Top Software Engineering Trends That Will Prevail in 2022

Top Software Engineering
With the emergence of new technologies and a greater emphasis on customer centricity, businesses are rapidly shifting to intelligent software engineering services to drive innovation across products and services and provide real-life, superior user experiences. Future-ready organizations use next-generation software engineering services wisely to align development requirements with business objectives, accelerate the software lifecycle (from pre-maturity to completion), and optimize software performance. Innovative software engineering solutions can help organizations launch dependable, scalable, and high-quality apps faster, revamp their business models, and build strong and secure IT infrastructures - all while capitalizing on new growth opportunities.


Modernization: Customer Centric Apps

According to Gartner, by 2022, more than 75% of global organizations will be running containerized applications in production. A container is the entire run-time environment bundled into a single package, including applications, system libraries, configuration files, settings, and other binaries. Containers enable faster development, testing, deployment, and re-engineering of apps across multiple environments, including local laptops, on-premise data centers, and cloud platforms.


A Power Up: A Creative Future with Generative AI

A new disruptive technology, generative AI, enables organizations to create artifacts that previously required human expertise, allowing for breakthrough innovation in the fields of content, visual arts, design, and other creative activities. In the near future, the technology is expected to revolutionize the field of software engineering.


No Code Law: Democratization of Software

No code-low code application development platforms will continue to gain traction in organizations. These platforms enable citizen developers – non-technical business users in organizations – to create compelling apps in a more efficient and convenient manner.


Rise in Event-Driven Architecture

When an event is detected, it is routed through event channels from event producer to event consumer. This allows the services to be decoupled, allowing them to be acted on, scaled, and deployed in a seamless and independent manner. Intelligent software engineering services can be used to launch new products and services in new industries and fields. At Innover, we provide premier software engineering services that assist clients in developing proven, custom applications that customers want, reinventing their core capabilities, and delivering cutting-edge industrial solutions with speed and precision.

Spotlight

Additive Manufacturing Solutions

Additive Manufacturing Solutions (AMS) is a Michigan Corporation established in January 2014 with offices in Pinckney, Michigan, convenient to the Ann Arbor business and educational communities. If you would like to validate a design concept utilizing 3D printing (Additive Manufacturing) AMS can be of service.

OTHER ARTICLES
Engineering Tech

Why a Digital Twin Is the Best Way to Start a Building Project

Article | July 14, 2022

A digital twin is much more than just a 3D model of a building. It contains detailed information of all equipment and components, including their physical properties and cost. The model can also reflect the exact state of building elements, showing issues like mechanical wear. Digital twins can also be used as simulation tools, to analyze how a building would behave under different conditions.

