Business and Marketing Technology

Can Data Integration Enhance Your Business Efficiency?

In a world where analytics is fuelled by more data than ever before, it is often easy to lose track.  Data silos can make life very difficult for businesses to move forward. Piling up a variety of systems and data sources in differing formats and refreshes may seem unavoidable.

When it comes to business efficiency, poor data accessibility can be a common pain. However, effective data integration promises to help businesses to keep running smoothly and advancing further.

What is Data Integration?

Before we consider how better data integration can help businesses run from day to day, we need to look at what integration of data actually means.  Part of data management, data integration is about combining data from disparate sources whether internal or external data to transform into meaningful and valuable information.  Put simply, data integration produces a single, unified view of a company’s data that a business intelligence application can access to provide actionable insights based on the entirety of the organisation’s data assets, no matter the original source or format. 

Extract, Transform & Load (ETL) forms part of this process.  As the name implies, ETL works by extracting data from its host environment, transforming it into some standardised format, and then loading it into a destination system like a data mart or data warehouse for use by applications running on that system.  

Given that business analytics can cover hundreds of different variables, it can be challenging to balance everything at once.  Therefore, business efficiency takes an immediate hit. When you could spend time acting on analytics and results, you may be wasting resources pulling the data together.

Who Can Help with Data Integration?

There are a variety of different platforms designed to source and combine data from different avenues so data can be used to understand business performance.  The problem today is that businesses need access to information in real-time, which has implications for the IT teams in making data available and accessible to do this. Integration can not only help to improve business efficiency but can also help to fine-tune customer experiences.

Gartner’s 2019 Magic Quadrant Report for Data Integration tools give a good indication of where to start to select an appropriate data integration platform.  Two platforms that Inside Info works with extensively, Microsoft and Qlik, were both cited as Challengers in this space. While Microsoft’s Data Platform is also recognised by Gartner as a Leader in data management and business analytics on the whole.

A well-designed data integration solution, such as Microsoft’s SQL Server Integration Services (SSIS) or Microsoft Azure’s Data Factory in the cloud are good examples of a modern data integration platform. They can automate data integration and allow the creation of blended datasets without manual coding or tuning.  This provides connectivity between a wide variety of data sources. In fact, Azure Data Factory integrations data silos with a service built for all data integration needs and skill levels.  ETL and ELT processes can be constructed code-free within an intuitive visual environment, or there’s also the ability to write your own code.  

Benefits and Business Efficiency

It will likely already be obvious how data integration can benefit business efficiency.  However, to fully understand how it affects productivity and delivery long-term, we need to drill a little deeper.

Data silos can significantly impact customers.  If current data is not available on hand to help with urgent customer queries, you risk disappointment and worst still their business.  Historically, data integration has often been performed in an ad hoc manner, usually manually. This can be a time consuming, difficult and error-prone.  Inconsistencies in formatting, spelling mistakes, duplicates or naming conventions, often inhibit the reliability of data and the integration process. 

By integrating old, previously inaccessible data with newer information, we can better predict future events.  Businesses can struggle to make firm predictions as older data is unavailable. Integrating older information, with real-time access, allows firms to make quicker decisions.  These decisions are firmer, more confident, and more accurate, too.

The Future of Data Management

Data integration needs to be proactive to seize business moments.  Demand for data should be processed and the scale of events must match the speed at which the business operates. Many businesses fail to use analytics properly, or even make fatal errors, as a result of data siloing.  As a result, it is evident that consolidating and streamlining information is going to save time, effort and even revenue.

More information on data integration, key trends and the leading vendors are available in the full Gartner 2019 Data Integration Magic Quadrant report, which you can download here.  


Benefits of Industrial Filtration Systems

Industrial filtration systems remove unwanted particles from liquids or gases to prevent equipment damage or contamination. The perfect filtration system can help to reduce waste disposal expenses, cut downtime, and also rein in your maintenance costs. Also, an intelligent filtration choice will enhance product quality while protecting employees from hazardous materials.
Here are some benefits of filtration within the manufacturing or industrial sector.

Protecting Equipment

Industrial manufacturing involves the use of complex and often costly machinery. When particles are not effectively filtered out during the manufacturing process, they can easily damage the equipment.
These damages may result in complete system failures, which may even be more costly to the business. For instance, leftover or unwanted particles inside a pipe will erode the metal, causing malfunctions. With proper industrial filtration in place, you can steer away from expensive repairs and keep your machinery working efficiently.

