Category Archives: Engineering
IAI adds to conversion deals with Etihad Engineering pact – Asian Aviation
Etihad Engineering has signed a strategic partnership with Israel Aerospace Industries (IAI), to provide Passenger to Freighter (P2F) conversions on Boeing 777-300ERs. In 2019, IAI and GE Capital Aviation Services (GECAS) announced the launch of the Boeing 777-300ERSF, a programme which established a P2F conversion dubbed The Big Twin denoting its status as the largest ever twin-engine freighter. While the COVID-19 pandemic has taken its toll on the aviation sector, cargo operations are offsetting operators losses, as it continues to play a critical role in facilitating international trade. As a result, industry forecasts show an increase in demand for wide-body freighter aircraft with long-haul capacity.
Etihad Engineering will capitalise on its expertise and extensive capabilities for the specialised Boeing 777-300ERSF conversion. In the initial stage of the partnership, Etihad Engineering will facilitate towards two conversion lines accommodating multiple aircraft conversions per year.
Tony Douglas, group chief executive officer, Etihad Aviation Group, said: The Boeing 777-300ERSF is not only extremely attractive to customers but a technological breakthrough, given that its the first in its size category to offer extensive cargo solutions. Not only do we see the demand, but we view it as a greener, more profitable, highly innovative solution for our airline customers, and an excellent way to drive value for our business.
Abdul Khaliq Saeed, CEO, Etihad Engineering, said, We are delighted to announce our partnership with IAI which maximises the potential of our highly skilled workforce and reinforces Etihad Engineerings position as a centre of excellence in Abu Dhabi in line with Abu Dhabis economic vision 2030. Our commitment to the P2F programme demonstrates our confidence in the ability of IAI to deliver long-term value enhancement of the B777-300ERs in the global fleet.
Boaz Levy, president and CEO, Israel Aerospace Industries, said The Abraham Accords have given IAI the opportunity to expand its global activity to the Gulf region. IAI is active in over 100 countries across the world. Establishing the conversion site in partnership with Etihad Engineering is a testament to IAIs strong ties with the UAE and strengthens its foothold in the region. I am confident that this agreement will lead to many more partnerships with local companies in the Gulf States, which will grow our business in the region.
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IAI adds to conversion deals with Etihad Engineering pact - Asian Aviation
How have engineering courses adapted to the pressing need for sustainability? Are we engineering a better world? – EdexLive
Not that we were on the lookout for any more distressing news, in what is already a world ravaged by the pandemic, but the IPCCs sixth Assessment Report basically doomed us to a bleak future thanks to human-induced climate change and global warming. For a planet crumbling under environmental and socio-economic distress caused by thoughtless exploitation of precious resources, it's (and it has been) high time for us to take corrective action.
And there's hope. Gen-Z is considered woke. This is a generation that has a Swedish schoolgirl as their spear against climate change. This is also the generation that might have the last shot at saving us from apocalypse at the hands of a climate catastrophe. You would think that when we have reached what scientists are calling a 'state of climate emergency', the youngsters who are supposed to salvage this situation for us, are being given the ammunition they need in their education and in the industry.
As we explore various streams in the field of engineering in this context, it is likely that the situation in classrooms right now varies by quite a degree. How are engineering colleges coping with the need for change? Are we up to speed on enabling students to lead environment-conscious, sustainable industries in the future? Where do we stand on the skill gap between traditional methods of teaching and new-age technology suited for building better ecosystems?
Stream: Civil Engineering
Green building, as a concept, has been around since the late 1990s, when sustainable methods were employed at every stage of construction to create a settlement in Germany. The Indian Green Building Council (IGBC) was established in 2001 to regulate construction in the country, and provide certifications for green construction. Its plan was to ensure 10 billion sqft of land in the country is covered by green buildings by the year 2022. In August 2020, the IGBC announced that it had achieved 75 per cent of that goal, with around 7.50 billion sqft of land covered by green buildings. Matrusri Engineering College, Hyderabad, Telangana, is a member of the IGBC, and Prof G Manohar from the Civil Engineering Department of the college seconds the Councils claim that India is a top-tier participant of the green buildings initiative. If we speak about the syllabus in particular, the last three years have brought a lot of changes. We have started following the AICTE-approved syllabus that makes ample space for concepts such as environmental engineering, green building technology and disaster management, says Prof Manohar.
