Category Archives: Engineering
Tesla’s Engineering Under Scrutiny Because of the Cybertruck and Alleged Teardowns – autoevolution
It is ironic that similar processes can bring diverse conclusions. Sandy Munro has torn down a few Tesla vehicles and was more often fascinated by the company's engineering solutions than by the flaws he and his team discovered. Another teardown report is not so favorable on Tesla. A Cybertruck assessment also puts the battery electric vehicle (BEV) maker's engineering under scrutiny.
In this engineer's words, "their structures up to the Model 3 are quite inefficient and don't have great rigidity. The dimensional variation is shocking (far beyond even SBU, IYKYK)." IYKYK means "if you know, you know," which is probably the most precise use this acronym has ever had. In a quick search to learn what SBU means, I found two suitable meanings: "stratigraphic boundary uncertainty" and "sequential build-up." There are probably more meanings, but I obviously don't know what the author meant, only that SBU represents loose dimensional tolerance control.
The engineer did not stop there. BlueSilverWave also wrote that "the hang-on parts are generally relatively poorly performing on their own. They can't touch our structural or powertrain durability tests." They also said that rate and handling are bad, ergonomics fails to meet package targets, and that noise, vibration, and harshness (NVH) level is poor, as well as sound quality. The engineer joked that "we pay JD Power far too much to find out just how bad the quality numbers are (hilariously bad)."
Photo: Ryan Zohoury
The engineer's conclusion was that "Teslas just aren't very good" and that "it really makes you question the customer sometimes." BlueSilverWave added that "Musk's genius is in two very closely related areas: getting investors to give him an unlimited checkbook" and "getting customers to believe they're doing something new, novel, and important, in a way that lets him walk past screwing up things that legacy players get right as an inevitability."
We can't say customers miss that. It is more likely that they prefer to oversee the flaws. I wrote in 2020 about a Tesla fan who said the company sold prototypes, not production vehicles. Ironically, Pete Gruber confirmed in 2021 that this was probably the case with the Roadster, considering how many design flaws the car presented. Buyer complaints are also increasing as Tesla reaches regular customers instead of its own advocates and investors.
Photo: 057 Technology
If that was not enough, a recent article from Fast Company said the Cybertruck would face several issues in reaching production because of its flat body panels. If you use regular steel to obtain stamped parts, they have to present curves to retain their shape and avoid vibration. Adrian Clarke said the Cybertruck body panels were prone to that, which causes discomfort to occupants and may also bring constructive issues, such as loosening bolts. The problem with the professional car designer's observations is that the Cybertruck adopts a thick stainless steel that cannot be stamped. It may only be folded, creating the first difficulty in manufacturing this vehicle. It may be the case that this harder stainless steel does not vibrate as much as regular steel.
Photo: Nick Thomas
Lately, we have been hearing that Tesla is giving signs that deliveries for its electric unibody pickup truck are close. The BEV maker closed its Kato Road battery manufacturing facility and excluded the Model Y with 4680 cells from its website. That would be a sign that it would focus on making the Cybertruck. Another one is that some reservation holders are not able to edit configurations anymore. What if it is the other way around and production has been delayed (again)? We'll only know for sure when Tesla sets a delivery date. Even if it is confirmed, Tesla may have decided to deliver prototypes that comply with regulations which is pretty weird. Its engineering should still be under scrutiny perhaps more visibly than ever as Musk's concerns about sub-10-micron tolerances demonstrate.
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Tesla's Engineering Under Scrutiny Because of the Cybertruck and Alleged Teardowns - autoevolution
Steensma named Royal Academy of Engineering Visiting Professor … – Washington University in St. Louis
Joe Steensma, a professor of practice at the Brown School at Washington University in St. Louis, has been named a Royal Academy of Engineering Visiting Professor at The Engineering & Design Institute London (TEDI).
The professorship is part of the Royal Academy of Engineerings visiting professorship initiative, which aims to enhance the learning experience of U.K. engineering students through providing them with additional mentorship and industry networking opportunities, as well as through the development of innovative engineering curricula.
Steensma will spend about 30 days a year for the next three years supporting TEDI-London through programming, events and expertise.
A scientist and entrepreneur who has founded and led several businesses focused on public health, Steensma joined the faculty at the Brown School to help commercialize some of the innovative products and services the school has developed. He teaches classes in biostatistics, environmental health and the public health implications of climate change.