Helps in Purification

The other notable benefit of filtration is that it is critical for keeping various things like chemicals, water, and pharmaceuticals pure, clean, and free of any contaminants. Filtration is necessary for producing drinking water as it helps to eliminate suspended particles like sand, sediment, gravel, and carbon.

Increases safety

A well-sized and efficient industrial filtration system can help avoid cross-contamination, environmental issues, and health hazards. It can create a safer and cleaner workplace for your employees.
The impact is reduced workplace injuries and employee sick days, which translates to improved productivity and job satisfaction. It also helps companies meet government safety standards.

Improves Efficiency

Proper filtration systems allow multiple industrial processes to flow efficiently and smoothly. Consider oil rigs and how they are managed. When the oil is extracted from the ground, debris and sand will contaminate the oil. Having filters can eliminate those particles from the source, thus saving effort and time during processing.

Considerations When Picking a Filtration System

  • What’s the reason for installing the filtration system? Is it for preventing exposure to dangerous materials or preventing abrasion and wear inside machinery?
  • Also consider factors like volume, flow, and whether your equipment can be switched off when maintaining the industrial filtration system.
  • Budget-wise, think of both installation costs and the potential lasting incremental expenses associated with maintenance, replacement of filters and future upgrades

Facility managers and owners should evaluate all options to find the best industrial filtration solution. That means asking for extensive information from their process experts and systems engineers, along with filter material roll manufacturers when assessing an upgrade or new installation.
Read Also:


How to Control Odour in Wastewater Treatment

Waste Water Treatment Plant (WWTP) used to be located at the outer edge of a town so that the municipality could treat the water at a safe distance while minimizing wastewater transportation or channelling costs. However, rapid urbanization and commercialization of land have meant that a lot of the land surrounding WWTPs has become prime real estate for residential blocks, high-rise apartments and office buildings due to their proximity and easy access to the town centre.
This encroachment of WWTPs has influenced investment into odour control solutions. Wastewater treatment facilities are now extremely sensitive to the odour released into the vicinity of the treatment plant and are putting significant efforts into eliminating foul smells. Odour Control has become a major cause of opposition and political debate over the continued operation of several wastewater treatment plants located near commercial and residential areas.

 Causes of Wastewater Odours

There are many factors that contribute to the formation and emission of foul smells from wastewater treatment plants such as the source or type of wastewater, methods of treatment, the structure of the WWTP and wastewater delivery methods. Nevertheless, the main factor contributing to the presence of foul odours at WWTPs is the formation of Hydrogen Sulphide (H2S) gas which has a characteristic pungent, rotten-egg smell.
Hydrogen Sulphide is formed when wastewater has a limited supply of oxygen circulating in it, effectively creating anaerobic conditions. These conditions are ideal for the growth of sulphur-reducing-bacteria (SRB) that thrive by extracting oxygen molecules from the abundant supply sulphate ions (SO4-) in the wastewater. This oxygen extraction results in the formation of H2S. Additionally, H2S has low solubility in wastewater thus easily gets released into the atmosphere. There are other compounds that contribute to the bad smells at the treatment plants but they are not as significant as H2S.

Wastewater Odour Control Measures

There are several technologies in use today to eliminate odour from wastewater treatment facilities and can be classified into two categories based on their mode of action. Vapour-Phase technologies target the point sources of the odour problem and treat the air released, while Liquid-Phase technologies treat the wastewater directly to prevent the release of odours into the atmosphere.

Vapour-Phase Odour Control Technologies

Vapour-Phase technologies work by treating the air expelled from the wastewater. The technology uses ventilation systems with negative pressure designed to isolate the air stream and direct it to the odour control systems for treatment. These systems are well designed to prevent fugitive emissions from getting into the atmosphere.

  1. Carbon Adsorption is the simplest method of odour control because it doesn’t use any chemicals or biological processes. In the adsorption process, the vapour is simply passed over a bed of carbon adsorbent and the molecules and odour-causing compounds adhere to the surface of the adsorbent. Although this method is very effective for H2S and sulphur-based compounds, it doesn’t work well on nitrogen-based compounds such as ammonia.
  2. Wet Air Scrubbing works by passing the vapour phase through an aqueous chemical solution. The chemical balance in the system is maintained automatically with set responses for a variety of loading conditions. Multi-stage scrubbers make it possible to deal with a wide range of contaminants because you can use different chemical solutions in each stage.


