Distributed Energy Resources (DERs)
News
Mitsubishi Electric Corporation announced that it will increase its existing investment in Massachusetts-based Realtime Robotics, Inc., an American startup company that is pioneering motion-planning technology for calculating trajectories to enable factory-automation (FA) equipment to avoid obstacles and generate optimized routes. By expanding the use of Realtime Robotics' advanced technology in Mitsubishi Electric's FA solution software products and control-system equipment, the partners expect to further enhance the digitalization and optimization of automated production at manufacturing sites. Mitsubishi Electric's industrial robots Companies have been promoting technical union between Realtime's motion-planning technology Since May 2019, when Mitsubishi Electric first invested in Realtime Robotics, the two companies have been promoting technological collaboration between Realtime's motion-planning technology and Mitsubishi Electric's industrial robots, with the aim of helping manufacturers achieve agile, variable-volume production and flexible manufacturing for improved productivity in the face of rising capital-investment and labor costs as well as diversifying consumer needs. As Mitsubishi Electric strives to transform into a "Circular Digital-Engineering Company," its FA systems business is investing in and cooperating with software companies to strengthen automation and digitalization in diverse manufacturing processes, including design, manufacturing, testing, operation, and maintenance, ultimately to provide customers with best-in-class products and solutions. Incorporate Realtime's technology By increasing its stake, Mitsubishi Electric plans to further integrate Realtime's cutting-edge motion-planning technology into 3D simulators and other software to optimize manufacturing through the power of digital twins. Later, Mitsubishi Electric expects to incorporate Realtime's technology into FA control system devices, such as programmable logic controllers (PLCs), servo motors, and computer numerical controllers (CNCs), to ensure uninterrupted plant operations by responding to needs for expanded automation capabilities, streamlined plant operations for improved efficiency and fast responses to unexpected events. Going forward, Mitsubishi Electric is committed to promoting open innovation by collaborating with innovative companies and cutting-edge technologies. Through diverse partnerships, the company aims to steadily address challenges faced by manufacturers in order to drive impactful solutions and continued advancement.
Mitsubishi Electric Corporation, Mitsubishi Electric Mobility Corporation (Mitsubishi Electric and Mitsubishi Electric Mobility are collectively referred to as ‘Mitsubishi Electric Group.’) and AISIN CORPORATION announced that the three companies have reached a basic agreement to establish a joint venture (the ‘JV’) company to handle products for next-generation electric vehicles (EVs) (the ‘Transaction’). The JV will succeed to part of Mitsubishi Electric Mobility’s business, and will develop, produce and sell traction motors, power converters (inverters, etc.) and their control software, which will be optimized for vehicles and relevant systems and used in next-generation EVs, including battery EVs (BEVs) and plug-in hybrid vehicles (PHEVs). Control optimization technologies The relevant parties will leverage its respective strengths and respond to the diversifying needs for vehicle electrification, ultimately to contribute to global carbon neutrality. The Mitsubishi Electric Group has strengths in power electronics technologies such as power devices and inverters, motor technologies and control optimization technologies. Mitsubishi Electric Mobility, which is engaged in the automotive equipment business, possesses expertise in vehicle electrification for hybrid vehicles (PHEVs, HEVs) and is addressing needs in the vehicle electrification market growing rapidly due to the acceleration of carbon neutrality initiatives, creating synergies with new partners and expanding its product lineup for diversifying EV systems. Regional energy situation AISIN will carefully respond to diversifying needs and expand the variety and quantity of electric units AISIN offers a full lineup of electric units that drive all types of EVs, including BEVs, PHEVs, and HEVs, and provides them to customers around the world through BluE Nexus, thereby contributing to improved power consumption and driving performance of the entire vehicle. As vehicle electrification continues to accelerate in the context of regional energy situation and policies, there is an increasing diversity of needs for products and technologies, including systems, performance and cost. AISIN will carefully respond to diversifying needs and expand the variety and quantity of electric units through BluE Nexus, utilizing the development capability of the JV based on the full line-up of technology development concepts AISIN has promoted. Other relevant authorities The JV will offer new and attractive products to a wide range of customers, maximizing the synergy of Mitsubishi Electric Mobility’s traction motors, power converters and control optimization technologies, and AISIN’s integration technology (vehicle adaptation technology and system integration technology). The JV will initially be spun off from Mitsubishi Electric Mobility as a new company responsible for its electrification business by way of a company split, and eventually have the Mitsubishi Electric Group as the majority shareholder (66%) and AISIN as the minority shareholder (34%). The completion of the Transaction will be subject to regulatory clearances and consents of competition and other relevant authorities. An overview of the new JV is in the Appendix. Further details will be announced as they become available.