Professors Sugandhini HK and Nagabhushan B from the Department of Civil Engineering at Manipal Institute of Technology say that the shift in the use of sustainable building practices has indeed brought changes to the syllabus being offered to the students. Changes were implemented in areas such as 'reuse, reduce and recycle' of construction and demolition waste, fly ash bricks, green cement and industrial by-products. Institutes like IGBC and Green Rating for Integrated Habitat Assessment (GRIHA) are playing a pivotal role in building technical capability in India, they say.
The challenge then lies in creating an ecosystem for implementing green building in the country. Although the IGBCs projects do invite some cheer, and reports also suggest that the impact is extending into the residential sector. Incorporating a system for rainwater harvesting is compulsory in the state of Tamil Nadu, and all across India, 18 lakh homes are said to have received the green building rating from IGBC.
The synergy between the industry and education needs to be bolstered, believe the professors. They suggest measures to improve production, marketability and availability of green building products, so that such construction can happen at a large scale to gain the trust of the public. Massive awareness and training of field engineers and personnel in contemporary construction practices should be encouraged by offering certificate courses or short-term training programmes, they add.
Prof Manohar sends across an important message when he states that the changes in the way teaching civil engineering is approached in the last few years has contributed to creating an ecosystem for students to be more conscious about the importance of green building. We started off by providing these concepts as electives, but this is the need of the hour, and it cant be left up to the interest of the students anymore, says the professor.
Stream: Mechanical and Electrical Engineering
The internal combustion engines have been around for almost 150 years now. They have evolved over the years, and exist now in the form that we see in any petrol or diesel motor today. The concept of electric vehicles has also been around since the mid-1800s. However, as the world dove headfirst into fossil fuel consumption, the efforts put into developing the alternative (electric and hybrid automobiles) simply couldnt keep pace. However, in the 1990s, awareness about the impact on the environment of carbon emissions from vehicles began making a mark on the public conscience, driving interest in the EV market once again.
Today, EVs are said to make up around 6-7 per cent of the total sales of vehicles. Start-ups have cropped up by the dozen across the EV ecosystem, and governments are providing subsidies aplenty to boost research and infrastructure. Research in the field is still required because the current system of using lithium-ion batteries might not be sustainable given it is not a readily available resource, says Prof G Madhumitha, Assistant Professor in Department of Mechatronics Engineering SRM Institute of Science and Technology, Chennai.
Mechatronics is a hybrid stream of engineering that combines mechanical and electrical engineering. The department was first introduced at SRM in 2008, and it is a branch that facilitates the study of relatively new technology such as Robotics, Artificial Intelligence and Electric Vehicles. The study of technology involving EVs doesnt inspire confidence at this point, however. Prof Madhumita says that at this current stage, the inclusion and basics of the concept are restricted to interested students delivering projects on the tech, participating in competitions, and such extra-curricular activities. What is so far taught in engineering is very specific to the branch. But specialising in one particular field will not serve the purpose when it comes to Electric Vehicles, says the professor, adding that integrated engineering and a multidisciplinary approach is required. Battery management is a challenge when it comes to EVs, and therefore, the basics of electrical engineering are also required. As a core discipline, so far, it has only been provided as an elective. Designing a new course like how Automobile Engineering emerged from the umbrella of Mechanical Engineering would probably serve the purpose better, she explains.
For EVs to be a mature technology, it might take a couple more decades. However, Prof Madhumita believes that the study in the subject is catching up at a decent enough pace. Syllabi are dynamic in engineering. They are changed every three to four years based upon regulations. Initially, lab courses and electives are given for emerging technologies, and that is where we are at right now with EVs. There is, however, good demand from the students, requesting a proper structure for study and development in EVs right now, the professor shares.
Stream: Chemical Engineering
The curriculums have to train students so that they are employable. They come here to be able to find work. It is incumbent upon us to make sure they are employable tomorrow, says Prof Subbu Raman, from the Chemical Engineering department of a premier engineering college in Hyderabad. Research for fossil fuel alternatives is neither new nor nascent, according to the professor. The richest countries in the world are those that hold crude oil reserves.