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Engineering Tech

The Semiconductor Chip Shortage

Article | August 25, 2021

640K Ought To Be Enough for Anybody That infamous statement—whether Bill Gates said it or not, goes to show the change in computing and the demands on the semiconductor industry over the last 40 years. At the beginning of the ‘70s, there was no expectation that the personal computer could become an affordable item for the man in the street. By 1979, however, Atari had released the 400 and 800 series of home computers. Three years later, the Commodore 64 made its debut, featuring 64KB of RAM and using an 8-bit CPU. In 1977 Steve Wozniak designed the Apple II, an 8-bit home computer. Launched at the 1977 West Coast Computer Faire, it was aimed at the home consumer market rather than the business market. August 12 1981: The IBM PC It could be argued that the first non-Apple PC, as we've come to know it, was the IBM 5150 personal computer. Its success spurred the production of IBM clones, or IBM PC compatible computers, with Columbia Data Products (CDP) producing the first in June 1982. A Case of History Repeating Itself? In the early ‘80s, anticipating the demand for PC’s to continue, memory chip manufacturers ramped up the production of RAM. But by September 1985, the market had stagnated, and a DRAM chip could be bought for $2.95. Demand for computers had slumped, and this low price reflected industry slowdown and extreme overproduction. Roll On To 1988 and the Price of Computer Chips Rocketed With a glut of existing RAM chips in the marketplace, manufacturers were cautious of the overproduction of 256-kilobit DRAM chips and converted their factories for 1-megabit chips. This shows that chip producers drastically misread the market. 1-megabit chips took significantly longer to manufacture, and so before too long, there was a shortage of RAM, causing prices to increase. The situation began to improve by the next year. Since then, although there have been years when supply was affected, it has been nowhere as catastrophic as now. The Current Semiconductor Chip Crisis We are facing an unprecedented shortage of semiconductor chips which is affecting worldwide markets. COVID-19 undoubtedly had a massive influence on this, but the demand for microchips was already soaring. 2019 COVID-19 Appears Although in November of 2019, a person displayed the first detectable case of COVID-19 in China, there was little else to warn of what was about to come. In the following months, as cases increased, so did hospital admissions. With the horror of widespread deaths, we saw countries bringing in protective measures and restrictions. These became increasingly severe and ranged from social distancing to working from home. This had a direct effect on the industry, seeing output slowed or temporarily ceased. 2020 Onwards In February of 2020, the indirect effects of the pandemic began to bite. Companies closed offices or limited the number of onsite staff. Employees were also encouraged to work offsite where possible. Other employers were forced to furlough employees. For some, the concept of working from the home kitchen table became a daily reality. This was seen as essential to ensure that services were maintained, albeit at a reduced capacity. For factory-based and hospitality industries, the impact was more dramatic. Company Employees Working From Home The decision by many companies to encourage staff to work from home was a direct result of COVID-19 and the resulting Government restrictions, but this, in turn, caused an indirect effect on the semiconductor shortage. In some cases, employees might have had existing company laptops issued to them for use in the workplace. In other cases, the use of their personally-owned device might have been sanctioned for company work. But in other circumstances, the company would either pay the employee to upgrade their laptop or provide a new company laptop with the necessary application and security software installed. This added to the general increased demand for computers that had computer manufacturers struggling to procure chips. Furloughed Employees Many furloughed employees suddenly finding themselves trapped at home with limited opportunities (if any) for socializing turned to or spent more time on gaming. This fuelled an interest in the latest products on the market and a keen appetite for products about to be launched. In turn, manufacturers clamored for more chips. Home Schooling Schools and colleges rose to the challenge of providing continuing education for their pupils and turned to online teaching when the school buildings were closed. Children were being home-schooled by parents and following online lessons. But it was essential that the children had the necessary resources. The basic requirements were a laptop with a webcam and a reliable internet connection. Subsequently, laptop sales increased dramatically. Who Is Taking The Hit? A simple answer is— any industry whose products depend on a high level of semiconductor chips, but in particular, the main players feeling the pain are the automotive and consumer electronics markets. The Auto Industry Automotive Companies Fall To the Back of the Semiconductor Chip Queue As COVID-19 began to take a grip, and with falling demand for vehicles, auto manufacturers either closed sites temporarily or reduced operations. Subsequently, they scaled down backorders from semiconductor suppliers. Meanwhile, the consumer electronics market was thriving and crying out to suppliers for more semiconductor chips. Later, when manufacturing was resumed, auto manufactures found themselves at the back of the queue. What Chips Are Used In Motor Vehicles? There are various types of chips used by auto manufacturers in their vehicles, ranging from commodity chips to microprocessors. According to Statista, “Infineon, NXP, and Renesas were the leading automotive semiconductor manufacturers worldwide in 2020. Infineon's market share was estimated at around 13.2 percent. The total market in 2020 was