Mitsubishi Electric Corporation announces that it will acquire an 80% stake in Fuji Bakelite Vietnam Co., Ltd. in the outskirts of Hanoi, a subsidiary of Fuji Bakelite Co., Ltd. in Okayama Prefecture, Japan. The new joint venture (JV) company, to be named Mitsubishi Electric FP Automation Vietnam Co., Ltd., will be established on June 1 and will begin production of air circuit breakers from January 2025, in addition to the current company's existing line of small low-voltage circuit breakers. new joint venture (JV) Company The new JV will leverage Fuji Bakelite Vietnam's skilled workforce and expertise in manufacturing Fuji Bakelite Vietnam, which has been in operation since 2014, manufactures small low-voltage circuit breakers for Mitsubishi Electric's Fukuyama Works in Hiroshima Prefecture. The new JV will leverage Fuji Bakelite Vietnam's skilled workforce and expertise in manufacturing and quality control in Vietnam in its manufacturing operations. Up to now, Mitsubishi Electric has expanded its factory automation (FA) business in the ASEAN region by exporting products manufactured mainly in Japan. In the future, however, the demand for FA products is expected to increase robustly in countries such as Vietnam, Thailand, Indonesia and Malaysia, where strong economic growth is forecasted. Enhancing product supply capabilities Establishing a joint venture (JV) company in Vietnam will enable Mitsubishi Electric to build a production system for low-voltage circuit breakers. In the future, this JV company aims to further expand its FA systems business by enhancing product supply capabilities in ASEAN countries to meet the growing demand for FA products.
New demanding legislation is being introduced into the supply chain for the right reasons of quality and safety, says AEI Cables. AEI Cables has been raising awareness of the Building Safety Act 2022, which makes new demands in terms of building industry process and compliance requirements. Building industry process Stuart Dover, General Manager of AEI Cables, said: “Some of the details of the act may be challenging, but we should all be responsible to ensure we are meeting our obligations. Safety is at the heart of this and we should not lose sight of that.” He adds, “We are happy to help guide those in the supply chain to ensure they are using the relevant cables for their specific project requirements. All of those in the supply chain including building managers, contractors, specifiers and installers need to understand the impact of this legislation for reasons of safety.” Managing building safety One of the major new requirements under the act is a process known as The Golden Thread One of the major new requirements under the act is a process known as The Golden Thread. This refers to the relevant package of information that should be provided including product specification, application records and datasheets. AEI Cables is advising its customers to capture the relevant data sooner rather than later for projects they are working on so that they can provide information on safety and quality required by the act. When the building work is completed, the Golden Thread must be handed over to the Accountable Person, who is responsible for the occupied building to help manage building safety. Higher-risk buildings The Act – introduced from October 2023 – makes new requirements for ‘higher-risk buildings’, which are those deemed to be of at least 18 meters in height or at least seven storeys containing at least two residential units. AEI Cables’ Firetec Enhanced cabling has been approved and certified by LPCB to BS8519 (Annex B), Category 3 Control in addition to Category 2 Control. The BS Code of Practice under BS8519 contains six categories of cables, three for power cables and three for control cables each covering survival times of 30, 60 or 120 minutes.
