manage these materials, ensuring a clean and safe environment while minimizing waste and contamination.
Similar to the automotive industry, the aviation industry also involves the extensive use of powders and paints in aircraft assembly. Aircraft production often takes place in clean rooms, which necessitate the use of HEPA filters and high-performance industrial vacuum cleaners to maintain stringent cleanliness standards. Additionally, before an aircraft is delivered, it undergoes a thorough cleaning process, frequently utilizing backpack portable industrial vacuum cleaners to ensure every surface is pristine and free of contaminants.
In the baking industry, flour is a key ingredient that is very fine and prone to spreading during processing. To address the issue of clogging, industrial vacuum cleaners used in this sector are specially designed to handle such materials. These vacuums often feature multi-stage filtration systems and filter shakers that keep the filters clean and clear, preventing blockages and ensuring efficient collection and removal of flour and other fine particles.
In the chemical industry, hazardous conditions frequently pose risks to workers due to exposure to toxic and harmful substances. Industrial vacuum cleaners play a crucial role in this sector by aiding in product recovery, maintenance, and packaging. They are also essential for safely transferring products and maintaining a clean and safe work environment. These vacuums are designed to handle and contain hazardous materials effectively, helping to prevent accidents and ensure compliance with safety regulations.
In the healthcare industry, maintaining exceptional cleanliness and contaminant-free environments is crucial for patient safety and staff well-being. Industrial vacuum cleaners equipped with HEPA filters are essential for achieving these high standards. They effectively clean and remove harmful dirt, bacteria, and other contaminants, minimizing the risk of infection. Unlike common vacuum cleaners, industrial models with HEPA filters prevent the spread of airborne infectious substances, ensuring a safer and more sterile environment.
The mining industry faces significant challenges with dust, which is flammable, volatile, and highly concentrated in enclosed environments. To address these issues, industrial vacuum cleaners with high static lift are essential. These vacuums are designed to effectively recover dust and manage liquids used in mining operations, ensuring a safer and cleaner working environment.
In plastics production, small round resin pellets are the primary ingredient. These pellets are melted and shaped into plastic products. During manufacturing, the pellets are fed into the production process through hoppers. Effective recovery of spilled pellets is crucial for cost efficiency and inventory management.
Specially designed industrial vacuums are employed to remove dust and waste in the plastics production industry. These vacuums are tailored to ensure smooth and uninterrupted production, and they can clean floors, machinery, or be integrated directly into the production processes.
The pharmaceutical industry deals with a diverse array of chemicals and powders during drug and medicine production. To ensure product safety and protect workers, strict controls and monitoring are in place. Like in healthcare facilities, HEPA-filtered industrial vacuum cleaners are essential for maintaining cleanliness and recovering residue, adhering to high standards of cleanliness and safety.
In the pharmaceutical industry, there is often confusion between dust collectors and industrial vacuum cleaners. While they might seem similar, their functions are quite different. A dust collector primarily uses high air flow to manage airborne dust, without relying on suction or water lift. It's designed to capture dust that's already airborne. In contrast, an industrial vacuum cleaner is equipped with superior air flow, suction, and water lift capabilities, making it effective at picking up a variety of debris, dust, and contaminants directly from surfaces. This makes industrial vacuums more versatile and effective for comprehensive cleanup in pharmaceutical settings.
In the beverage industry, spill recovery is crucial for maintaining safety and hygiene standards. Industrial vacuum cleaners with high static lift capabilities are specifically designed to handle a wide range of liquids, ensuring effective spill management. The industry's strict government regulations concerning safety, hygiene, and cleanliness have driven the need for highly efficient and reliable vacuum cleaners to manage spills and maintain a clean production environment.
In the beverage industry, industrial vacuum cleaners play a crucial role in various aspects of production. They are used for cleaning and transporting raw materials, controlling waste, and managing scraps and cutouts from packaging. One of their most important functions is preventing food contamination by removing microbes and other harmful substances, which is essential for maintaining the safety and quality of the final product.
Vacuum cleaners are engineered to remove dirt, dust, waste, and unwanted materials using negative pressure. The collected debris is directed into a bag or collection unit for later disposal. While the basic cleaning process is straightforward, industrial vacuum cleaners have become essential in production and manufacturing environments due to their efficiency and ability to handle large volumes of debris.
Industrial vacuum cleaners are efficient, fast, and reliable. Their usefulness extends beyond mere cleaning, contributing significantly to the creation of safe and secure workspaces by managing debris and maintaining cleanliness in various industrial environments.
Initially, the cost of purchasing a reliable and high-quality industrial vacuum cleaner may seem prohibitive. However, this investment is quickly justified by their long lifespan and exceptional reliability. Jobs that previously took hours can be completed in significantly less time, enhancing overall efficiency. Industrial vacuum cleaners can be customized and adapted to meet any type of cleaning conditions or requirements, regardless of the complexity of the task.
Cleaning is a time-consuming and labor-intensive task. Investing in an industrial vacuum cleaner significantly reduces the time and energy required for cleaning, leading to increased efficiency and effectiveness in maintaining a clean environment.
Every industry is increasingly concerned about their environmental footprint and continually seeks methods to reduce their impact. Industrial vacuum cleaners are equipped with mechanisms for trapping dirt, dust, mites, allergens, and other contaminants, contributing to the creation of a healthier, safer, and more environmentally friendly workplace.
For many years, companies relied on traditional cleaning methods such as mops, brooms, and inefficient vacuums. While these methods created a surface-level appearance of cleanliness, they often failed to remove harmful and toxic materials effectively. Mops and brooms, in particular, have not proven sufficient for thorough cleaning, often leaving behind dirt and dust residue.