These are the countries ready with viable energy alternatives once their reserves run dry. And therefore there can be no paradigm shift away from fossil fuels in the curricula for the next couple of decades at least, the professor says, adding that we can rely on solar energy and hydrogen-based energy alternatives for now, which are already being taught to the students.
Prof Gautham Jeppu, a Chemical Engineering professor from Manipal Institute of Technology, Karnataka seems to hold a similar viewpoint that one simply cannot deny market realities. In India, 70 per cent of energy comes from coal, 10 per cent comes from hydroelectricity projects, six to seven per cent from renewable sources, and just about three percent from nuclear power. The economy runs on it, and we simply cannot stop, says Prof Gautham
A peek at the CE syllabus of another leading engineering institution from the South reveals this past vs present paradox. Process Integration For Petroleum Industries and Environmental Impact Assessment And Management Plan are listed one after another in the course structure. Prof Gautham says that at MIT, students are offered minor specialisation in two fields: Petroleum Engineering and Environmental Pollution Control. Theres probably 40 per cent of the students who opt for the latter, says Prof Gautham, emphasising the fact that the students are ready to learn.
Biofuels are being touted as an alternative to fossil fuels of late. In Europe, 50 per cent of the palm oil imports are for usage as biodiesel. However, both professors vehemently oppose the viability of this option. In order to produce one kg of oil, we need two to three kg of seeds. Plus, these crops have a long gestation period, and are likely to push countries into choosing between food and fuel cultivation, while depleting forest reserves, says Prof Gautham. Prof Subbu Raman adds that there is also the fact that biofuels do very little to help with the emissions, and simply burden the land. He cites hydrogen as a better alternative energy resource, while Prof Gautham, who is currently researching biogas himself, also believes in the efficiency of that technology, that will allow people to convert waste into fuel.
Stream: Agricultural Engineering
If you were to ask Dr GV Ramanjaneyulu, Director, Centre for Sustainable Agriculture, if the education in the stream has kept up with the need for upscaling and innovation, the short answer is, no. While we were a little taken aback by the prompt reply, Dr Raman goes on to explain that the agricultural education system in India is based on the land grant model of the United States. The government allots land to the university, which then works with the farmers to optimise technology for that particular area.
Dr Ramanjaneyulu says that the research system in this case was made accountable to the local farmers. In India, when this system was brought, the universities ended up copying the technologies that the US was developing. In the US, the average land area under cultivation is 100 hectares. In India, it is one hectare. Also, they have a shortage of labour, and they need large-scale machinery to make up for it. Shortage of labour was never an issue with India, he says.
The math definitely doesnt seem to add up. For Indias land size, smaller equipment that didnt consume too much power would have been ideal. The large equipment is contracting the land, he adds. They also contribute to the massive rates of pollution caused by burning stubs, because the harvesting systems simply arent made to clear out the crop in one go. There was also no focus in making chemicals relevant to the natural ecosystem here, claims Dr Ramanjaneyulu.
Also, India depends on its Monsoon heavily to irrigate the land. To support that, irrigation systems such as smaller water harvesting structures such as tanks and canals were required to increase the groundwater table, and instead, investment was pumped into large-scale dams, which environmentalists say has done more harm than good.
Irrigation-intensive agricultural systems are supported even now. Paddy gets subsidies, but millets don't. And there is a skewed bias towards certain technology. Households in Punjab and Haryana are in debt because of machines. Punjab has one of the lowest groundwater levels in the world, but we still don't move away from the wheat and rice system, says he says, calling it an institutional failure of the education system and public policy.
Feedback system has failed. We fail to consider what might work for the farmers and what doesnt because those who study Agricultural Engineering merely sell the technology to the farmers. They are unaware of the implications and ground realities, he says, rueing the resistance from agricultural universities in changing that.
If technological development in agriculture in India requires a rehash of the past, then what do we make of the current trends in farming such as organic and hydroponics? Dr Ramanjaneyulu believes that organic farming systems were developed by the farmers of India, with very little inputs from the universities. And hydroponics, he believes, are not exactly required or suited to the ecosystem of the country. While such methods have been gaining ground in the urban landscape, they have very little application in the larger agricultural sector.
So what next? Take away the monopoly of the Indian Council of Agricultural Research in education, and make it more open source, inviting feedback and knowledge from the farmers themselves, says Dr Raman.