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Missouri S&T Springfield engineering professor honored with ASEE … – Missouri S&T News and Research
SPRINGFIELD, Mo. Since Missouri S&T began a cooperative engineering program with Missouri State University in Springfield, Missouri, in 2008, the programs faculty members have regularly been recognized for excellence.
Earlier this month, Dr. Rohit Dua, an associate teaching professor of electrical and computer engineering, was awarded the American Society for Engineering Education (ASEE) Midwest Sections Outstanding Service Award.
This is a special award for me to receive, Dua says. I am happy to serve our profession in a variety of ways, and it means a lot to have my peers recognize me for my efforts.
Dua also received this award in 2018. He has been an active member of ASEE since 2014 and has served as program chair for the ASEE Midwest Section annual conference for the past two years. He is slated to hold this position for the 2024 conference as well.
The ASEE Midwest Section includes members from Missouri, Arkansas, Kansas, Nebraska and Oklahoma.
In addition to his service directly to ASEE, Dua also coordinates engineering outreach events for K-12 students.
We have a laboratory set up to teach middle- and high-school students some basic engineering and electrical principles, he says. After taking part in these activities, I have seen some of these same students be successful in the cooperative engineering program. It is incredible to inspire these young students and see their reactions when learning about engineering.
Dua says the cooperative engineering program is unique in that most of the students are from Southwest Missouri, and this allows them to remain in the area instead of moving to Rolla.
Students complete their engineering courses through S&T at the Robert W. Plaster Free Enterprise Center in downtown Springfield and take their other courses through Missouri State University. Their engineering degree is awarded from Missouri S&T.
Missouri S&T is the best engineering school in the state, he says. In Springfield, we have excellent Missouri S&T faculty members and laboratories. This is a fantastic resource for Southwest Missouri.
Students can earn degrees in electrical engineering, civil engineering or mechanical engineering, he says. They also have several paid internship opportunities available, as well as research opportunities. Dua regularly supports students as part of the universitys Opportunities for Undergraduate Research Experience program.
Dua has been a member of the Springfield faculty since 2010. Prior to that, he was an assistant professor at New York Institute of Technology. He earned a Ph.D. in electrical engineering from Missouri S&T in 2006 and a bachelors degree in electrical engineering from Pune University in India.
He has won multiple awards from Missouri S&T and MSU for his project-based teaching style, including both Missouri S&Ts Faculty Achievement Award and Experiential Learning Award, as well the Teaching Award for Excellence in High-Impact Practices awarded by MSUs Faculty Center for Teaching and Learning.For more information about the Cooperative Engineering Program, visit missouristate.edu/EGR.
Missouri University of Science and Technology (Missouri S&T) is a STEM-focused research university of over 7,000 students. Part of the four-campus University of Missouri System and located in Rolla, Missouri, Missouri S&T offers 101 degrees in 40 areas of study and is among the nations top 10 universities for return on investment, according to Business Insider. For more information about Missouri S&T, visit http://www.mst.edu.
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KU offers new cybersecurity engineering degree | The University of … – KU Today
LAWRENCE A new engineering degree program at the University of Kansas will send students into the cybersecurity market armed with tools to create programs and systems that protect the worlds most critical assets from hacking, ransomware and other immensely disruptive crimes and mischief generated during the digital age.
The Bachelor of Science in Cybersecurity Engineering, approved this summer by the Kansas Board of Regents, is available through the Department of Electrical Engineering & Computer Science. Students completing the required 126 credit hours including 30 hours of math and science will be equipped to protect data, computer systems and networks from unauthorized access and destruction involving government entities, health institutions, banking, e-commerce, academia and more.
While dozens of schools across the country offer cybersecurity degrees of one kind or another, the inclusion of the word engineering in the title of KUs program means it is grounded in the calculus-based engineering that makes it all work, said Erik Perrins, professor and chair of the electrical engineering & computer science department. While other degree programs train students to implement cyber protections, graduates of KUs engineering-based program will be creating the actual protections themselves.
This degree focuses on what engineers focus on, which is design, Perrins said. Right now, in the company where you work, someone takes a cybersecurity product off the shelf and puts it to use. What we do is different. We create the cybersecurity technology and dont just deploy it.
The program is designed to meet standards of the Engineering Accreditation Commission of the Accreditation Board of Engineering and Technology (ABET). It would be the fourth such engineering program to be accredited.