Expert Commentary
While the technology sector was once considered the most desirable in terms of salary and job security, recent layoffs have exposed its vulnerability. Job security has always been a sought-after job benefit, and one career path that’s often overlooked is skilled trades. The skilled trades industry stands out as a resilient sector, offering the next generation of workers a promising path for growth and professional development through on-the-job experience and education. Significant talent gap With the retirement of Baby Boomers leading to a significant talent gap, current trade professionals are now more determined than ever to attract younger workers to the industry. Regrettably, many students in high school fail to see the value of pursuing a career in skilled trades. In a 2022 survey, only 16% of students noted they were likely to consider a career in the skilled trades. However, as other industries face a high level of uncertainty, the skilled trades offer stability and constant demand for services such as new construction, renovations, and climate change-resilient building improvements. The Benefit of Trade Education One of the major benefits of skilled trades education is its flexibility and room for career advancement The skilled trades industry presents young professionals with unique opportunities for hands-on learning and digital skill development. And as the next generation begins to explore higher education alternatives to gain valuable life skills, hands-on training in skilled trades becomes increasingly appealing. In trade education, learning happens directly from experiences in the field, complemented by classroom training, on-demand video sessions, and even virtual reality (VR) simulations. This approach ensures that graduates are well-prepared to start their careers immediately, avoiding the burden of college debt. One of the major benefits of skilled trades education is its flexibility and room for career advancement. Unlike traditional four-year college programs, trade school education typically lasts around two years, making it accessible to individuals at different stages of their careers. Moreover, the skilled trades industry provides workers with continuous opportunities for education and specialization. Formal certifications or licensing requirements define career paths in the skilled trades, and workers can pursue additional certifications to open new avenues for advancement. Beyond Traditional Training Techniques To maintain its resilience, the skilled trades industry is embracing technology To maintain its resilience, the skilled trades industry is embracing technology, integrating tech-focused learning methods and digital platforms to streamline processes and increase efficiency. Gen Z is inherently tech-savvy, and incorporating new technologies in training and in the field will attract these younger generations to the industry. This can include implementing tech-focused learning methods, embracing gamification, or transitioning from physical code books to digital platforms to streamline processes, make work more efficient, and increase engagement on new tools coming onto the jobsite. While the skilled trades industry offers numerous opportunities for growth and professional development, it is essential to acknowledge that these professions are not without their risks. Enhancing safety training Skilled trade workers, particularly those in fields like construction, electrical work, and fire safety, are often exposed to serious fire, electrical, and related hazards on the job. Ensuring the safety of these workers is of paramount importance. One powerful solution to enhance safety training is the integration of digital learning technology One powerful solution to enhance safety training is the integration of digital learning technology, which is uniquely suited to provide deep immersion simulations. By incorporating virtual reality (VR) and augmented reality (AR) training modules, skilled workers can experience lifelike scenarios that simulate potential hazards in a controlled environment. This kind of training allows them to develop critical skills, practice emergency response procedures, and make informed decisions without facing real-life risks. By leveraging digital learning technology, the skilled trades industry can better equip its workers with the knowledge and experience needed to enhance job safety and minimize workplace accidents. The Bottom Line The skilled trades industry presents a promising future for the next generation of talent. It offers resilience in the face of economic fluctuations and provides abundant opportunities for growth and professional development through hands-on training. To attract a new generation to this industry, organizations must be willing to not only emphasize value, in terms of resiliency salary, to candidates, but also show that the industry is moving towards innovation just like any other profession. As the industry continues to embrace technology, such as digital learning, it will remain relevant and appealing to young, technologically adept individuals seeking rewarding and stable careers. And by showcasing the value and potential of skilled trades, we as skilled trades professionals can inspire more individuals to consider this path and take the first step toward a successful and fulfilling career.