sized at around 35 billion U.S. dollars.” The Domestic Market (Consumer Electronics) Broadly speaking, this sector covers anything that falls into the entertainment, communications, and recreation categories. Although visits to high street stores to make purchases proved difficult, if not impossible during lockdown periods, online sales soared. But this boom has caused manufacturers a headache, as launches of new products have had to be delayed and fulfilment of the demand for existing models could not be met due to the chip shortage. Other Contributory Factors to the Crisis Although COVID-19 disrupted chip manufacture by causing foundry shutdowns and the halting of production, it wasn’t the only factor. An already beleaguered market was battered by other factors compounding the chip shortage crisis. Drought in Taiwan Water, a major necessity for semiconductors production, has been in short supply due to the worst drought in 56 years. Suez Canal Blockage In March 2021, the 400-metre-long (1,300ft) container ship ‘Ever Given’ ran aground in the Suez Canal and blocked the channel for six days, further impacting distribution and supply. Factory Fire Japanese chipmaker Renesas Electronics Corp. the world's third-largest supplier of automotive chips suffered a fire at its factory. Severe Weather Conditions in Texas In February Samsung, NXP, and Infineon chip fabs shut down in Texas amid record storm. Why Not Just Produce More Chips? While attempting to address the global chip shortage as expeditiously as possible, semiconductor manufacturers cannot afford to make a knee-jerk reaction. If fabrication plants are at maximum capacity or are only structured to make one type of chip, why not build more fabs? Semiconductor wafer fabs are hugely expensive to build. It takes considerable time to construct a new fab, with some as large as small cities. These fabrication plants, also known as foundries, require highly controlled environments where temperature, humidity and static electricity are controlled, and dust-free environments are guaranteed. As an immediate response, building new fabs is not a practical solution to the problem. Long term strategies will have to be put in place as the whole situation is addressed. When Will The Global Chip Shortage End? There are differing views being expressed on this tricky question. Some are optimistic, considering that the worst of the situation is over. Others provide a gloomier outlook, warning that we could be experiencing shortages well into another two years. Crisis management expert Edward Segal writing in Forbes: “The semiconductor chip crisis that hit companies around the world shows no signs of ending any time soon and will continue to impact the supply chains for many industries. Indeed, some organizations have yet to fully recover from the impact of the blockage of the Suez Canal last March on their ability to send and receive essential materials, parts and supplies.” Are There Any Lessons To Be Learned? A cynical reply might be—expect the unexpected. Of course, it is impossible to predict and plan for every possible eventuality. Changing market trends should be anticipated, whereas something as unforeseen as a global pandemic cannot. Manufacturers, however, should seriously take a look at their contingency plans. It seems that far and above the other problems of the chip crisis, the biggest headache within the semiconductor industry is the supply chains. Distribution Networks Writing in an article for ZDNet, Daphne Leprince-Ringuet: “The semiconductor supply chain is flawed, and it's going to take a long time until things get better, despite the combined efforts of industry and regulators.” Supply chains are the highways of trade upon which product delivery depends. But the semiconductor supply chain is hugely complex and is spread across several countries. Admittedly, it is essential to create more fabs over the following years. Still, it is critical to maintain a watchful eye on supply chain policies to ensure future semiconductor chip demand fulfilment. Just-In-Time (JIT) Model Considered as an effective approach by some automotive manufacturers as an efficient method of business management in times of plenty. It becomes counterproductive in times of shortage when they will face long chip manufacture lead times. Chip manufacturers are advocating a greater knowledge of their customers’ production maps, stating that even a two quarter indication is insufficient for planning. Think Outside The Box Be open to some lateral thinking. Recycling could be an interim response to chip shortage. All Of A Sudden Vintage Equipment Is A Hot Commodity Steven Zhou writing in Forbes, reports that old (obsolete) fabs could be suitable for the production of some current 'smart' devices. While the creation of extra fabs can take over two years and the building of the manufacturing equipment up to eighteen months, repurposing old equipment could be a source of additional capacity. Reliance On Asia The current crisis has brought about an awareness of the inadvisability of an ongoing reliance on Asian fabs for the supply of semiconductor chips for U.S. and European markets. The Future According to the Semiconductor Industry Association (SIA) in a publication Strengthening The Global Semiconductor Supply Chain In An Uncertain Era “Over the next ten years, the industry will need to invest about $3 trillion in R&D and capital expenditure globally across the value chain in order to meet the increasing demand for semiconductors.” Moore’s Law Is Not Dead Moore's law is the premise first expressed in 1965 by Gordon E. Moore, the co-founder of Intel, that the number of transistors on a microchip doubles every two years, though the cost of computers is halved. Or put another way—that we can expect to see larger-scale integration with more circuitry packed into chips for the same form factor. If this proves true, manufacturers will take advantage of these cheaper and more advanced chips to develop a new generation of products that consumers will be only too eager to buy.

