Category Archives: Engineering
Asking big questions about the role of science, engineering – The Source – Washington University in St. Louis – Washington University in St. Louis…
Did you know that the man who helped develop the fertilizers that make it possible to feed the world also championed the military use of poison gas?
Fritz Haber, a German chemist, won the 1918 Nobel Prize in Chemistry for inventing a process key to creating synthetic fertilizers that contribute to two-thirds of annual global food production. Haber is also called the father of chemical warfare for creating ways to weaponize poisonous gases during World War I.
The history of science, engineering and technology includes many complicated people like Haber. To contextualize and examine this history, McKelvey School of Engineering Professors Richard Axelbaum and Gregory Yablonsky created a course titled Historical and Philosophical Aspects of Science, Engineering and Technology.
Getting the big picture
With examples such as Haber, the course grapples with the concept that science can be a source of both good and evil, says Yablonsky, who is retired from Saint Louis University and is currently an adjunct professor in the Department of Energy, Environment & Chemical Engineering. As research partners, Yablonsky and Axelbaum came up with the idea for the course following lengthy discussions of history and philosophy. They realized that students should understand science and engineering from a historical and philosophical perspective, and that this understanding would help them to examine their own decision-making processes, both in the lab and in life.
Science can be a source of both good and evil.
We delve into the way science developed, as we also try to understand the complexities of the human element, says Axelbaum, the Stifel & Quinette Jens Professor of Environmental Engineering Science in the Department of Energy, Environment & Chemical Engineering. Its an introspective course we give students projects to force them to think about their value systems: Why do you do what you do? How do you properly evaluate information objectively so youre making decisions based on sound information? One of the goals of this course is to help the students see the big picture.
Communication is key
Another goal of the class is to foster better communication between engineers and scientists. For example, chemical engineers and chemists operate in separate spheres with different world views. Better communication could enhance and streamline research, enabling engineers and scientists to work more closely, heightening the potential for discovery.
We tell the students: Two eyes are better than one. It is important to perceive other points of view, Yablonsky says.
Why do you do what you do? How do you properly evaluate information objectively so youre making decisions based on sound information. One of the goals of this course is to help the students see the big picture.
Students also read examples of good scientific communication such as short texts by Albert Einstein, including the letter Einstein wrote to President Franklin D. Roosevelt explaining the dangers of Germanys nuclear program.
Humanities course for scientists and engineers
Senior Nick Bateman, a mechanical engineering major, took the class last spring and enjoyed it so much, he agreed to be Yablonsky and Axelbaums assistant-to-instructor for the course this spring.
The idea of having this more in-depth conversational class about topics of science and engineering sort of fills in an area that I dont think your fluid mechanics or dynamics class is going to give you, says Bateman, who will be continuing in WashUs masters program in mechanical engineering after he graduates this spring. Its like a humanities class for people really interested in science and engineering.
The small class allowed for lively discussions around ethical questions, such as technologys role in quality-of-life issues. Bateman says debates in class have helped him see the importance of critical reasoning and challenging ideas and research.
I enjoy being able to throw out ideas to a group of people who arent afraid to challenge you or add constructive criticism, Bateman says.
So far, the class has been offered only to engineering students. Eventually, the professors would like to offer the course to other students and bring in an instructor from Arts & Sciences. The course would be open to students who are interested in science and engineering but arent necessarily interested in being scientists or engineers, Axelbaum says.
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Engineering smart and sustainable cities of the future at Northeastern University – Study International News
Drones autonomously inspect bridges and skyscrapers, reaching places that humans cannot safely. Artificial intelligence and machine learning aid in predicting weather extremes from hurricanes to earthquakes to help save lives. Smart technologies optimize transportation systems and roadways in fast-growing urban cities, while floating wind turbines hold promise to power the grid and mitigate climate change. These are just a few of the many ways civil and environmental engineers are transforming the built environment for a new generation of exciting possibilities.
According to the American Society of Civil Engineers (ASCE), demands for sustainable energy, fresh water, clean air, and safe waste disposal are driving infrastructure development on a global scale. Addressing these challenges requires interdisciplinary knowledge and integrating technology, data, science, and policy. You can learn more about the ASCEs Vision for Civil Engineering here.
Northeastern University College of Engineering, a top ranked, R1 top-tier research university in Boston, Massachusetts, with a global network of campuses, is a leader in civil and environmental engineering education, research, and experiential learning.