The promise of electric vehicles is closer to reality than ever before. New plans and investments at the federal level designate billions of dollars to move our country toward clean energy, including $2 million to help auto manufacturers retool facilities to increase EV production. Additionally, the Biden Administration has announced a goal to create 100% carbon-free electricity by 2035 and a net-zero carbon economy by 2050. Domestic EV marketplace The domestic EV marketplace has grown from 16,000 to more than 2 million vehicles in the last decade and is poised to expand at lightning speed over the next ten years. S&P Global mobility has predicted that by 2030, electric vehicles (EVs) will make up 40% of the U.S. market share of new vehicles on the road. This dramatic increase in EVs will require a nationwide network of charging stations to meet the demand from the current 140,000 to over 1.1 million. Charging stations It is a necessity that regulators lay the groundwork now for a reliable and secure charging networkThe expansion of charging stations will undoubtedly give zero-emissions drivers more confidence in their ability to refuel more conveniently. Still, it’s critical that confidence in infrastructure security also be prioritized alongside this growth. If not adequately protected and monitored, charging stations could serve as access points for cybercriminals, potentially leading to personal data leaks, attacks on vehicle systems, and even widespread blackouts. As EVs continue to gain momentum as realistic alternatives to CO-2 emitting vehicles, it is a necessity that developers and regulators lay the groundwork now for a reliable and secure charging network for the long term. EV Charging Infrastructure and the electric grid The nation’s electric grid generates and delivers electricity essential to everyday life. It’s made up of power plants and other sources of generated electricity, complete with transmission and distribution lines and infrastructure that delivers essential power. Grid connection An important aspect to remember about EV charging stations is that they connect to their relative electric grid. Simply put, the infrastructure for charging stations is comprised of devices that wait for another device to connect and communicate. However, it lacks a third-party firewall or other devices that can act as protection. Unfortunately, this results in vulnerability and means new doors for cybercriminals to walk through. Cybersecurity risks If the grid became compromised by a large-scale attack, it could lead to destructive and widespread blackouts Even before EV charging stations are factored in, the electric grid faces substantial cybersecurity risks from criminals, terrorists, hackers, and foreign governments every day. If the grid became compromised by a large-scale attack, it could lead to destructive and widespread blackouts that would undoubtedly affect EV charging stations and other essential institutions such as banks, hospitals, and gas stations. With the expansion of EV charging stations, the risks only grow. Now is the time to address threats and strategize before disaster strikes. Risks of connectivity emerge The world we live in has reached a level of being almost entirely connected at all times – security systems, appliances, health monitors, industrial sensors, and now, our vehicles. While the connectivity of vehicles has been incredibly beneficial to consumers and the automotive industry alike, the growth in the internet of things (IoT) has opened countless doorways for cybersecurity threats. Software flaws One young information technology security specialist reported finding flaws within a third-party software that a handful of leading EV manufacturers use. It gave him access to more than 25 EVs in at least 13 countries. The man, who stumbled on the findings in 2022, said he could remotely control some EV functions, including starting vehicles, unlocking windows and doors, disabling security systems, and turning on stereo systems and flashing headlights. The IT specialist said he could also tell if a person was in the vehicle. In a separate and concerning situation, a single compromised password led to a foreign-fronted cyberattack on a U.S.-based pipeline in 2021. It halted the fuel supply process on the east coast and cost the company $4.4 million in ransom money. Cyberattacks Thousands of charging stations are already in danger of being targeted by cybercriminals The point is that even massive and powerful companies can fall victim to cyberattacks. Even though cybersecurity is a critical issue for EV manufacturers, their systems are still vulnerable to hackers. Thousands of charging stations are already in danger of being targeted by cybercriminals, and as the number of stations grows, so too will the risk. The higher the number of entry points, the more opportunities hackers will see. If they can break into and gain access to even the most sophisticated EVs, it could be catastrophic. Ensuring security and reliability through proactivity Because charging stations are connected to the country’s primary grid, the entire infrastructure must be armed with the most aggressive security measures. The risks associated with modernized electric vehicles are not something that traditional automotive safety regulations and security standards properly cover. The complicated and rapid evolution of EVs is putting them at a heightened threat. When charging stations are connected to the electrical grid, it is imperative to ensure strong cybersecurity measures are in place to remain dependable and effective. Embedding cybersecurity technology We often see outside parties utilized to secure tech because of the frequent lack of necessary cyber protection The best way to ensure the electric grid's safety is to build cybersecurity technology directly into the charging stations. We often see outside parties utilized to secure tech because of the frequent lack of necessary cyber protection. Unfortunately, the promising growth EVs and their charging stations bring to our environment also contributes to technology’s vulnerabilities, which can cause key security measures to be overlooked. There’s no getting around it: EV charging stations are highly vulnerable to hackers. Awareness and solutions As the growth continues, there is an acute need for heightened awareness and solutions for the weaknesses associated with these charging stations. These solutions should consider everything from the charging points and devices to operators of the energy distribution networks and infrastructure providers. We must aim to implement advanced cybersecurity measures that will keep safe drivers and all the data that EVs contain.