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Engineering Tech

Zero-Energy Buildings: An Engineering Solution for Ecosystem

Article | July 20, 2022

Most buildings, whether residential, commercial, or industrial, consume a significant amount of energy over their lifetime, whether for lighting, heating, ventilation, or plugged-in devices. Buildings consume approximately 40% of global energy, 25% of global water, 40% of global resources, and emit approximately one-third of global greenhouse gases. The energy required to power these structures has risen precipitously in recent decades, putting an increasing strain on national power grids. This has increased the pressure to generate power by burning fossil fuels, contributing to the current climate change. This lethal cause and effect has compelled many engineers and policymakers to consider how we can reduce energy consumption in the buildings we build. What is a Zero-Energy Building? A zero-energy building (ZEB) is one in which the total energy used over the course of a year is equal to the amount of renewable energy produced - in other words, it produces enough energy to meet its own annual requirements. This means it does not require energy from the power grid, lowering greenhouse gas emissions. In addition to mortgage or bank repayments, utility bills are one of the most expensive running costs for these homes, offices, and manufacturing plants. So there are financial as well as environmental reasons for having ZEBs. The scope and approach of these terms vary, but the fundamental goal of reducing energy usage, improving building energy performance, and lowering greenhouse gas emissions applies to all definitions. Components of A Zero-Energy Building: A ZEB has two main components: reducing the building's energy consumption and producing renewable energy for on-site use. The first key element (lowering the total amount of energy used in a building) can be achieved through the use of energy-efficient lighting systems, insulation, better water management, improved ventilation systems, and smart meters. Even changing occupant behavior can have an impact on a building's energy efficiency. The second component (on-site generation of renewable energy) could include installing solar panels, small wind turbines, or micro combined heat and power systems to meet a building's electricity, heating, or cooling needs. Any excess energy generated by the building can be transferred to the national grid, allowing the building's owners to profit from their own thriftiness. Zero energy cities are an engineered extension of zero energy buildings. As more buildings become energy self-sufficient, communities and cities may become zero energy. This means that the total energy consumed by a city's infrastructure will be equal to the amount of renewable energy generated. Engineering solutions that create zero-energy buildings, whether residential, commercial, or industrial, are the first steps toward achieving zero energy cities - a transition that will be critical in slowing rampant climate change and that we must now accelerate.

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Engineering Tech

Evolving how strategic infrastructure projects secure planning approval in the UK

Article | July 20, 2021

The Ministry of Housing, Communities and Local Government has recently launched an operational review of the Nationally Significant Infrastructure Projects (NSIP) regime. This regime, established in 2008, was put in place to bypass local planning approval for projects that had a predominately national rather than a local impact. Over the last few years, the regime has taken a significant battering with ‘development consent’ (the granting of planning approval) for major infrastructure programmes being brought before court due to the corresponding National Policy Statement (used to determine if a project is in line with government ambition) being out of date with latest government policy. The most notable example being a third runway at Heathrow. This highlights that something is wrong with turning strategic policy intent into decisions on granting development consent.

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Spotlight

Additive Manufacturing Solutions

Additive Manufacturing Solutions (AMS) is a Michigan Corporation established in January 2014 with offices in Pinckney, Michigan, convenient to the Ann Arbor business and educational communities. If you would like to validate a design concept utilizing 3D printing (Additive Manufacturing) AMS can be of service.

Related News

Engineering Tech, Construction

Comfort Systems USA Announces Acquisition

Business Wire | February 01, 2024

Comfort Systems USA, Inc. today announced that it has closed its previously announced transaction to acquire Summit Industrial Construction, LLC (“Summit”) headquartered in Houston, Texas. As previously disclosed, Summit is a specialty industrial mechanical contractor offering engineering, design-assist and turnkey, direct hire construction services of modular systems serving the advanced technology, power, and industrial sectors. Summit’s capabilities encompass a wide range of modular and site-based construction, including process piping, equipment setting, large pipe rack trestles, and related steel erection and specialty concrete work. Summit is a trusted supplier to some of the world’s largest advanced technology, power and industrial companies and is currently deployed on several major chip fabrication projects. Initially, Summit is expected to contribute annualized revenues of approximately $375 million to $400 million, and earnings before interest, taxes, depreciation, and amortization of $35 million to $40 million. In light of the amortization expense, Summit is expected to make a neutral to slightly accretive contribution to earnings per share in 2024 and 2025. Brian Lane, Comfort Systems USA’s Chief Executive Officer, commented, “We are delighted to announce the closing of our agreement to acquire Summit, an extremely capable provider of modular and other complex mechanical services. Summit brings a stellar reputation as a modular technology leader in growing end markets, including multiple ongoing and large semiconductor projects. We are happy to welcome Summit’s wonderful leadership team and excellent production and craft workers across many states, and we are confident Summit will continue to innovate and grow as a part of our network of world-class contracting companies. We are grateful that Summit has chosen to become part of Comfort Systems USA.”