Liquid-Phase Technologies

Liquid-Phase systems tackle the odour-causing compounds while they are still in the wastewater, effectively preventing the release of foul odours into the atmosphere. This is achieved primarily by adding a chemical to the wastewater and is usually done into wastewater collection systems rather than at the treatment plant. By preventing the formation and release of H2S into the vapour, liquid-phase treatment controls effectively provide both odour and corrosion control.

  1. Iron salts are used to either oxidize or precipitate dissolved sulphide. The ferrous salts such as ferrous sulphate are good for precipitating sulphide as ferrous sulphide. This ferrous sulphide is then carried downstream and is dissociated during the aeration process of the wastewater treatment plant. The Iron salts are basically employed to prevent H2S formation and are not effective in treating other odorous compounds.
  2. Oxidation Method is the application of strong chemical oxidizing agents, such as Hydrogen Peroxide, to wastewater in order to trigger a chemical reaction with dissolved sulphide. This reaction normally results in the conversion of sulphide to sulphates or sulphur. Large amounts of the chemical agent are needed because they usually react with and oxidize many other non-odorous compounds and can be depleted in the process.



Many WWTPs have been successful in dealing with bad odour at the wastewater facilities effectively raising employee job satisfaction ratings as well as the quality of life in the vicinity of the plant. Other very effective odour control solutions include liquid redox technology, biocide process, biofiltration and anthraquinone.


How Centrifuges have Evolved in The Last 10 years

Centrifuges are one of the greatest inventions in the industrial sector. The history of centrifuges dates back to 1864 when Antonin Prandtl suggested the idea of using a dairy centrifuge to separate milk from cream. His brother Alexander implemented the idea with improvements to the original design. He successfully ran the first butterfat extraction machine in 1875. Over the years this technology has been employed in many devices. From the most basic items like washing machines to complex oil separation centrifuges, the technology is all around us. However, centrifuges have seen numerous developments and improvements over the last decade.

Increased capacity

Solid bowl centrifuges use the principle of sedimentation to separate components of a solution. The separation occurs due to the difference in densities in the solutions fed to the system. From the separation, both solid and liquids components are extracted. The solid accumulates in the bowl while the liquid drains into the outlet pipe. Although this system sounds simple, the efficiency of the centrifuge is limited by the capacity of the bowl. Older centrifuges had a low bowl capacity resulting in fast accumulation of sediments in the system. Fast accumulation meant frequent removal and cleaning which interrupted the separation process. Modern centrifuges have large capacities allowing for long hours of operation without cleaning.
The IC-45M is a high-quality centrifuge that has a solid bowl holding capacity of 3 litres. Since the IC-45M is a manual clean centrifuge it requires cleaning of the solids by scraping and removing by hand. The separation process has to stop and bowl removed for the cleaning. With the huge capacity of 3 litres, this interruption is not frequent. The large holding capacity also guarantees an efficient separation process. A special tool provided with the centrifuge is used to remove the high-speed bowl. An optional weight detection system also comes with modern centrifuges to alert the operator when the bowl is full and needs cleaning.

Automated cleaning system.

Modern centrifuges like the IC-45A run an automated bowl cleaning system. The result is an uninterrupted operation with automatic ejection of solids. Four load cells are installed in the system for weight detection following solid extraction. Once a particular threshold is reached the automatic removal of solids is activated. Lighter weighted solids may not have significant weight difference from the filtered liquid. This may not trigger the automatic clean function, therefore, a timer is installed to activate the system periodically. The automatic self-cleaning function is convenient and allows uninterrupted operation.

A sturdy build.

The rotation of a centrifuge is not free of friction. Therefore, corrosion of surfaces is one of the biggest problems in the system. Traditional centrifuges were constantly stopped for repairs or replacement of components. Modern centrifuges have a sturdy build that is guaranteed to last you. Lightweight stainless steel is the material of choice for most bowls. This makes removal of the bowl easy and offers safety against accidental damage. A heavy machined cast aluminium lid and bucket house the spinning bowl. For standard use, a powder coating is used on the housing.  An optional chemical resistant and FDA approved coatings are used for specific applications. Some centrifuges have nickel plating for protection against waste oils. The well-balanced steel bowl allows for efficient separation and minimal corrosion of surfaces.