Power Beat
Electricians play a pivotal role in preventing electrical fires by following safe practices during installations, repairs, and inspections. At a minimum, electricians should ensure all electrical wiring and components are installed according to current building codes and manufacturers' specifications. This includes using the right size wires for the amperage load, using approved materials, and properly securing all connections. During electrical inspections, electricians should identify and address any potential fire hazards. Electricians can also advise homeowners on electrical safety measures they can take to prevent fires. These include safe appliance use, avoiding overloaded outlets, and the importance of smoke detectors and fire extinguishers. Maintenance of electrical systems Ground Fault Circuit Interrupters (GFCIs) can prevent possible fires. GFCI outlets have built-in protection to detect imbalances in electrical current and quickly shut off power to prevent shocks and potential fires, particularly in areas prone to moisture like kitchens and bathrooms. Regular maintenance of electrical systems is also crucial for fire prevention. Electricians can perform preventative maintenance checks to identify and address any developing issues before they become serious fire hazards. Fire departments responded to an average of 32,160 home fires involving electrical distribution Fire departments responded to an average of 32,160 home fires involving electrical distribution and lighting equipment each year in 2015–2019, according to the National Fire Protection Association (NFPA). Electrical fires cause scores of civilian deaths and hundreds of civilian injuries, as well as millions of dollars in property damage. Fire Hazards in the Home Some of the electrical components that present fire hazards in the home include faulty electrical outlets and switches, worn or damaged components, overloaded circuits, damaged or frayed cords, and misused extension cords and power strips. Improper use of light fixtures can also be a danger, and space heaters can be a fire hazard if they are placed too close to flammable materials or left unattended. Damaged or frayed cords can cause sparks and ignite nearby flammable materials As outlets and switches age, the wiring behind them can loosen and break, causing sparks and fire. Loose plugs can also overheat and ignite surrounding materials. Plugging too many appliances into a single outlet or using extension cords instead of proper wiring can overload a circuit, thus causing overheating and fires. Damaged or frayed cords can cause sparks and ignite nearby flammable materials. Cords that are kinked, pinched, or have exposed wires should be avoided and replaced immediately. Minimizing the Risk of Electrical Fires Here are some steps a homeowner can take to minimize the risk of fire from electrical systems: Upgrade the electrical system, especially if the home is older. If the electrical system has not been updated in a while, a qualified electrician can advise if it needs modernization. This could involve upgrading to breakers with better safety features such as Arc-Fault Circuit Interrupter (AFCI) and Ground Fault Circuit Interrupter (GFCI) technology. Schedule an electrical safety inspection. Having a qualified electrician periodically inspect a home's electrical system can identify potential problems before they escalate into fire hazards. Keep flammable materials away from electrical components, including curtains, furniture, and piles of paper. Sparks and overheating can easily ignite nearby flammables. Addressing Multiple Threats Effective communication is key for electricians to impress upon homeowners the seriousness of fire hazards. Avoid technical jargon and explain fire hazards in clear, concise language that homeowners can understand. Focus on the potential consequences, like damage to property or injury, to heighten awareness. Pictures can be worth a thousand words. Show homeowners examples of damaged wiring, overloaded outlets, or faulty installations that pose fire risks. This can be done through photos on a tablet or phone, or even carrying around small physical samples. Frame the conversation around safety for the homeowner and their family. Highlight how addressing these hazards can prevent potential fires and ensure a safe living environment. Provide a written report after the inspection or repair. This report should detail the identified hazards, the corrective actions taken, and any recommendations for future maintenance or upgrades. By combining clear communication, visual aids, and a focus on safety, electricians can effectively convey the importance of addressing fire hazards to homeowners and empower them to make informed decisions about their electrical systems.