The program also is aligned with standards from the National Security Agencys National Center of Academic Excellence in Cyber Defense Education and the National Center for Excellence in Cyber Research. For its existing programs, KU is one of 45 academic institutions nationwide to already hold both designations.
The Department of Electrical Engineering & Computer Science is experienced in cyber education, offering an undergraduate certificate in cybersecurity since spring 2020. A dozen students have received certificates, and an additional 43 were pursuing the certificate in spring 2023.
The department also is making another change this year, this one involving terminology: The Interdisciplinary Computing program is now known as Applied Computing. The popular program combines a background in computing with education in other professional disciplines astronomy, biology, chemistry, journalism, economics and financial technology among them to address real-world market needs.
The change is akin to a file name reboot, one intended to help students innovative and ever-applicable degrees translate more clearly with HR departments and hiring managers.
Applied Computing is just more user-friendly, Perrins said.
Photo:HackKU is an annual 36-hour hackathon at the University of Kansas School of Engineering, where students can have the opportunity to innovate new ideas, discover different paths, and push the boundaries of technology. File photo, 2020, from KU Marketing.
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KU offers new cybersecurity engineering degree | The University of ... - KU Today
CWI partners with Idaho Power and POWER Engineering to prepare students in the energy field – KTVB.com
BOISE, Idaho The College of Western Idaho announced a partnership with Idaho Power and POWER Engineers last week to help create a new initiative underway preparing students for careers in the energy field.
Students from CWI showed up to the old power plant south of Kuna on Tuesday to get hands-on experience in the field and career guidance from industry professionals. Industry experts from Idaho Power and POWER Engineers gave students insight into the tools they need to stand out in the job market.
Both companies helped the students review their resumes and prepare for interviews. After, the students had the opportunity to tour the Swan Falls Dam, which Idaho Power operates. And students also saw how Idaho Power uses drones to survey power lines and construction projects.
Idaho Power said this partnership is a great opportunity for the students and the company.
"It's a great opportunity for them to see what it's really like, but it's also a great opportunity for us to see and evaluate these students as is this somebody who we would want to come in and work for us," said Brett Dumas, Director of Environmental Affairs for Idaho Power.
This event also allowed Idaho Power to showcase other aspects of the company, where they brought in a 35-year-old golden eagle to help them explain their work to protect the raptors in the Morley Nelson birds of prey area.
"It's like the best part about these labs is we get to go off-site and get the experience, see what people in the actual field are doing," said Hannah Kopp, a sophomore majoring in biology natural resources at CWI. "So that's a pretty big advantage that we have."
POWER Engineering and Idaho Power have partnered with CWI before, donating $6,000 for virtual reality headsets and drones to help students get hands-on experience with emergency technology.
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Agonafer named honorary member of ASME – News Center – The … – uta.edu
Tuesday, Sep 26, 2023 Herb Booth : contact
The American Society of Mechanical Engineers (ASME) has named Dereje Agonafer, presidential distinguished professor in the Department of Mechanical and Aerospace Engineering at The University of Texas at Arlington, as an honorary member.
I am humbled to be named an honorary member, Agonafer said. It is in the upper echelon of ASME awards. Im thankful to everyone involved who has gotten me to this point in my career, but especially the students I have had the privilege of mentoring.
Honorary membership is awarded by the ASME Board of Governors to as many as five corporate members of the society each year for a lifetime of distinguished service that contributes significantly to the attainment of goals of the engineering profession.
Agonafer will be recognized at ASMEs International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems (InterPACK) next month.
Agonafer was elected to the prestigious National Academy of Engineering in 2019. In addition, he is a life fellow of ASME and the National Academy of Inventors, a fellow of the American Association of the Advancement of Science, past chair of ASME InterPACK and has served as UTA ASME faculty adviser for more than 20 years.
He heads two centers at UTA, serving as site director of the National Science Foundation (NSF)-funded Industry-University Cooperative Research Center in Energy-Efficient Systems and director of the Electronics, MEMS and Nanoelectronics Systems Packaging Center.
His current primary research areas are in energy efficiency of data centers and electronic packaging, including work on a new center on thermal and mechanical challenges in heterogeneous integration packaging.