The Department of Civil and Environmental Engineering offers a Master of Science in Civil Engineering, and students can delve into their area of interest by selecting from six concentrations. A Master of Science in Environmental Engineering is also offered as is a Doctor of Philosophy degree in Civil and Environmental Engineering and in Interdisciplinary Engineering. Specialized interdisciplinary masters degrees include the MS in Sustainable Building Systems and the MS in Engineering and Public Policy.
With a constant eye on the emerging needs of industry, Northeastern recently added a concentration in Data and Systems to its civil and environmental engineering portfolio. Artificial intelligence and machine learning open exciting new opportunities for researchers to learn from and leverage data, while the increasing availability of affordable sensors is changing the way cities and the environment are measured and monitored. Buildings, transportation networks, energy utilities, and water resource infrastructure are designed with increasingly complicated smart technology. The curriculum is designed to give the engineers of tomorrow the interdisciplinary knowledge, and technical and analytical skills to build, maintain, and learn from AI and smart systems and the large quantities of data they produce.
Aravind Uthaman graduated with a masters degree in civil engineering with a concentration in structural engineering in 2019. He credits his career as a structural engineer to Northeasterns emphasis on experiential learning, which began on his first day of orientation.
He worked on the pioneering research that brought his faculty advisor, CDM Smith Professor and Chair Jerome Hajjar, national attention in his field improving human safety by using drones to inspect bridges. The drones capture high-resolution 3D images of the bridges that are then used to conduct inspections.
My work with Professor Hajjar helped me sharpen my software skills such as Revit, Tekla, AutoCAD, and STAAD, says Aravind. These were important skills to have on my resume. I also had an opportunity to contribute to two published papers. Companies want this because it shows dedication to the field.
Co-op was another key experience for Aravind, who spent seven months working as part of the academic curriculum at Lemessurier Consultants, a Boston-based structural engineering firm. I went there expecting to be assigned mostly routine tasks, but on the contrary, they gave me several actual projects to handle. In all, I had the opportunity to work on 24 projects, he said. Northeastern is ranked No. 1 in cooperative education and is one of only a few that offer graduate students the opportunity to participate in co-op.
In addition to Northeasterns extensive research enterprise, in 2021 the Department of Civil and Environmental Engineering opened a unique Smart Cities Laboratory to advance their vision of urban engineering. To meet the needs of a rapidly urbanizing society and a changing planet, the cities of the future need to utilize emerging technologies to create resilient, sustainable, and highly livable urban spaces.
The Smart Cities Lab is designed to enable interdisciplinary research coupling the disciplinary fields in civil and environmental engineering with the advancing methods of artificial intelligence, machine learning, Big Data analytics, and computer sciences. The lab features a living lab for urban environmental temperature experimentation and control, virtual reality/drone research, and an electronic fabrication and build space.
The Smart Cities Lab is where the disciplinary fields of civil and environmental engineering collide with the advancing methods of artificial intelligence, machine learning, Big Data analytics, and computer sciences. Source: Shutterstock
Interdisciplinary research being conducted by Northeasterns civil and environmental engineering faculty spans civil infrastructure security, environmental health, and sustainable resource engineering. Here are just a few examples. With a National Science Foundation CAREER Award, Assistant Professor Michael Kane is designing smart thermostats that model human response to temperature changes and use that data to satisfy the competing objectives of energy management and occupant comfort.
Assistant Professor Amy Mueller is creating an innovative new sensor solution to marine aquaculture water quality monitoring. Professor Jim Chen tracks hurricane data as part of a federally funded project to help coastal communities prepare their shorelines for future storms. Associate Professor Andrew Myers is designing lightweightoffshore wind turbinesthat he envisions will allow the US to take advantage of the enormous wind energy potential off the US East Coast.
These are just some of the highlights of research and experiential learning opportunities at Northeastern Universitys College of Engineering. Take the next step in your career journey by learning more and applying today.
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Research Fellow, Mechanical Engineering job with UNIVERSITY OF SOUTHAMPTON | 281489 – Times Higher Education (THE)
Mechanical Engineering
Location: Highfield CampusSalary: 31,406 to 38,587 per annumFull Time Fixed Term for 18 monthsClosing Date: Monday 28 February 2022Interview Date: To be confirmedReference: 1700622DA
This is an exciting opportunity to work on first-of-kind research into a new way of designing lower-limb prosthetics, with the people who design, fit and use them. Working between academia, industry and prosthetic clinics, this project is funded by Innovate UK, called Data-driven fitting for the next generation of prosthetic sockets.