Case studies
Jenkins sold a Jenkins Motor Test System to Oman, where temperatures can exceed 120ºF. While Jenkins Motor Test Systems are built tough and for industrial environments, this specific location required customizations to be the most effective in an extremely hot environment. Locations near large bodies of water or tropical environments can also cause problems as the humidity in the air will cause the copper wiring in the transformer to oxidize over time. Although Jenkins designs its equipment to operate for long periods, some applications for customer environments require specific customization. The Solution Jenkins engineers and winders worked together to develop a custom solution for this harsh climate, particularly paying close attention to temperature and water resistance. To customize the transformer for this environment, the Jenkins team made the following modifications: Doubling the spacing between winding layers to increase airflow. Encasing the transformer first in a high tolerance epoxy varnish, and then in a polyester over-dip that prevents the application from rust, dust, and harmful materials. Utilizing expanded metal at the base of the MTS enclosure, allows heat to escape, reducing the internal temperature. Installing temperature-sensitive cooling fans (set to 100ºF) atop the enclosure to prevent overheating. The Results Jenkins technicians checked insulation for 10,000 volts (resistance to ground), checked each voltage leg, and high voltage potential to ground, and ensured the taps were in the correct place. Voltage was confirmed to operate up to 20% above normal operation, ensuring maximum efficiency and longevity of the transformer. These modifications have resulted in prolonged use of the Jenkins Motor Test System in harsh environments and ultimately customer satisfaction.
As part of their strategy to address damp and mold, West Dunbartonshire Council will deploy Aico’s HomeLINK Environmental Sensors across all their properties. The Council is one of Scotland’s major social housing landlords, currently owning and managing over 10,400 homes, and are focusing on increasing energy efficiency, tackling existing issues, such as damp and mold, as well as improving tenant safety, health and well-being. Ei1000G Gateway and Ei1025, Ei1020 Environmental Sensors The organization has taken the proactive approach to install the Ei1000G Gateway and Ei1025 and Ei1020 Environmental Sensors in each of their homes, making this Scotland’s largest scaled Internet of Things (IoT) roll out to date. By utilizing a multi-network sim card and RF interconnection, the sensors will be seamlessly retrofitted By utilizing a multi-network sim card and RF interconnection, the sensors will be seamlessly retrofitted into existing properties and can provide the council with a consistency on key air quality information, such as carbon dioxide, temperature, humidity, as well as insights on fire and CO activations. This will then lead to insights such as indoor air quality (IAQ) risk, damp and mold, excess heat, cold homes, potential fuel poverty, and void risk. HomeLINK App for Residents The HomeLINK App for Residents empowers individuals to take control of their home’s indoor environment. Tenants will receive alarm testing reminders and tailored recommendations. Councilor Gurpreet Singh Johal, Convener of Housing and Communities, said: “None of our tenants should be living in a home that is affected by damp or mold and these new sensors will allow us to access information on the fabric of each home easily so we can take action quickly to resolve. Not only that, we will have data to track the problem and help us identify what the best approach to resolve it will be.” Biggest roll out of this type of sensor in Scotland Councilor Gurpreet Singh Johal adds, “This is the biggest roll out of this type of sensor in Scotland and I am proud that West Dunbartonshire’s approach to dealing with damp and mold is not only leading the way, but addressing the problem in an efficient and proactive manner.” As Scotland’s social housing sector now rapidly adopts the use of IoT technologies" Gregor Morrison, Regional Specification Manager for the West of Scotland said “As Scotland’s social housing sector now rapidly adopts the use of IoT technologies to help not only increase the level of home life safety, but to improve resident health and well-being. This progressive approach from West Dunbartonshire Council to provide all homes with the opportunity for this technology is admirable.” Incorporation of the Environmental Sensors Gregor Morrison adds, “The incorporation of the Environmental Sensors will be pivotal in generating essential home health insights, as well as providing data for the tenant through the resident app, leading to healthier and more energy-efficient homes within the community.” He continues, “Growing up in and around the social housing sector in Yoker & Clydebank, I’m really looking forward to continuing the close working relationship with WDC, and seeing first-hand the difference the technology can make within the community.”