Agonafer has received funding from various industry sources, including CoolIT, Fabric8Labs, Google, Honeywell, Intel, Lockheed Martin, Mestex, META, Microsoft, NVIDIA, silent-aire, and Vertiv, and from government agencies, including the NSF, the U.S. Nuclear Regulatory Commission and the Advanced Research Projects Agency-Energy of the U.S. Department of Energy.
Since joining academia, Agonafer has advised 256 graduate students, including 34 doctoral candidates, and currently advises 15 doctoral and several masters candidates.
He has won numerous awards, including a Lifetime Achievement Award from the SEMI-THERM Educational Foundation Thermal Hall of Fame, a 2019 ASME Heat Transfer Memorial Award, 2014 IEEE ITHERM Achievement Award, 2009 ASME InterPACK Achievement Award and the 2014 Golden Torch Award from the National Society of Black Engineers.
In March 2020, he received the Howard University Alumni Award at the 153rd Charter Day. While at IBM, he received the IBM Outstanding Technical Achievement Award in Appreciation for Computer-Aided Thermal Modeling. Also at IBM, he was awarded the United Negro College Meritorious Service Award for organizing a fundraising effort that included a significant match from IBM.
Agonafer earned a Bachelor of Science degree in aerospace engineering from University of Colorado, and masters and doctoral degrees in mechanical engineering from Howard University.
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Agonafer named honorary member of ASME - News Center - The ... - uta.edu
Architectural Engineering and Construction Market 2023: Business Expansion, Latest Research with SWOT Analysis | 2030 – Yahoo Finance
Absolute Reports Pvt Ltd
Pune, Sept. 26, 2023 (GLOBE NEWSWIRE) -- The Global Architectural Engineering and Construction Market Research Report 2023-2030 provides a thorough analysis of the competitive landscape of Top Manufacturers [Dassault Systemes, Aveva Group Plc, Nemetschek, Innovaya, Newforma, Trimble, Inc, Hexagon AB], as well as development drivers and restraints. The research offers in-depth and qualitative insights on cutting-edge corporate growth plans, macroeconomic and microeconomic variables, assessing trends, and financial statements of major companies.
Also included in the Architectural Engineering and Construction market study are detailed industry segments by Type [Software, Service] and Applications [Large enterprises, Small and Medium-sized Enterprises (SMEs)] with segmentation analysis, CAGR status, growth revenue information, and projections of industry size and share.
Who is the Largest Player of Architectural Engineering and Construction Market worldwide?
Dassault Systemes
Aveva Group Plc
Nemetschek
Innovaya,
Newforma
Trimble, Inc
Hexagon AB
Autodesk Inc.
Bentley System, Inc
Ansys Incorporated
Get a sample PDF of the report at -https://www.absolutereports.com/enquiry/request-sample/23065827
What is Market Insights and Analysis?
Market Overview of Global Architectural Engineering and Construction market:According to our latest research, the global Architectural Engineering and Construction market looks promising in the next 5 years. As of 2022, the global Architectural Engineering and Construction market was estimated at USD million, and its anticipated to reach USD million in 2028, with a growing CAGR during the forecast years.AEC solutions include both software and services used for the construction of large and complex residential, industrial, and commercial buildings. The solution includes features such as designing, building, operations, and management. The end-users of AEC solutions include architects, engineers, and contractors.
Story continues
The competitive landscape analysis encompasses a thorough examination of key players operating in the market. It assesses their market presence, product offerings, strategic initiatives, and growth trajectories. This analysis empowers businesses with valuable insights to make informed decisions, adapt to market trends, and devise effective strategies to maintain a competitive edge in the dynamic industry landscape.
What are the factors driving the growth of the Architectural Engineering and Construction Market?
Growing demand for below applications around the world has had a direct impact on the growth of the Architectural Engineering and Construction
What are the types of Architectural Engineering and Construction available in the Market?
Based on Product Types the Market is categorized into Below types that held the largest Architectural Engineering and Construction market share In 2023.
Regional Outlook:
North America (United States, Canada and Mexico)
Europe (Germany, UK, France, Italy, Russia and Turkey etc.)
Asia-Pacific (China, Japan, Korea, India, Australia, Indonesia, Thailand, Philippines, Malaysia and Vietnam)
South America (Brazil, Argentina, Columbia etc.)
Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)
Inquire or Share Your Questions If Any Before the Purchasing This Report -https://www.absolutereports.com/enquiry/pre-order-enquiry/23065827
Following Key Questions Covered in this Report:
What is the Current Market Size and Growth Rate of the Architectural Engineering and Construction Market?
