Be the Engineer of your career

Don’t fit in when you were born to stand out!

An engineer’s calling is a noble calling indeed! Engineers have shaped the course of society – their innovations have continuously improved the standard of life of common people. It is vital therefore to understand the contributions made by various engineering fields to society, as this will inspire budding engineers to contribute towards society’s development.

In the “Be the engineer of your career” series of the current edition of CADDZOOM, let us take a look at the advancements made in the field of electronic engineering!

Electronic Engineering

Electronics is defined as “The science and technology of the conduction of electricity in a vacuum, a gas, or a semiconductor, and devices based thereon”. If electronics is also about the conduction of electricity, you may wonder how electronics differs from electrical engineering.

Electronic devices and electrical devices manipulate electricity differently to do their work. Electrical devices take the energy of electric current and transform it in simple ways into some other form of energy – most likely light, heat, or motion. In contrast, electronic devices do much more. Instead of just converting electrical energy into heat, light, or motion, electronic devices are designed to manipulate the electrical current itself to coax it into doing interesting and useful things.

One of the most common things that electronic devices do is manipulate electric current in a way that adds meaningful information to the electric current. For example, audio electronic devices add sound information to an electric current so that you can listen to music or talk on a cell phone. Don’t fit in when you were born to stand out!

Be the Engineer of your career

This issue of the CADDZOOM, we continue our “Be the engineer of your career” series by taking an in-depth look into civil engineering.

Engineering is one of the oldest professions in the world. Around 2550 BC, Imhotep, the first documented engineer, built the famous stepped pyramid of King Zoser, located at Saqqarah. Ancient monuments like the pyramids still hold their sway over modern Civil Engineering.

Today too, engineers continue to revolutionize the world. It is for this reason that engineers must be encouraged to stay true to their passions. A deeper insight into the different streams of engineering helps aspiring engineers remain inspired.

Civil Engineering – creating the world!

“You can’t have civilization without civil engineering.”

Civilization relies on teams of inventive people to design, build and maintain sophisticated infrastructure that surround us. It is this group of inventive people who are known as civil engineers. One cannot think of a society whose foundations haven’t been laid by civil engineers. The influence of civil engineering in our life is tremendous: from our water delivery system at our homes to the road networks that we use for transportation, civil engineering can positively impact the quality of our life. Civil engineering is the oldest of the engineering disciplines. The first engineering school, the National School of Bridges and Highways, was opened in 1747 in France.

What do civil engineers do?

Civil engineers are responsible for designing, building and maintaining all types of structures. The wide range of civil structures includes water-supply and sewer systems, railroads and highways, and planned cities. Civil engineering, therefore, comprises of various subfields such as environmental engineering, geotechnical engineering, geophysics, geodesy, control engineering, structural engineering, biomechanics, nanotechnology, transportation engineering, earth science, atmospheric sciences, forensic engineering, municipal or urban engineering, water resources engineering, materials engineering, coastal engineering, surveying, and construction engineering.

Reference: www.whatiscivilengineering.csce.ca

Falkirk Wheel – A marvel of Civil Engineering!

Falkirk Wheel   – A marvel of Civil Engineering!

The Falkirk Wheel, located in Scotland, is truly an engineering marvel, presented to the world by Civil Engineers. To put it simply – the Falkirk Wheel allows boats to fly. It was built to connect two different canals, providing a way for boats to travel without a natural waterway. The Falkirk Wheel connects two canals with a height difference of 35 meters.

The Falkirk Wheel is built around a central wheel that comprises of two opposing arms revolving around a central axle. Each of these arms is fitted with diametrically opposing caissons. A caisson in geotechnical engineering is a watertight chamber used to carry out construction work underwater. The caissons installed in the Falkirk Wheel works in the opposite manner, the water is retained inside the caisson instead of being excluded. It was for this reason that the Falkirk Wheel’s caissons are also called Gondolas.

The caisson works on the Archimedes principle. The weight of the caissons is always maintained at 600 tons, whether the caisson is carrying just water or a boat. When the boat enters the caisson the weight of the water displaced is equal to the weight of the boat, allowing it to float. The caissons are rotated in the same speed as the wheel but in the opposite direction this ensures that caissons are always at level. The caissons lead the boat to an aqueduct which leads the boat to the next canal. An aqueduct is an artificially constructed watercourse to transport water

Reference: www.falkirk-wheel.com

Civil Engineering today

The Civil Engineers today continue to accelerate the progress in the world. A report published by the Institution of Civil Engineers takes a look into the areas where civil engineers can contribute to the most.

Areas influenced by Civil Engineering:

Civil Engineers help support life :Civil Engineers bring about the supply of fresh water to all parts of the world thereby increasing quality of life. An illustration: In Ethiopia, only 24% of the country’s 62.6 million people have safe water and only 15% have sanitation. Water-related diseases are common and life expectancy is only 43 years. Civil engineers designed the Hitosa gravity water scheme, a part of Ethiopia’s largest water-supply project. Civil engineers had the vision needed to design and put into practice such a huge scheme, working with 60,000 local people to provide safe water for their communities.