Mota-Engil, a multi-national with activities focused on the construction and management of infrastructures, responsible for the construction of the Canoas wastewater lifting station, selected WEG as the provider of a large package of electrical solutions for an important initiative to decontaminate the waters of the Bogotá River, in Colombia. Sustainable development When the project is completed, the pumping station will receive the wastewater from approximately 70% of the city, corresponding to the Fucha, Tintal, and Tunjuelo river basins, and the wastewater from the Municipality of Soacha, to be later pumped to the future Canoas Wastewater Treatment Plant, which will be one of the largest in Latin America. This great milestone will make it possible to return quality water to the Bogotá River and guarantee the sustainable development of the country. Safe distribution of energy Seventeen medium voltage switchgears were also supplied in addition to low voltage load centers One of the great challenges of this project is to guarantee the safe distribution of energy to the electrical systems and motors. For this, WEG has supplied a complete 115 kV substation that includes two 30 MVA/115/13.2 kV transformers, adding more efficiency and reliability to the plant. 17 medium voltage switchgears were also supplied in addition to low voltage load centers. For this project, WEG will also be supplying six three-phase induction motors and six medium voltage variable frequency drives. Each 4,300 kW motor, vertically mounted, will be coupled to its respective pump and will be responsible for pumping 6.4 cubic meters of wastewater per second to 51.6 meters height from the well, one of the most critical processes in the plant. Improvement of the quality of life This demonstrates the company's ability to develop integrated solutions that meet the most diverse applications. With participation in other important projects in the water and wastewater segment, in various processes such as potable water treatment plants, wastewater treatment, and distribution systems, WEG reinforces its experience in this segment by being selected for this important project, thus contributing to the improvement of the quality of life of the population and the environment.
WEG stands out once again by supplying a large custom-built induction motor for an Integrated Steel Plant in the Eastern part of India, in the state of Odisha. The induction motor of the MGW line, 26 MW/4 Poles/11 kV, is the largest ever manufactured in WEG's manufacturing site in India for the Indian market, it was selected to drive the main air compressor of the oxygen plant, essential for the operation of the entire Phase-1 of the steel production plant. challenges of interchangeability The project involved replacing an existing motor at the plant, a complex task that required technical expertise to overcome the challenges of interchangeability of the new motor with the existing structure. For this, it was essential to combine all the dimensions of the machine, ensuring that no modifications were necessary on-site or in the foundation. From the water inlet and outlet to the oil lines, cable entry points and shaft details, each element was carefully considered for an efficient transition. WEG supplies induction motor System criticality has been significantly minimized, eliminating the need for complex maintenance The choice of an induction motor not only met the technical demands, but also offered substantial advantages over synchronous motors, commonly used for this application because induction motors are rare in this size and power. System criticality has been significantly minimized, eliminating the need for complex maintenance associated with components such as the exciter and exciter panels, as well as delicate integration with motor and rotor telemetry systems. WEG's commitment The reliability of WEG's induction motor was a key element in keeping production running smoothly. Since the motor was installed, the steel plant has not experienced any unplanned downtime in the last one year of operation, contributing to a continuous and efficient production environment. With WEG's commitment to offer technological and reliable solutions to the market, this association not only increases the productivity of the plant, but also contributes to increasing the steel production capacity on Indian soil.