What are the Key Trends and Developments Shaping the Architectural Engineering and Construction Market?
What are the Main Drivers and Restraints Affecting the Growth of the Architectural Engineering and Construction Market?
How is the Architectural Engineering and Construction Market Segmented by Manufacturers, Types, Applications, and Regions?
Who are the Major Players in the Architectural Engineering and Construction Market and What are Their Strategies?
What is the Competitive Landscape and Market Share of Different Companies?
What are the Future Growth Prospects and Opportunities in the Architectural Engineering and Construction Market?
What are the Industry Challenges and Potential Mitigation Strategies?
How is Consumer Behavior Impacting Demand Patterns in the Architectural Engineering and Construction Market?
What is the Impact of Regulatory Policies on the Architectural Engineering and Construction Market?
What are the Technological Innovations and Advancements in the Architectural Engineering and Construction Industry?
What is the Forecasted Market Growth Rate and Potential Size in the Coming Years?
What are the Key Market Entry Barriers and How Can They Be Overcome?
What is the Impact of External Factors, such as COVID-19, on the Architectural Engineering and Construction Market?
What are the Evolving Customer Preferences and Their Impact on the Market?
Covid-19 Impact on Architectural Engineering and Construction Market:
The unprecedented outbreak of the Covid-19 pandemic has reverberated across industries worldwide, ushering in a period of profound transformation. The landscape of businesses and markets has been reshaped as supply chains were disrupted, consumer behaviors shifted, and economies faced unforeseen challenges. Comprehensive research on the Covid-19 impact on various industries has become imperative to understand the extent of its influence, ranging from disruptions in production and distribution to changes in demand patterns and workforce dynamics. This research delves into the multifaceted repercussions, offering insights into strategies for resilience, adaptation, and recovery. It sheds light on the evolving paradigms within industries, providing a roadmap for stakeholders to navigate these uncertain times with informed decisions and strategic responses.
Important Features that are under Offering and Key Highlights of the Reports:
Architectural Engineering and Construction Market size, share assessments for the regional and country level segments.
market Trends, Drivers, Constraints, Growth Opportunities, Threats, Challenges, Investment Opportunities, and recommendations.
Architectural Engineering and Construction Market forecasts along with historical data of all the mentioned segments, sub segments and the regional markets.
Competitive landscaping mapping the key trends.
Major company profiling with their detailed strategies, financials, and recent developments.
Strategic recommendations for the new companies and start-ups.
Supply chain trends mapping the latest technological advancements.
Strategic recommendations in business segments based on the market estimations.
To Understand How Covid-19 Impact Is Covered in This Report-https://absolutereports.com/enquiry/request-covid19/23065827
Detailed TOC of Architectural Engineering and Construction Market Research Report:
1 Architectural Engineering and Construction Market Overview
1.1 Product Overview and Scope of Architectural Engineering and Construction Market
1.2 Architectural Engineering and Construction Market Segment by Type
1.3 Global Architectural Engineering and Construction Market Segment by Application
1.4 Global Architectural Engineering and Construction Market, Region Wise (2017-2029)
1.5 Global Market Size (Revenue) of Architectural Engineering and Construction (2017-2029)
1.5.1 Global Architectural Engineering and Construction Market Revenue Status and Outlook (2017-2029)
1.5.2 Global Architectural Engineering and Construction Market Sales Status and Outlook (2017-2029)
1.6 Influence of Regional Conflicts on the Architectural Engineering and Construction Industry
1.7 Impact of Carbon Neutrality on the Architectural Engineering and Construction Industry
2 Architectural Engineering and Construction Market Upstream and Downstream Analysis
2.1 Architectural Engineering and Construction Industrial Chain Analysis
2.2 Key Raw Materials Suppliers and Price Analysis
2.3 Key Raw Materials Supply and Demand Analysis
2.4 Market Concentration Rate of Raw Materials
2.5 Manufacturing Process Analysis
2.6 Manufacturing Cost Structure Analysis
2.6.1 Labor Cost Analysis
2.6.2 Energy Costs Analysis
2.6.3 R&D Costs Analysis
2.7 Major Downstream Buyers of Architectural Engineering and Construction Analysis
2.8 Impact of COVID-19 on the Industry Upstream and Downstream
3 Players Profiles
4 Global Architectural Engineering and Construction Market Landscape by Player
4.1 Global Architectural Engineering and Construction Sales and Share by Player (2017-2022)
4.2 Global Architectural Engineering and Construction Revenue and Market Share by Player (2017-2022)