A more efficient system

Over the years centrifuges have become more efficient and effective in the separation of contaminants than 1 micron in size. The processing rate of centrifuges has greatly improved with modern centrifuges having processing rates of up to 4800 litres. This efficiency is attributed to the design of modern centrifuges and their ability to generate higher G forces. Longer exposures to the gravitational forces greatly improve the separation of solids from liquids. This can be achieved by adjusting the supply rate to the centrifuge.

Additional features

Modern centrifuges come with numerous standard and optional fittings that are only unique to them. The supply pump comes with a VSD control and flow metering control. A B2B monitoring can also be put in place for fault alert. A vibration sensor is also installed in the system. The design combines four-point dampeners for vibration isolation. This helps keep everything in a balanced state. Acidic levels are assessed through a pH dosing system. A weight detection system is hooked to the alert mechanism of the centrifuge. With all the additional features in place, your centrifuge is guaranteed an efficient performance.
Although centrifuges are now more efficient and effective in separating solutions, the developments in this system of separation are far from over. The use of centrifuges extends to water waste management, coal treatment, polymer manufacture and oil manufacture. With increased use and application in different industries, there will always be a need for improvements. The evolution of centrifuges has only just begun.
Source: History of Industrial Centrifuges from the 1700s to Modern Day | Interfil


Why Many Companies Need Wastewater Filtration Solutions

What do you do with used water in your house? You might be one of those people who doesn’t give the subject much thought, so you simply let it flow down the drain. If you’re more conscious about it, you might hook up your washing machine to your toilets, so that used water from the wash can be used to flush. Or maybe you installed pipes guiding your kitchen drain to your garden, so dish water can be used to irrigate plants and flowers.
We have varying views towards environmental conservation. Some of us are mildly aware of the necessary measures, so we put our trash in the right recycling bins. They’re colour-coded, so it’s easy enough. Others go as far as composting in the backyard, and only buying tissue or notebooks that are manufactured from recycled materials.
Domestic recycling occurs on a small scale, at least at the individual level. It can have a bigger impact if it’s undertaken as a community initiative or school project, because that way, it’s implemented en-masse. In this sense, commercial measures for wastewater filtration can have far-reaching results. That said, industrial wastewater management is often pursued for practical rather than ideological reasons.

Environmental regulation

Industrial plants are often located far from residential areas, sometimes in regions set aside for factories and similar activities. There are lots of reasons for this. It’s a security measure, because business owners want to control traffic in an out of the factory. This helps them protect their property and their trade secrets. Other times, it’s to fence off customers from excess noise, smog, or toxins. All these factors are regulated by municipal governments.
In the same way a factory can’t make too much noise, they’re required to use responsible waste management methods. They can’t just dump poisonous chemicals into the ground, rivers, or sewers. Government inspectors frequently evaluate manufacturers’ waste to ensure they adhere to set standards of toxicity.

Reduce reuse recycle

Before dumping their used liquids or solids, the manufacturer has to remove a set amount if impurities to make it suitable for disposal in the public sewer system. This important because water treated in the sewers makes its way back into society. After being treated, it may pass into gardens and farms, or be released beneath the ocean where it re-joins the universal water cycle, eventually getting back to us.
Sewage chemicals can destroy and disinfect the bacteria and toxins in human waste and food waste, but it can’t dissolve or destroy industrial toxins, so these have to be extracted before the wastewater gets into the sewers. If not, those poisons will get back into our systems intact. Environmental regulations penalise businesses that don’t abide by toxin elimination standards. They can be fined or even lose their licenses.

Cost-saving measures

At the same time, managing wastewater and other forms of waste helps a manufacturer’s bottom line. Industries consume thousands of litres of water every day. This water has to be bought from municipal mains, or purchased from private sources. Some businesses have their own boreholes, or a system of tanks for harvesting rain water.
Depending on what the water was used for, it doesn’t have to be disposed after one use. Some of it can be repurposed for additional usage within the factory, saving money and resources. Modern devices in development can even harvest heat from wastewater, lowering your industrial utility bill.