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Quest Engineering to break ground this week on new $14 million facility in Village of Richfield – washingtoncountyinsider.com
August 23, 2021 Village of Richfield, WI Quest Engineering is scheduled to break ground this week on a new 100,000-square-foot facility on 10.5 acres at Richfield Parkway and Endeavor Drive in the Village of Richfield.During a meeting August 19, 2021 the Village Board in Richfield voted unanimously to approve industrial development revenue bonds not to exceed $10 million to help finance the project.
Quest Engineering, currently headquartered on Helsan Drive in Richfield, is a family-owned wood products and custom cabinetry manufacturer thats been around for 20 years. It currently employs 44 people full time and operates out of four different facilities in Richfield and Jackson.
The new facility would act as a state-of-the-art manufacturing headquarters and office space and it would help serve the companys growth. The other sites would be consolidated so the business can run its office and manufacturing out of one location.
We should break ground next week, August 23, 2021, said Kris Aubrey with Quest Engineering management group. Construction is expected to take between six to nine months. We liked this spot because of its access to I41 to help with shipping and receiving.
It was March 2021 when representatives from Quest Engineering went before the Richfield Plan Commission with a design proposal.
On Thursday after closed session the Village Board approved the Developer Agreement with Quest.
On Thursday the Village Board also approved to limit parking on both sides of Pleasant Hill Road just east of STH 164. Village Administrator Jim Healy said the parking restrictions would run 500 feet east of STH 164. The new Pleasant Hill Pub & Grill has expanded its parking lotand there will be parking across the street.
The Village indicated the restrictions were implemented for safety reasons. One neighbor spoke Thursday night encouraging the board to restrict the parking because some of the people who park along the road use his property as a way to relieve themselves before getting in their vehicles to drive home.
The board also took no public action with respect to a proposal to sign a sewer/water agreement with the Village of Germantown. Click HERE to read about the issue discussed in closed session.
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Broadband engineering study will be Caribou’s first ARP-funded project – The County
The city of Caribou is funding an engineering study in its Business Investment Groups years-long effort to bring broadband to every building in the city.
CARIBOU, Maine The city of Caribou is funding an engineering study in its Business Investment Groups years-long effort to bring broadband to every building in the city.
The project will examine the costs and potential strategies for rewiring the city with dark fiber, fiber optic cable that carries internet into homes and businesses.
Caribou, like the rest of Aroostook County, is underserved by broadband infrastructure. Those who can get on the internet often report slow speeds and unreliable connections, especially in the more remote parts of the city.
At an Aug. 9 meeting, city councilors unanimously approved a $159,000 expenditure from Caribous American Rescue Plan funds to fund the study. The city has roughly $801,892 in total funds from this plan. The federal government has marked these funds predominantly for infrastructure projects, including broadband.
Because the state has not yet made ARP funds available to municipalities, the city council brokered a three-way deal with the Business Investment Group and the Community Economic Growth Council. The latter group, which has access to more liquid financial resources, will lend the $159,000 to the investment group, and then the city will pay the economic growth council back with ARP funds.
Rather than wait for the ARP funds to come in, the deal allows the Business Investment Group to start the project with its partner, Pioneer Broadband, much sooner. The groups liaison at Pioneer is retiring in the coming weeks, and it wanted to do the study before then.
Pioneer Broadband will conduct the engineering study to evaluate the roughly 5,000 homes, apartments and businesses in Caribou and determine which buildings need to be wired for broadband.
The company will calculate the size and quantity of cable needed as well as specifications for the ancillary equipment: server buildings and utility poles, for example. The survey is just the first step in the process, and afterwards the city will need to secure funds for the fiber, equipment and construction itself.
Past fiber-optic projects in Caribou failed before the city council. In 2016, the council denied a proposal from a different committee for the city to own and maintain a fiber network, and to act as the internet service provider for all residents, Swanberg said. The new dark fiber project focuses on installing the infrastructure, but private internet providers like Spectrum and Verizon would be contracted to get residents online.
This is a good thing moving forward, Mayor Jody Smith said. A lot of the money from the relief program is for broadband. Were just trying to be ahead on it.
The Business Investment Group has been working on the project for three years, but the last year has thrown the need for better internet in Caribou into sharp relief as residents began to work, attend appointments and connect with family primarily online.