Civil Engineers protect us from natural disasters :Natural disasters are managed better when understanding of the environment is applied to real time situations. This is especially true in coastal areas that are threatened by being worn away by the sea or floods, and inland sites may be contaminated by previous industrial activities or threatened by subsidence (an area of land gradually sinking or caving in). Extreme heat and cold, winds, earthquakes and risk of flooding cause problems, but civil engineers are using their skills to make areas safer. ‘Superadobe’ is a beehive-like building developed for future communities on the Moon. It has been adapted to create affordable emergency housing for survivors of disasters like the Asian tsunami.

Civil Engineers help us get from point A to point B :Transport systems join our communities together. Road, rail, air and sea networks span the world. They help us trade, travel, exchange ideas and information, and gain employment, healthcare and education. Civil engineers understand the best ways to move around or across our environment, creating the networks that help take us where we want to go.

The Green Wheel is an excellent example of civil engineering’s contribution to transportation. Opened in 2002, it is an 80km network of footpaths and cycle ways around Peterborough, UK, that encourages ‘green travel’ and sustainable tourism. It includes a series of bridges to carry horses, people on foot and cycles over roads, railways and rivers. The bridges link nature reserves, picnic sites, sculpture trails and small parks, helping local people and visitors to get more enjoyment out of the area.

Civil Engineering with Modern Tools

Today, the civil engineer is equipped with several tools to make his task easy. One such example is Revit – a BIM software.

Revit comes with loads of unique features to help designers and architects design more sustainable, accurate designs with fewer errors and less waste, thus achieve higher profits and more satisfied clients. Some of the features that make Revit Architecture irresistible include:

Analysis: Revit is used to create and capture photo realistic design ideas and contextual environments. It lets the users to capture and analyze design concepts and enables them to take right decisions for sustainable design, clash detection, construction planning, and fabrication.

User friendliness: Users can sketch freely, and create 3D forms quickly, and manipulate forms interactively. The users can prepare their models for fabrication and construction with built in tools for conception and clarification of complex forms.

Manufacturing viability: Engineers and architects can perform daylighting and energy analysis, and gain insights into manufacturing viability and early construction material takeoffs.

Collaboration: It helps them collaborate with engineers, contractors, and owners. Using Revit, engineers and architects can optimize team collaboration, communicate more clearly and reliably the design intent to all stakeholders, including fabricators.

Interoperability: Engineers and architects can bring conceptual massing concepts from applications such as AutoCAD and Autodesk, Maya as well as Auto DesSys form.Z, McNeel Rhioceros, Google Sketchup, or other ACIS or NURBS based applications into Revit Architecture as mass objects, and begin schematic design.

Reference: www.ice.org.uk

Listen to Experts

All guidance is incomplete without the advice of experts. An accurate grip of any subject is only possible if theoretical knowledge is met with practical examples. It’s for that reason that we set up an interview for you with a leading mechanical engineer.

Meet Mr. K. Vishwanathan, Chairman and Managing Director CADD Centre Software Solutions. The world of CADD is his home ground. Mr. Vishwanathan’s insight is valuable because of his 24 years of experience in the world of CAD and has exhaustive knowledge of the same. He began his career as a CADD Trainer and today is the Chairman and Managing Director CADD Centre Software Solutions. He is also certified AMIE – Mechanical, The Associate Member of the Institution of Engineers (AMIE) is a professional certification given by Institution of Engineers (India).

This is an excerpt of the interview, more at www.caddcentre.ws/caddPlanCareer.php

  1. How is the field of mechanical engineering different from the other engineering streams?

Mechanical engineering in reality is comprehensive and there is no one other area of engineering which is complete without manufacturing. Mechanical engineering involves shorter product life cycles, as compared to civil and structural aspects referred to as infrastructure.

  1. What are the challenges a mechanical engineer faces, especially at the start of his/her career?

Common issue would be where to start and how to start. With a good blend of knowledge and right skills one could visibly see opportunities to begin and build a strong career. Engineers have to master the entire engineering process “Concept to Reality”, “Art to Part” and how to sell (their ideas) as well.

  1. What are the qualities the industry looks for in a budding engineer?

In addition to the knowledge and skill sets, industry constantly looks for curiosity, imagination, communication and sense of responsibility. Functional exposure and the flair to understand newer trends in technology and quickly adapt to them are equally vital as well.

  1. How can a mechanical engineer set himself/herself apart from his/her competition?

Acquiring thorough knowledge right from first principles is vital. By acquiring unique skills on the most recent technologies from CADD Centre, mechanical engineer can set himself apart.