Increased efficiency

Wastewater isn’t treated strictly for water conservation. Sometimes, conserving the solid by-product matters too. In food and beverage industries, this extracted solid can be repackaged as a different product and sold for profit. For example, vegetable starch can be resold as a food thickener or laundry agent, while fruit pulp can be sold as a dye ingredient, sweetening product, fertiliser, or animal feed.
Even when the separated solid waste isn’t re-used, efficient separation can save disposal costs. A solid waste cake occupies less space in a land fill. It also causes less rot and emits fewer harmful bacteria because they thrive in moisture, so they won’t reproduce or thrive in a dried out waste depository. On the other hand, if the waste cake is designated for incineration, its reduced bulk means it will burn more completely, release fewer emissions, and use far less fuel in the process.


List of Devices You Need to Build A Smart Home

The ‘smart home’ is now a popular topic among many homeowners and tech-savvy individuals, and for the right reasons. And if you are just starting to join the conversations, well it’s never too late to hop in and discover the buzz that comes with the technology. Simply put, the concept of smart home is linked to automation and control, whether in the form of entertainment, security of doing your everyday tasks at home. In fact, with an emerging industry for smart home, you can automate any part or aspect of your home depending on your needs and lifestyle.
So how do you experience a smart home, and how can you make that big shift from a traditional home to one that’s automated and smart? Well, it starts with the selection and use of popular smart devices that can automate some of the tasks at home, from security to entertainment. Here, we list down some of the popular smart devices that you can get to build a smart home, today.

How about smart doorbell for your home?

Smart things start as soon as you enter your living space. And it can be done by a smart doorbell, an internet-connected unit that notifies the mobile phone of the homeowner in case a guest arrives at the front door. There are a number of brands now competing for attention, but Nest Hello manages to out-smart the other contenders. As one of the best smart doorbells in the market, Nest Hello comes with an optional facial recognition feature, and integrates with Google Home speakers and Nest Cam IQ. And if you have invested into the Google smart home ecosystem, this smart doorbell is a great option.

Monitor who’s outside with a smart outdoor security camera

Even if you are inside your home you still want to to take full control of your surroundings, and discover who’s outside. To do this, you may need a smart outdoor security camera that can help you monitor the activities in a smart way. A popular option available for homeowners is Netgear Arlo Pro, a smart camera that allows you to monitor the activities indoor and outdoor using just one camera. With this security camera, you get to capture activities and store it on a cloud, which you can use for free for 7 days. Also, it comes with a rechargeable battery that when fully charged, can lasts for 6 months!

Control the light, create a scene with smart switches

Compared to your regular light switches, the smart switches are connected to a Wi-Fi network, and allows you to control the lights even if you are not at home. A popular option available for customers right now is Lutron Caseta In-Wall Wireless Smart Lighting Kit which works best if you have Alexa or Apple’s Home Kit. This smart switch is easy to use, and comes with scene management, geo-fencing and a security mode that will allow you to show that people are at home even if you are not.

Stream music and ask for questions along the way with smart speakers

For many individuals, the traditional speakers are no longer relevant in the age of Artificial Intelligence. Thanks to Google Assistant and Alexa from Amazon, speakers have become smart and well-rounded assistants as well. Aside from streaming sounds, these smart speakers are known to perform number of tasks, connect to the internet and work with streaming services like Pandora, YouTube and Spotify. Two leading AIs are competing for consumer attention- Google Assistant and Alexa. For those looking for an entry-level yet competent desktop speaker, then the Google Home Mini is recommended. For a full-featured smart speaker, the ones with Alexa like the 2017 version of Amazon Echo is a smart choice.

Live in color with smart bulbs

Bulbs are reliable sources of illumination in different parts of the house. But if you think that bulbs are still boring, well think again. Today, smart homes are known fitted with smart bulbs which have the capability to change its color to suit your needs, lifestyle and personal wants. The great thing about these smart bulbs is that they are versatile and can perform a number of tasks- they dim, can be controlled anywhere and can change colors. Lifx Mini is a popular smart bulb available in the market which is loaded with colors and features.
This is just a shortlist of the top smart devices that you can add to your home. At the end of the day, the choice of smart devices for your smart home will depend on your lifestyle and priorities. Are you the type of person who prioritizes security, or you prefer to put a premium on your entertainment requirements? The choice of smart devices eventually depends on how you answer the question.