4.3 Global Architectural Engineering and Construction Average Price by Player (2017-2022)
4.4 Global Architectural Engineering and Construction Gross Margin by Player (2017-2022)
4.5 Architectural Engineering and Construction Market Competitive Situation and Trends
4.5.1 Architectural Engineering and Construction Market Concentration Rate
4.5.2 Architectural Engineering and Construction Market Share of Top 3 and Top 6 Players
4.5.3 Mergers & Acquisitions, Expansion
5 Global Architectural Engineering and Construction Sales, Revenue, Price Trend by Type
5.1 Global Architectural Engineering and Construction Sales and Market Share by Type (2017-2022)
5.2 Global Architectural Engineering and Construction Revenue and Market Share by Type (2017-2022)
5.3 Global Architectural Engineering and Construction Price by Type (2017-2022)
5.4 Global Architectural Engineering and Construction Sales, Revenue and Growth Rate by Type (2017-2022)
6 Global Architectural Engineering and Construction Market Analysis by Application
6.1 Global Architectural Engineering and Construction Consumption and Market Share by Application (2017-2022)
6.2 Global Architectural Engineering and Construction Consumption Revenue and Market Share by Application (2017-2022)
6.3 Global Architectural Engineering and Construction Consumption and Growth Rate by Application (2017-2022)
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Mech Eng module on EDI in Engineering presented at international conference – Imperial College London
Earlier this month, a Mech Eng delegation attended the 25th International Conference on Engineering and Product Design Education in Barcelona.
Alumni Asad Raja wrote an article summarising the experience:
What is engineering, and what is design? A few factors have made me ponder that question in the past couple of years, from experiencing the industry first hand upon graduating, to the general heightened emphasis upon generative design. Most of all, the question was stimulated by the passion-driven journey fellow alumni Angela Sun, Pallavi Ojha and I have been on, of proposing a module on Equality, Diversity + Inclusion in Engineering for the Mechanical Engineering course at Imperial, which now forms an accredited part of the degree, led by Chloe Agg. Earlier this month, we presented a paper on the experience of student-staff co-creation to develop the module at the 25th International Conference on Engineering and Product Design Education in Barcelona.
The conference, themed 'Responsible Innovation for Global Cohabitation', kicked off with workshops on day one to foster relevant discussions. Brainstorming the causes of exclusivity in collaborative design practices related to key themes of people, process, technology, culture, environment, and management proved cathartic whilst demonstrating the size of the challenges. A common thread that emerged was that of management incentive, from revenue driven decision making to criteria for academic appraisals. The conference featured two thought-provoking keynote speeches. Clara Guasch Sastre emphasised the need to marry more sensitive design ideals such as agency, empathy, and democracy with more propelling ideals such as scale, persuasion, and vision. John Thackara stressed practical steps to realise a sustainable future, starting with an appreciation for the complexity and beauty to be found in the ground beneath our feet. Around 125 papers were presented at the conference. Of the ones I attended, A Toolbox for Addressing Shame in Design Projects presented by June Trondsen stuck with me for its consideration of how we probe underexplored, taboo-prone user insights relevant to design, which would likely not be captured through traditional methods of inquiry.
Attending the conference brought into focus a conclusion that I suppose has always been obvious to me: engineering and design is whatever engineers and designers choose to teach and practice. To paraphrase Mos Def: People talk about design like it's some giant livin' in the hillside / Comin' down to visit the townspeople / We are design / Me, you, everybody, we are design. I used the word design there as its more palpable, but I think its equivalently relevant for engineering, despite the more rigid notions maintained by the tradition-inclined majority, whether researchers, students or industry practitioners, as evidenced in representation statistics.
The fact is, engineering without context is bad engineering. What the EDI in Engineering module emphasises is that responding to this context with broad assumptions and safety factors is insufficient. Instead, engineers should engage with context from a global and empathy-led perspective; being a good engineer therefore means developing an appreciation for equality, diversity and inclusion issues that present barriers to such perspectives, championing initiatives that attempt to challenge norms and remove these barriers. Our paper for the E+PDE conference recounting the experience of creating the module can be found here, and more details of the module proposal itself can be found here."