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Engineering Tech, Construction

PirTano Construction acquires Powerlink Electric

PR Newswire | January 25, 2024

PirTano Construction Company, Inc. ("PirTano"), a leading Midwest-based infrastructure and utility services-focused underground construction company operating in the communications and sewer & water sectors, is pleased to announce its acquisition of Powerlink Electric ("Powerlink"). The transaction closed on November 17, 2023. Mike Piraino, President of PirTano, said, "The acquisition of Powerlink will operate as a new electrical division, and brings additional service offerings and bench strength of employees as we look forward to continuing to support our customers while capitalizing on additional opportunities." Founded in 2006 by Doug Pantle and Steve Lipinski, Powerlink Electric ("Powerlink"), is a full-service electrical and telecommunications contractor based in Vernon Hills, Illinois with an outstanding reputation in its regional marketplace and is well known for the reliability and quality of its service. Powerlink primarily focuses on commercial and industrial projects and operates in Northeastern Illinois and surrounding areas. Powerlink will continue to operate under the current leadership as a wholly owned subsidiary of PirTano. Rising Point Capital ("RPC"), commented on the transaction, "Doug and Steve have built a tremendous reputation in its marketplace. We are very excited to partner with them to help accelerate their growth and with leading a new division at PirTano."Generational Equity, a leading mergers and acquisitions advisor for privately held businesses, served as the exclusive advisor to Powerlink. Generational Equity Executive Managing Director of M&A – Central Region, Michael Goss, Stephen Dinehart, a Generational Group Authorized Affiliate, with support from Vice President, M&A, Lance Thomasson successfully closed the deal.

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Design, Mechanical and Motion Systems, Engineering Tech

SPX FLOW Launches Universal 2 ND Pump Series Designed Uniquely for Industrial Market

PR Newswire | January 29, 2024

SPX FLOW, has released the Universal® 2 ND Positive Displacement Pump (U2 ND) Series designed with industrial users in mind. The pumps offer the quality and durability the Waukesha Cherry-Burrell brand is known for while optimizing cost and suitability for the industrial market. The U2 ND series significantly expands the WCB pump range, aimed at enhancing reliability and performance across industrial applications while outperforming other pump styles, such as industrial lobe, gear or progressive cavity pumps.The design features improvements uniquely suited for industrial applications, including: Total cost of ownership: The pumps ensure a long running life, given their robust construction materials and designs tailored for each application. Because of its high volumetric efficiency, the pumps can be used to dose fluids, eliminating the need for an additional metering pump.  Efficiency: The U2 ND pump reduces slip, which occurs when fluids move backward from the liquid flow due to internal clearances. Lower slip means more efficiency, reducing the need for higher horsepower motors. Also, the series can process fluids over longer spans due to its high-pressure capability, which reduces the need for multiple pumps in these applications. Reliability: WCB is a proven and trusted global brand dating back to the 1880s. The pumps are made with durable, corrosive-resistant materials compatible with industrial environments. A robust design, equipped with industrial flanges or sanitary fittings, ensures manufacturers can choose the configuration to meet their needs.  Additionally, an extensive sales channel and domestic manufacturing footprint support this pump series, enabling quick deliveries on standardized parts across the entire Universal pump product line. The U2 ND series is complemented by the Universal Industrial 5000 series, which is tailored for users who require OEM (Original Equipment Manufacturer) seals for their industrial pumping operations. Julien Bassett, Pumps Global Product Manager: "Waukesha Cherry-Burrell has extensive experience offering pumps to customers built with their needs in mind. We wanted to expand our offerings to provide quality and durability of the SPX FLOW brand while catering to the unique needs of industrial manufacturers and their applications."

Read More

Engineering Tech, Construction

Comfort Systems USA Announces Acquisition

Business Wire | February 01, 2024

Comfort Systems USA, Inc. today announced that it has closed its previously announced transaction to acquire Summit Industrial Construction, LLC (“Summit”) headquartered in Houston, Texas. As previously disclosed, Summit is a specialty industrial mechanical contractor offering engineering, design-assist and turnkey, direct hire construction services of modular systems serving the advanced technology, power, and industrial sectors. Summit’s capabilities encompass a wide range of modular and site-based construction, including process piping, equipment setting, large pipe rack trestles, and related steel erection and specialty concrete work. Summit is a trusted supplier to some of the world’s largest advanced technology, power and industrial companies and is currently deployed on several major chip fabrication projects. Initially, Summit is expected to contribute annualized revenues of approximately $375 million to $400 million, and earnings before interest, taxes, depreciation, and amortization of $35 million to $40 million. In light of the amortization expense, Summit is expected to make a neutral to slightly accretive contribution to earnings per share in 2024 and 2025. Brian Lane, Comfort Systems USA’s Chief Executive Officer, commented, “We are delighted to announce the closing of our agreement to acquire Summit, an extremely capable provider of modular and other complex mechanical services. Summit brings a stellar reputation as a modular technology leader in growing end markets, including multiple ongoing and large semiconductor projects. We are happy to welcome Summit’s wonderful leadership team and excellent production and craft workers across many states, and we are confident Summit will continue to innovate and grow as a part of our network of world-class contracting companies. We are grateful that Summit has chosen to become part of Comfort Systems USA.”