Does Samsung Kill Galaxy S7 Edge

Samsung Galaxy S7 Edge is one of the best smartphone I have ever used. The performance and battery life of this phone made it better than its previous Galaxy S series phones.
Last year, one of my friend bought a Samsung Galaxy S8+. When I compared S7 edge with S8+, It seemed S7 edge was better than S8+. The camera of S8+ may be better than S7 edge but S7 edge is outperformed S8+ based on performance.
Now it seems Samsung is trying to kill this model as it has already released S8, S8+, Note 8, S9 and S9+. Official website of Samsung Australia is no longer selling this model. Few retailers are selling this model while others have already stopped selling this model. For example, S7 edge is not available on Harvey Norman  official website though they are still selling S7 model. On the other hand, JB Hi Fi has recently released a ‘Red Hot’ deal for S7 edge. Other big retailers, like Binglee, Good Guys, Office Work etc have already taken off S7 edge from there own websites. It indicates that the era of Samsung Galaxy S7 edge will end very soon.
Moreover, Samsung delayed to release Oreo update for Samsung Galaxy S7 and S7 edge. This is another sign that this model does not have to much importance for Samsung.


Uses of Centrifugal Blowers and Exhausters

The words ‘blower’ and ‘exhauster’ are often used interchange-ably, but they are slightly different. Blowers usually produce higher pressure than exhausters, so they’re used where more energy output is required. Blowers and exhausters have a variety of functions, such as running the heating and cooling systems in HVAC equipment. Here are a few more uses.

Dewatering construction and mining sites

Sludge dewatering systems are an essential part of any construction operation. Sometimes, while excavating the foundation of a building, the water table is exposed, releasing massive amounts of water. Other times, water is deliberately poured onto the site to cure the concrete base of the foundation. This wastewater can’t just be released into the sewers, since it contains sand, soil, silt, mineral salts, and construction materials that could clog the system.
The wastewater is therefore passed through a sludge dewatering system to separate the solids into a cake and make the water safe for re-use. Blowers and exhausters are used to create a vacuum beneath the filtration membrane, pulling down the water and leaving silt and substrate on the surface. Blowers are also used to dry the solid waste into a disposable cake. The same process is used to filter wastewater after rinsing metal ore and rock quarry products.

Intense ventilation

There are lots of different situations where the movement of air is crucial. We have already mentioned heat distribution in domestic and commercial air conditioning systems. Exhausters and blowers can be used manually or they can be automated in the form of a thermostat. External ventilation is a common application as well.
Examples of the use of blowers and exhausters outdoors includes the reduction of air pollution at landfills. Smelly, potentially toxic emissions are sucked out and disposed in a safer way. In underground mines, coal shafts, and quarries, blowers are used to extract methane and increase oxygen levels. It’s an essential part of mining and prevents miners from suffocating. Exhausters are equally helpful for extracting vapour from soil deposits.

Food and beverage applications

Blowers and exhausters are a key component of filtration systems in the food and beverage industries. Spinning centrifugal filters are used to separate edible wastewater filled with items like fruit pulp or vegetable starch. The equipment is utilised in canning factories, wineries, and snack packers. Potato factories apply exhausters and blowers in the early stages of production when they wash, peel, and slice, and rinse potatoes.
Blowers can also be used in the fermentation stage of alcohol production, to dry out the barley, hops, and other grains as they are extracted from the spirits and beer. Centrifuges divide the liquid from the floating solids. Blowers are sometimes applied to the top of a centrifugal vat, to blow the surface foam and debris into a dedicated chamber where it can be further dried using an exhauster and a filtration media.

Metal processing

From cooling heated metal and filtering coolant fluid to drying sheets of powder coated spikes, roofs, or construction panels, blowers and exhausters are involved. Roofing products like Zincalume and Colorbond, as well as galvanised balustrades and fencing materials are all treated with multiple layers of film. From the primer that coats the surface to the ultra violet protectant, each stage must be applied, baked on high heat, and then dried completely before another coat is applied.

Household appliances

Blowers and exhausters dry the layers more evenly than air or sun-drying. The controlled action of an exhauster or blower also gives a well-timed effect that prevents the coating from scratching or drying. On a much smaller scale, blowers can be used to clean out the components of computers, heaters, or even car interiors.
Centrifugal technology is used in unlikely areas as well. Blenders, vacuum cleaners, and hand mixers all use centrifuges to spin their blades. They often have tiny fans inside them to cool down the overheating parts as well, and while they’re not industrial blowers, they’re miniatures based on the same technology, so technically, they’re in the same family.
Blowers and centrifugal exhausters are two commercial devices are often taken for granted, but as we can see, there’s a lot to be said for blowing hot (and cold) air, and there’s so much that can’t be done without these massive powerhouse fans.