Join an exciting interdisciplinary research team of biomedical engineers, prosthetists, physiotherapists, healthcare psychologists, social scientists and software engineers, who are developing a method of designing the bespoke prosthetic socket interface between a person and their prosthetic limb, using artificial intelligence (AI) to interpret data from expert clinical designers.
You will work primarily with academics at the University of Southampton (Dr Alex Dickinson, Dr Cheryl Metcalf, Dr Maggie Donovan-Hall and Dr Peter Worsley) on a project led by company partner Radii Devices Ltd (Dr Joshua Steer), with prosthetics service provider Opcare / Ability Matters Ltd.
Your role will be to conduct two studies:
The successful candidate will hold a PhD* or equivalent in a biomechanical engineering or allied health professions background. They will also have specific research skills including:
Expert knowledge of any of the following areas is also desirable:
Knowledge or experience of artificial intelligence, machine learning and software engineering are NOT necessarily expected or required for this position.
They will also have excellent inter-personal skills, and willingness to travel within the UK and work in prosthetic rehabilitation clinics, according to the necessary assessment of risks associated with COVID-19 and the project work itself.
This post is offered on a full-time, fixed term basis for up to 18 months.
Expected interview date: 14th 21st March 2022.
About the University
The University of Southampton is an institution in the top one per cent of world universities** and one of the UKs top 15 research-intensive universities. We have an international reputation for research, teaching and enterprise and hold an Athena SWAN Silver award.
About the Faculty
You will join a leading Engineering Faculty with an excellent record of collaborative research with industry and academic institutions in the UK and abroad. In September 2013 an Athena SWAN Bronze award was received by the School of Engineering in recognition of our continued commitment to improving equality for women in science and engineering.
Application Procedure
You should submit your completed online application form at https://jobs.soton.ac.uk. The application deadline will be midnight on the closing date stated above. If you need any assistance, please call Hannah Nash (HR Recruitment Team) on +44 (0) 23 8059 4043 or email recruitment@soton.ac.uk Please quote reference 1700622DA on all correspondence.
Informal enquiries to Dr Alex Dickinson (alex.dickinson@soton.ac.uk), Dr Cheryl Metcalf (c.d.metcalf@soton.ac.uk) and Dr Joshua Steer (josh@radiidevices.com).
At the University of Southampton, we value diversity and equality.
*Applications for Research Fellow positions will be considered from candidates who are working towards or nearing completion of a relevant PhD qualification. The title of Research Fellow will be applied upon successful completion of the PhD. Prior to the qualification being awarded, the title of Research Assistant will be assigned.
**QS World University Rankings 2012-13
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Sandvik completes the acquisition of the tube engineering solutions company Gerling GmbH – PRNewswire
SANDVIKEN, Sweden, Feb. 15, 2022 /PRNewswire/ -- Sandvik has completed the previously announced acquisition of the German based company Gerling GmbH, a precision tube engineering company serving multiple industries including the fast-developing hydrogen market. The offering includes innovative engineering solutions, such as high-pressure control technology in hydrogen refueling stations.
In 2020, the company had revenues of approximately SEK 90 million and an EBIT margin neutral to Sandvik Materials Technology.
The company will be reported in Tube, a division within Sandvik Materials Technology.
Stockholm, February 15, 2022
Sandvik AB
For further information, contact Louise Tjeder, VP Investor relations, phone: +46 (0) 70782 6374 or Johannes Hellstrm, Press and Media Relations Manager, phone: +46 (0) 70721 1008.
This information was brought to you by Cision http://news.cision.com
The following files are available for download:
SOURCE Sandvik
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2021 Capability: Pre/Post – Computer Aided Engineering Industry Report: Market Size and Growth – ResearchAndMarkets.com – Business Wire
DUBLIN--(BUSINESS WIRE)--The "Capability: Pre/Post - Computer Aided Engineering (CAE) 2021 Market Report: Market Size and Growth; 4-Year Forecast; Market Size, Growth and Position for Each of the Top 5 Vendors" report has been added to ResearchAndMarkets.com's offering.
Data in this Computer Aided Engineering Market report is provided in Software Revenue and Total Revenue terms.
Software Revenue includes CAE-related software licences, maintenance, and subscription revenues. It excludes provider services and non-CAE-related software revenue.