COVID has identified areas of peoples lives where there is a need for broadband today, chairman of the Business Investment Group John Swanberg said. That need is only going to increase each year as time goes by. If we fail as a community to get it installed for every citizen to use, and other areas of the state are successful, our community becomes less and less desirable.
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Broadband engineering study will be Caribou's first ARP-funded project - The County
Shifting the solar paradigm – Temple Universirty College of Engineering
How one researcher's solar research seeks to support the power grid.
To some, the phrase solar power is an oxymoron at worst or a big ask, at best. How can science expect to harness sunlight to become a key player in the global sustainability matrix, nudging past non-renewable energy sources such as fossil fuels? Sometimes, engineering can be aided by a sense of service with a healthy dash of audacity. Maybe that is necessary.
When speaking with Dr. Xiaonan Lu and his student and postdoc researchers in his Advanced Power Electronics (APECS) group, the sense of purpose is pervasive. In particular, when speaking about a recent award from the U.S. Department of Energy'sSolar Energy Technologies Office as part of a $130 million round of funding to boost solar energy solutions.
"The goal of this project is to advance the state-of-the-art power electronic inverter control for renewable energy grid integration, with special emphasis on how conventionalgrid-followingrenewable energy resources actively establish grid frequency and voltage asgrid-forminggeneration units," Dr. Lu said. "This is a paradigm shift in the area of grid-interactive renewable energy integration."
Dr. Lu rightly adds that sustainability is a big concept, and this research contributes from the perspectives of power electronics and power systems.
"Particularly, towards modernized power grids," Dr. Lu said, adding the need to "accommodate a mixed portfolio of inverter-based resources (i.e., renewable energy resources, such as solar and wind) and conventional rotating generation units (i.e., traditional synchronous generators). More importantly, with the increasing penetration of inverter-based resources, we can contribute to the decarbonization of modern power systems by reducing the carbon emission from traditional generators, and therefore contribute to the larger picture of grid sustainability."
Put another way: less reliance on harmful fossil fuels and a more diverse sustainability portfolio. This is particularly telling recently, not only given continued power issues and outages across the country, but also considering the economic and security implications of outmoded power grids.
The project is a joint effort between Dr. Lu's team and National Renewable Energy Laboratory, as well as a diversified group of partners from industry and academia.
Dr. Lu was originally drawn to sustainability research while working as a transfer Ph.D. student in Denmark.
"I got a chance to see what renewable or clean energy can offer to us without jeopardizing the requirements of reliable and efficient power generation," he said.
Now, with this work, he is taking a similar approach with his own APECS group, which he described as a team-oriented research group.
"I ask all my students and postdocs to join the field-oriented projects. They participated in the phases of both theoretical analysis and laboratory-scale or even field testing," Dr. Lu said. "It is valuable for them to gain some real experience and knowledge towards the actual deployment of the technical solutions we develop together.
"I am the first generation in my family tonotserve in the US armed forces, so I feel a sense of duty to my country and the planet in that way," Elliott Fix, one of the Ph.D. student researchers working under Dr. Lu. "I'm proud to have worked for various government agencies to combat climate change."
Lizhi Ding, another Ph.D. student researcher, and Yuhua Du, a postdoc researcher, (both pictured with Dr. Lu) who both workin the APECS group under Dr. Lu, likened themselves to "revolutionaries" and embraced clean energy technologies even when they were young.
"When I was an undergraduate student, I was told that the current energy systems are built around fossil fuels with finite reserves, and they could be ultimately replaced by renewable energy," Yuxi Men, another Ph.D. student under Dr. Lu said. "It feels pretty cool to be a part of studying renewable energy now."
Learn more about the work of the APECS group athttps://sites.temple.edu/ecexiaonanlu.