A major investment for a company is its buildings and facilities. Protecting these assets is essential to a company's business plan and necessary for its continuity and longevity. Investing in an industrial vacuum cleaner system is a crucial step in asset protection and stability. With various designs available, industrial vacuum cleaners can be easily adapted to fit any cleaning situation or set of parameters.
High-quality industrial vacuum cleaners are equipped with HEPA filters to enhance the removal of air contaminants. Work environments are often polluted with allergens, bacteria, and microbial contaminants that are dispersed through the airflow system or are part of production operations. Efficient, safe, and reliable industrial vacuum cleaners are designed to trap and capture these harmful airborne pollutants and effectively remove them.
Industrial vacuum cleaners are categorized as heavy-duty industrial equipment, engineered for outstanding performance in critical sectors such as healthcare, pharmaceuticals, and food production. Their use across various industries has led to the development of stringent regulations concerning their design, structure, and application. Key agencies overseeing industrial vacuum cleaners include the Occupational Safety and Health Administration (OSHA), National Fire Protection Association (NFPA), ATEX, and Environmental Protection Agency (EPA).
The regulations established by these various agencies address the handling of potentially flammable, toxic, hazardous, and harmful substances by industrial vacuum cleaners. These regulations ensure that industrial vacuum cleaners are designed and operated in a manner that mitigates risks and enhances safety in environments where such substances are present.
OSHA, established in the 1970s as part of the United States Department of Labor, is a regulatory agency focused on ensuring the safety, health, and welfare of workers and their working conditions. The General Industry standard 29 CFR 1910 outlines criteria relevant to the cleaning industry, including the handling of hazardous substances.
Silica dust, found in materials like bricks, tiles, roof slate, concrete, glass, and ceramics, has become a significant concern due to its harmful effects and widespread use. The dangerous nature of silica dust necessitates effective control and removal from worksites, a task typically managed by industrial vacuums. In 2016, OSHA updated its regulations concerning the handling of silica dust and human exposure. The previous rules were deemed insufficiently stringent and required adjustment to address the increased use of materials that produce silica dust.
The NFPA (National Fire Protection Association) is an international organization focused on fire prevention, aiming to reduce death, economic loss, and injury caused by fire. NFPA standards 652 and 654 specifically address the design requirements for vacuum systems that handle flammable, combustible, or volatile particulate matter.
The EPA (Environmental Protection Agency) continually develops standards for filtration systems used in various equipment, including industrial vacuum cleaners. The recent implementation of the Renovation, Repair, and Painting (RRP) rule has increased the need for modifications to the filtration systems of industrial vacuum cleaners to ensure compliance and effectiveness.
The ATEX directives are European Union (EU) regulations concerning potentially explosive environments and substances. Industrial vacuum cleaners with ATEX certification are approved for use in areas where there is a risk of explosive atmospheres or the presence of combustible dust.
The ATEX directives outline the minimum health and safety requirements for equipment intended to handle potentially explosive substances. Industrial vacuum cleaners with ATEX certification provide an added layer of safety for such environments.
A central vacuum system is a cleaning mechanism that is built into a building for ease of use, access, and maintenance. Vacuum and pressure are created by a centrally located motor to remove dirt, dust, and debris...
Explosion-proof vacuums are vacuum systems that use compressed air, electricity, and cyclonic motion to prevent the ignition of gasses or vapors and operate at temperatures that will not ignite a possibly flammable atmosphere. Replacing motors with...
A HEPA vacuum cleaner is a vacuum cleaner that accepts high efficiency particulate air (HEPA) filters, is tightly sealed, and allows air to only pass through the HEPA filter. They are designed to capture particles of dust, dirt, and...
Vacuum cleaners use suction to collect dirt, dust, waste products from industrial processes, and other debris for disposal, recycling, or reuse. They are mainly used for building maintenance and cleaning of industrial space...
Air filters are devices used to remove airborne particles, pollutants, and microorganisms hazardous to health and the ecosystem. In industrial facilities, air filters preserve the quality of products and materials and protect critical equipment from damage...
A baghouse is a pollution control device that uses tubes, envelopes, or cartridges to remove, capture, and separate dirt, particulate matter, and dust from the air of a manufacturing or processing facility. The main components of a baghouse are the media or bags used to filter the particles from the air as it passes through the system...
A centrifugal blower is an air moving device that uses an impeller to pull air into a tube like structure and release it at a 90o angle. The impeller is a set of blades inside the blower that rotates at a high rate to pressurize and move air...
A dust collection system is a system that removes particulate contaminants from the air in production facilities, workshops, and industrial complexes. The system cleans air by forcing it through a series of airtight filters...
A HEPA filter is a high efficiency pleated air filter capable of capturing extremely small particulate matter down to particles that are the size of a micron (碌), or a micrometer, which is 1/1000th of a meter...
An industrial blower is a device that enhances the air flow in a workspace effectively and efficiently using an electric motor, impeller, and airfoils. The purpose and function of industrial blowers is to be a permanent addition to a workspace to increase airflow and...
An industrial fan is a highly efficient, heavy duty air flow device that is constructed from exceptionally durable materials and components to withstand stringent environments and operate longer to provide constant air flow and pressure. The strength of industrial fans is due to the materials used...
A jet dust collector is a suction filtration unit that pulls dust ladened air into a filtration system that collects particulate matter and releases clean air. The filters of jet dust collectors are cleaned by compressed air that uses...
During the Industrial Revolution, when companies began producing high volumes of industrial waste like fine dust, wood dust, and other particles, an American, in 1852, S.T. Jones, applied for the first dust collector patents, a single bag filter...