Read More

Engineering Tech, Construction

PirTano Construction acquires Powerlink Electric

PR Newswire | January 25, 2024

PirTano Construction Company, Inc. ("PirTano"), a leading Midwest-based infrastructure and utility services-focused underground construction company operating in the communications and sewer & water sectors, is pleased to announce its acquisition of Powerlink Electric ("Powerlink"). The transaction closed on November 17, 2023. Mike Piraino, President of PirTano, said, "The acquisition of Powerlink will operate as a new electrical division, and brings additional service offerings and bench strength of employees as we look forward to continuing to support our customers while capitalizing on additional opportunities." Founded in 2006 by Doug Pantle and Steve Lipinski, Powerlink Electric ("Powerlink"), is a full-service electrical and telecommunications contractor based in Vernon Hills, Illinois with an outstanding reputation in its regional marketplace and is well known for the reliability and quality of its service. Powerlink primarily focuses on commercial and industrial projects and operates in Northeastern Illinois and surrounding areas. Powerlink will continue to operate under the current leadership as a wholly owned subsidiary of PirTano. Rising Point Capital ("RPC"), commented on the transaction, "Doug and Steve have built a tremendous reputation in its marketplace. We are very excited to partner with them to help accelerate their growth and with leading a new division at PirTano."Generational Equity, a leading mergers and acquisitions advisor for privately held businesses, served as the exclusive advisor to Powerlink. Generational Equity Executive Managing Director of M&A – Central Region, Michael Goss, Stephen Dinehart, a Generational Group Authorized Affiliate, with support from Vice President, M&A, Lance Thomasson successfully closed the deal.

Read More

Design, Mechanical and Motion Systems, Engineering Tech

SPX FLOW Launches Universal 2 ND Pump Series Designed Uniquely for Industrial Market

PR Newswire | January 29, 2024

SPX FLOW, has released the Universal® 2 ND Positive Displacement Pump (U2 ND) Series designed with industrial users in mind. The pumps offer the quality and durability the Waukesha Cherry-Burrell brand is known for while optimizing cost and suitability for the industrial market. The U2 ND series significantly expands the WCB pump range, aimed at enhancing reliability and performance across industrial applications while outperforming other pump styles, such as industrial lobe, gear or progressive cavity pumps.The design features improvements uniquely suited for industrial applications, including: Total cost of ownership: The pumps ensure a long running life, given their robust construction materials and designs tailored for each application. Because of its high volumetric efficiency, the pumps can be used to dose fluids, eliminating the need for an additional metering pump.  Efficiency: The U2 ND pump reduces slip, which occurs when fluids move backward from the liquid flow due to internal clearances. Lower slip means more efficiency, reducing the need for higher horsepower motors. Also, the series can process fluids over longer spans due to its high-pressure capability, which reduces the need for multiple pumps in these applications. Reliability: WCB is a proven and trusted global brand dating back to the 1880s. The pumps are made with durable, corrosive-resistant materials compatible with industrial environments. A robust design, equipped with industrial flanges or sanitary fittings, ensures manufacturers can choose the configuration to meet their needs.  Additionally, an extensive sales channel and domestic manufacturing footprint support this pump series, enabling quick deliveries on standardized parts across the entire Universal pump product line. The U2 ND series is complemented by the Universal Industrial 5000 series, which is tailored for users who require OEM (Original Equipment Manufacturer) seals for their industrial pumping operations. Julien Bassett, Pumps Global Product Manager: "Waukesha Cherry-Burrell has extensive experience offering pumps to customers built with their needs in mind. We wanted to expand our offerings to provide quality and durability of the SPX FLOW brand while catering to the unique needs of industrial manufacturers and their applications."

Read More

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