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Shifting the solar paradigm - Temple Universirty College of Engineering
Sadbhav Engineering reports consolidated net loss of Rs 109.69 crore in the June 2021 quarter – Business Standard
Sales rise 3.69% to Rs 397.81 crore
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First Published: Sat, August 14 2021. 17:05 IST
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Design innovation and engineering brilliance at the heart of new Automobili Pininfarina and Bovet 1822 partnership – Automotive World
Today, a new chapter in the history of BOVET 1822 and Pininfarina is being written with the announcement of the partnership between BOVET 1822 and Automobili Pininfarina, celebrating the creation of the first automobile designed and completely assembled in Cambiano the exquisite new Battista pure-electric hyper GT
Today, a new chapter in the history of BOVET 1822 and Pininfarina is being written with the announcement of the partnership between BOVET 1822 and Automobili Pininfarina, celebrating the creation of the first automobile designed and completely assembled in Cambiano the exquisite new Battista pure-electric hyper GT.
The new collaboration was officially launched at an exclusive event at Monterey Car Week in California and will see a unique new timepiece revealed later this year.
Automobili Pininfarina is taking the next step to delivering its pioneering pure-electric hyper GT at Monterey Car Week, where the first production-spec example made its world premiere, alongside the US debut of the exclusive Battista Anniversario.
Per Svantesson, Automobili Pininfarina CEO, said:In creating Battista, Automobili Pininfarina established itself as the worlds first pure-electric luxury car company. We have welcomed clients to our family who are excited by our mission to create sustainable yet collectible art forms. We have challenged our own team members to ensure Battista is beautiful by design, combining seamlessly evocative, pure lines which complement perfectly the most advanced electric powertrain technology in the world.
Since the day we first connected with Pascal Raffy and the artisans of BOVET 1822, we felt mutually inspired by the opportunity to create another art form for clients desiring the pinnacle in design and watchmaking. With the unveiling of our first timepiece together later this year, we aim to showcase another step forward in the world of artisanal horology.
Pascal Raffy, BOVET 1822 owner, said:The 11-year partnership with Pininfarina is a key foundation for BOVET 1822, and the collaboration with Automobili Pininfarina is a continuation of this. Since the start, we have been working together in design, technology, and engineering, while at the same time utilising the artisanal nature of BOVET 1822 manufacturing. We are two houses sharing the same values, and now we are heading into the future.
The world is becoming more sustainable, and the future is definitely in electric cars. This is what is so exciting about the beautiful Battista, which combines engineering excellence with hand-made attention to detail, like the fine timepieces of the House of BOVET. The Battista is a hypercar of stunning design, with almost 1,900 hp, yet it is sustainable and 100 per cent electric. We all need to move in this direction, and Automobili Pininfarina is inspiring us to use new methods and materials and look at our processes with an eye to sustainability as well.
We are working on projects that celebrate the Battista and introduce concepts and forms that we have never used before in our timepieces. The Battista is the car of tomorrow, so we are breaking new ground with everything, which fits this incredible partnership.
Paolo Pininfarina, Chairman of the Group, said:The partnership with BOVET 1822 started in 2010 is far more than a collaboration. Its a commonality of vision based on our passion for beauty, technology and craftsmanship. The masterpieces born in the last 11 years are the expression of this vision and the blend of our skills matured throughout a long history and the passion for future. Today we are proud to write a new chapter of our story thanks to the contribution of Automobili Pininfarina. The new timepiece embodies the same spirit that led to the conception of the Battista with Automobili Pininfarina: an outstanding piece of design, high performing and created with a sustainable approach.
SOURCE: Pininfarina
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SCS Engineers Founder Tom Conrad Honored by SWANA with the Robert L. Lawrence Award – PRNewswire
Over 60 years of significant influence on the waste management and environmental services industry.
"I'm honored and humbled to be selected for the Robert L. Lawrence Award. I thank you and am especially thankful for what SWANA and SCS are today," stated Tom Conrad.
SWANA recognizes Conrad for over 60 years of significant influence on the waste management and environmental services industry. Conrad, a Founder, Executive Vice President, and Director Emeritus of SCS Engineers, dedicated his career to advancing solid waste management, most notably through the founding of SCS Engineers (Stearns, Conrad, and Schmidt Consulting Engineers) more than 51 years ago.
Tom Conrad worked on a wide range of environmental engineering projects touching almost every aspect of solid waste management throughout his career. As an environmental engineering firm and consultant to the newly created US Environment Protection Agency (EPA), the founders recognized that responsible solid waste management was increasingly important for protecting the environment and the health and safety of the general public.
Leading SCS, he helped the EPA develop the first federal regulations for sanitary landfills, managing and capturing landfill gas, waste sorting protocols, sludge management, and land remediation.