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Engineering firm expands presence in Louisiana – New Orleans CityBusiness
Photo courtesy DepositPhotos.
CDI Engineering Solutions, an engineering, procurement, and construction management firm focused on serving the energy and chemicals industries, has announced the grand opening of its new, larger office in the Lake Charles area. This expansion reflects the companys commitment to better serve and support its clients in the region and marks an exciting milestone in its continued growth, a news release reads.
The new office, located at 1633 Beglis Parkway, has increased workspace to accommodate CDIs growing team of engineering, design, and project management professionals. This strategic move further strengthens the companys local presence and meets the rising demand for capital project solutions in Lake Charles and surrounding areas, the news release states.
With this expanded facility, CDI Engineering Solutions is better positioned to provide unmatched engineering expertise and support to our valued clients in Lake Charles. We are proud to invest in this community and look forward to working closely with local industries to deliver first-class and fit-for-purpose engineering solutions, Matt Rouse, vice president of Louisiana Operations of CDI Engineering Solutions, said in a news release.
The ribbon-cutting ceremony for the new office will take place on September 28.
We believe that this expansion will not only bolster our ability to support our existing clients but also open up new opportunities for collaboration with local businesses in the industry to help grow the community residing here, Rouse said.
For more information visit http://www.cdiengineeringsolutions.com.
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Engineering firm expands presence in Louisiana - New Orleans CityBusiness
Course teaches engineering through brewing coffee – Elko Daily Free Press
A Q&A about the Design of Coffee college engineering course
The Design of Coffee: An Introduction to Chemical Engineering
What prompted the idea for the course?
In 2012, my colleague professor Tonya Kuhl and I were drinking coffee and brainstorming how to improve our senior-level laboratory course in chemical engineering. Tonya looked at her coffee and suggested, How about we have the students reverse-engineer a Mr. Coffee drip brewer to see how it works?
A light bulb went off in my head, and I said, Why not make a whole course about coffee to introduce lots of students to chemical engineering?
And thats what we did. We developed The Design of Coffee as a freshman seminar for 18 students in 2013, and, since then, the course has grown to over 2,000 general education students per year at the University of California, Davis.
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What does the course explore?
The course focus is hands-on experiments with roasting, brewing and tasting in our coffee lab.
For example, students measure the energy they use while roasting to illustrate the law of conservation of energy, they measure how the pH of the coffee changes after brewing to illustrate the kinetics of chemical reactions, and they measure how the total dissolved solids in the brewed coffee relates to time spent brewing to illustrate the principle of mass transfer.
The course culminates in an engineering design contest, where the students compete to make the best-tasting coffee using the least amount of energy. Its a classic engineering optimization problem, but one that is broadly accessible and tasty.
Why is this course relevant now?
Coffee plays a huge role in culture, diet and the U.S. and global economy. But historically, relatively little academic work has focused on coffee. There are entire academic programs on wine and beer at many major universities, but almost none on coffee.
The Design of Coffee helps fill a huge unmet demand because students are eager to learn about the beverage that they already enjoy. Perhaps most surprisingly, many of our students enter the course professing to hate coffee, but by the end of the course they are roasting and brewing their own coffee beans at home.
Whats a critical lesson from the course?
Many students are shocked to learn that black coffee can have fruity, floral or sweet flavors without adding any sugar or syrups. The most important lesson from the course is that engineering is really a quantitative way to think about problem-solving.
For example, if the problem to solve is make coffee taste sweet without adding sugar, then an engineering approach provides you with a tool set to tackle that problem quantitatively and rigorously.
What materials does the course feature?
Tonya and I originally self-published our lab manual, The Design of Coffee: An Engineering Approach, to keep prices low for our students.
Now in its third edition, it has sold more than 15,000 copies and has been translated to Spanish, with Korean and Indonesian translations on the way.
What will the course prepare students to do?
Years ago, a student in our class told the campus newspaper, I had no idea there was an engineering way to think about coffee! Our main goal is to teach students that there is an engineering way to think about anything.
The engineering skills and mindset we teach equally prepare students to design a multimillion-dollar biofuel refinery, a billion-dollar pharmaceutical production facility or, most challenging of all, a naturally sweet and delicious $3 cup of coffee. Our course is the first step in preparing students to tackle these problems, as well as new problems that no one has yet encountered.
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Course teaches engineering through brewing coffee - Elko Daily Free Press