Total Revenue includes CAE-related provider services in addition to CAE-related software revenue. Third-party services are excluded.
Data is provided in U.S. Dollars (USD) and relate to Provider Revenues. Reseller margin and sales tax are excluded. All data is for the Worldwide market in 2021, unless otherwise stated. The data used in this snapshot is from the 2021 CAE Observatory.
Forecasts and other data in this workbook are based on economic data from various sources published during early 2021.
The CAE Observatory was built in conjunction with industry specialists to help plan and develop the dataset, as well as contribute research and validation. The data is based upon multiple sources and viewpoints of the market, the most important being primary research of vendors. The model feeds additional information and industry knowledge from other stakeholders and Market Observatories.
The CAE software industry is constantly evolving. Due to mergers, acquisitions and ongoing research, the list of included providers and products will change over time. This is a continual process.
Scope covering the CAE Market
2D and 3D physics based, simulation/analysis software, and related services using discretisation methods (e.g., Finite Element, Finite Volume, Finite Difference, Discrete Element, Meshless Methods).
Model Based Systems Engineering. From an overall system perspective, numerical models of components and systems behaviour (e.g. Modelica, AmeSim) are excluded. This might include 0d & 1D controls; physics simulation/analysis software and related services.
Companies Mentioned
Key Topics Covered:
CAE Market Observatory
For each of the Top 5 vendors:
For more information about this report visit https://www.researchandmarkets.com/r/u5l89
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Blippi, The Engineering Family and other unfathomable horrors of kids YouTube – Northeast Mississippi Daily Journal
Country
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Optikos President & CEO Stephen D. Fantone Elected to the National Academy of Engineering – Business Wire
WAKEFIELD, Mass.--(BUSINESS WIRE)--Stephen D. Fantone, Optikos Corporation President and CEO, has been elected a member of the National Academy of Engineering (NAE).
The prestigious honor is among the highest professional distinctions for an engineer. Fantone was recognized by the NAE for contributions to optical engineering and the development of optically based products and metrology systems. He is among 111 newly elected members and 22 international members identified for their outstanding contributions to the field.
As a recognized expert in optical engineering and optical product development, Fantone has served on numerous government and academic program review panels and has been awarded over 70 patents covering a wide range of optical technologies. He served as 2020 Optica President and as Treasurer from 1996-2013; and he is both an Optica and SPIE Fellow.
Fantone attended Massachusetts Institute of Technology, where he earned bachelors degrees in both electrical engineering and management. In 1979 he received a Ph.D. degree in optics from the Institute of Optics at the University of Rochester for which he was awarded a coveted Hertz Fellowship.
He began his career with Polaroid Corporation and in 1982 founded Optikos to offer expertise in optical engineering for commercial, government, and consumer applications. The Companys designs and assemblies can be found in a range of end-use optical imaging and photonic products such as those used in life science, AR/VR, automotive/LIDAR, aerospace, and defense applications; and Optikos provides complex optical system manufacturing and assembly from prototype through production.
Optikos also manufactures its own standard and custom metrology products that assess and characterize the image quality of lens and camera systems across the optical spectrum.
Its a tremendous honor to be recognized by the National Academy of Engineering. Id like to acknowledge my invaluable team here at Optikos for their countless contributions and my family for the personal support that helped make this possible, said Stephen D. Fantone.
About Optikos
Anthem video
The Optical Engineering Experts--founded in 1982, Optikos engineering teams provide product development services from design through volume manufacturing; and the company develops and manufactures its own standard and custom metrology products. Application areas include life sciences, aerospace, defense, automotive, and consumer electronics. The Optikos Quality Management System is certified to ISO 9001:2015 for products and services, and ISO 13485:2016 for medical devices.
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Josts Engineering Company consolidated net profit rises 111.24% in the December 2021 quarter – Business Standard
Sales rise 27.52% to Rs 34.71 crore
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First Published: Tue, February 15 2022. 12:20 IST
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Jash Engineering (NSE:JASH) Is Very Good At Capital Allocation – Simply Wall St
There are a few key trends to look for if we want to identify the next multi-bagger. One common approach is to try and find a company with returns on capital employed (ROCE) that are increasing, in conjunction with a growing amount of capital employed. Basically this means that a company has profitable initiatives that it can continue to reinvest in, which is a trait of a compounding machine. So when we looked at the ROCE trend of Jash Engineering (NSE:JASH) we really liked what we saw.