Environmental services, including wastewater management, were always a significant part of SCS services and the waste industry. When new regulatory policies began expanding in the '80s, SCS's techniques, technology, and expertise helped a broad range of industries comply with environmental needs and continues today with the firm's greenhouse gas, landfill technology, renewable energy, remediation, and sustainable materials management programs.
Conrad is also known for hiring and mentoring today's SCS leaders, many of whom are SWANA leaders, by creating and fostering SCS's culture encouraging employee participation in industry associations, community, and SCS's mentorship and leadership programs.
Before his retirement in 2016, Conrad held professional engineering licenses in 24 states. He was a member of SWANA, the American Society of Civil Engineers, the National Waste and Recycling Association, and the Society of American Military Engineers.
He maintains his "work hard play hard" lifestyle. He is active at SCS, participating in Board of Director meetings and speaking at the Young Professionals Group events and celebrations. While no longer mountain climbing and biking cross-country, he has a vigorous walking, swimming, and biking schedule.
SOURCE SCS Engineers
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SCS Engineers Founder Tom Conrad Honored by SWANA with the Robert L. Lawrence Award - PRNewswire
Engineer-Turned-Designer, There is no Timeline to Dreams. – Influencive
A big business begins small. Rushibhi, 24, Engineer by education, knew business was his calling.
A philanthropist at heart and an entrepreneur in making, he decided to make his business about helping build small ventures into successful brands.
In an era of cut-throat consumerism a market thrives on its competitive spirit. Innovation,
Economical efficiency and top-notch customer service arent the only parameters that define a successful business anymore. Rushibhi with his early ventures in business development was always enthralled by this idea. A business needs to have a lasting impression on a consumers mind, laying emphasis on design and unique user experience.
With this learning, Rushibhi equipped himself with education and experience in the ever booming field of Graphic Designing.
As a student of engineering, hailing from the small town of Aurangabad, where parents dream of their children securing a well-paying job with a degree in technology, Rushibhi took a leap into the field of design.
To wet his feet before he took the deep dive Rushibhi, in his second year of B.E., along with a group of friends, got into publishing a magazine about Electronics and Technology.
A home-grown effort, the magazine required the contributing members to be equipped with all facets of publishing thus pushing them to explore workshops and hobby classes. Rushibhi took this opportunity to learn about Graphic Designing Software. Not only did he find a passion in branding solutions and graphic design he learnt to put forward his ideas coherently to potential clients.
Rushibhi decided to start his own business towards the end of 2019, after he gained exposure working on branding strategies for his friends start-ups and watching them grow exponentially.
To support his forte of branding solutions and design, he surrounded himself with a team of freelancers to provide an all inclusive design platform. The biggest road-block he faced was reluctance from brands shying away from an investment in design. Providing enough evidence for long term value generation stemming from his branding solutions was another challenge due to his limited portfolio.
As his business was facing its teething troubles, Covid-19 pandemic happened. While Rushibhi was forced to shut his office space down, the entrepreneur in him saw this as a budding opportunity. With most of the world home-bound, he was quick to recognize a designing potential in the concurrent social media boom.
One opportunity with a client who had a substantial social media foot-print was enough to create word of mouth publicity for Rushibhi and his work. His creative approach and strategies brought him more clients and Rushibhi even started working on bigger corporate projects.
While corporate projects were plentiful, Rushibhi was keen on working with smaller brands and helping them tap their potential. He realized small businesses do not seek branding solutions and consider it an over-head.
This is where he decided to use his expertise, invest time in underlining the impact of his services and help smaller brands stand out in the business world by offering cost-effective solutions. Rushibhi now has an agency dedicated to start-up businesses.
My focus was not simply filling my pockets but in providing quality work and flourishing small setups just like mine. he says. With that belief Rushibhi hopes to create a holistic environment for start-ups to boom, including his own design venture!
Published August 13th, 2021
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Engineer-Turned-Designer, There is no Timeline to Dreams. - Influencive
Salasar Techno Engineering consolidated net profit rises 3530.00% in the June 2021 quarter – Business Standard
Sales rise 110.21% to Rs 132.79 crore
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First Published: Sat, August 14 2021. 17:48 IST
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