For those who don't know, ROCE is a measure of a company's yearly pre-tax profit (its return), relative to the capital employed in the business. Analysts use this formula to calculate it for Jash Engineering:
Return on Capital Employed = Earnings Before Interest and Tax (EBIT) (Total Assets - Current Liabilities)
0.24 = 419m (3.3b - 1.6b) (Based on the trailing twelve months to December 2021).
Thus, Jash Engineering has an ROCE of 24%. In absolute terms that's a great return and it's even better than the Machinery industry average of 14%.
View our latest analysis for Jash Engineering
Historical performance is a great place to start when researching a stock so above you can see the gauge for Jash Engineering's ROCE against it's prior returns. If you'd like to look at how Jash Engineering has performed in the past in other metrics, you can view this free graph of past earnings, revenue and cash flow.
Jash Engineering is displaying some positive trends. Over the last five years, returns on capital employed have risen substantially to 24%. The company is effectively making more money per dollar of capital used, and it's worth noting that the amount of capital has increased too, by 71%. The increasing returns on a growing amount of capital is common amongst multi-baggers and that's why we're impressed.
On a separate but related note, it's important to know that Jash Engineering has a current liabilities to total assets ratio of 48%, which we'd consider pretty high. This can bring about some risks because the company is basically operating with a rather large reliance on its suppliers or other sorts of short-term creditors. Ideally we'd like to see this reduce as that would mean fewer obligations bearing risks.
To sum it up, Jash Engineering has proven it can reinvest in the business and generate higher returns on that capital employed, which is terrific. Since the stock has returned a staggering 628% to shareholders over the last three years, it looks like investors are recognizing these changes. Therefore, we think it would be worth your time to check if these trends are going to continue.
Jash Engineering does have some risks though, and we've spotted 3 warning signs for Jash Engineering that you might be interested in.
High returns are a key ingredient to strong performance, so check out our free list ofstocks earning high returns on equity with solid balance sheets.
Have feedback on this article? Concerned about the content? Get in touch with us directly. Alternatively, email editorial-team (at) simplywallst.com.
This article by Simply Wall St is general in nature. We provide commentary based on historical data and analyst forecasts only using an unbiased methodology and our articles are not intended to be financial advice. It does not constitute a recommendation to buy or sell any stock, and does not take account of your objectives, or your financial situation. We aim to bring you long-term focused analysis driven by fundamental data. Note that our analysis may not factor in the latest price-sensitive company announcements or qualitative material. Simply Wall St has no position in any stocks mentioned.
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Jash Engineering (NSE:JASH) Is Very Good At Capital Allocation - Simply Wall St
CMS Energy Names Tonya Berry Senior Vice President of Transformation and Engineering – KPVI News 6
JACKSON, Mich., Feb. 4, 2022 /PRNewswire/ -- CMS Energy, and its principal subsidiary Consumers Energy, announced today that Tonya Berry is named senior vice president of Transformation and Engineering, effective immediately. Tonya previously served as the vice president of gas operations responsible for gas transmission, distribution, and the integrity of the company's gas system. With her new position, Tonya will be responsible for electric and gas engineering, as well as, resource planning, project management, environmental services and our quality department.
"Tonya has demonstrated a strong commitment to serve customers, strengthened the processes we use to do our work and inspired our co-workers to deliver results during her time at Consumers Energy," said Garrick Rochow, President and CEO of CMS Energy and Consumers Energy. "Tonya leads with joy and epitomizes our company's triple bottom line and culture of caring for people, the planet and our state's prosperity."
Berry has served as vice president of gas operations since 2020 and previously as vice president of operations performance. Berry has expertise in gas, engineering, and over 20 years of experience in deploying Lean methodologies to enhance quality and improve work management within gas and electric groups. Prior to joining Consumers Energy, Berry also worked for Chrysler LLC in lean operations and industrial engineering. She has a Bachelor's in industrial engineering from the University of Michigan, and a Master's in business administration from Wayne State University.
CMS Energy (NYSE: CMS) is a Michigan-based company that has an electric and natural gas utility, Consumers Energy, as its primary business. It also owns and operates independent power generation businesses.
View original content to download multimedia:https://www.prnewswire.com/news-releases/cms-energy-names-tonya-berry-senior-vice-president-of-transformation-and-engineering-301475521.html
SOURCE CMS Energy
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CMS Energy Names Tonya Berry Senior Vice President of Transformation and Engineering - KPVI News 6