synthetic fibres, coal and mineral based industries, and
prevention and control of environmental pollution. Chemical
engineering is concerned with the development and
improvement of processes, design, construction, operation,
management and safety of the plants for these processes
and research in these areas.
civil engineering
A civil engineer is concerned with planning, analysis, design,
construction and maintenance of a variety of facilities such
as buildings, highways and railways, airports, waterways and
canals, dams and power houses, water treatment and waste
water disposal systems, environmental quality control, docks
and harbours, bridges and tunnels. A civil engineer is also
required to deal with critical problems of today such as disaster
mitigation and management, constructing offshore structures
for oil production, chemical engineering
Some chemical engineers make designs and invent new processes. Some construct instruments and facilities. Some plan and operate facilities. Chemical engineers have helped develop atomic science, polymers, paper, dyes, drugs, plastics, fertilizers, foods, petrochemicals... pretty much everything. They devise ways to make products from raw materials and ways to convert one material into another useful form. Chemical engineers can make processes more cost effective or more environmentally friendly or more efficient. As you can see, a chemical engineer can find a niche in any scientific or engineering field. mechanical engineering Mechanical engineers design and develop everything you think of as a machine - from supersonic fighter jets to bicycles to toasters. And they influence the design of other products as well - shoes, light bulbs and even doors. Many mechanical engineers specialize in areas such as manufacturing, robotics, automotive/transportation and air conditioning. Others cross over into other disciplines, working on everything from artificial organs to the expanding field of nanotechnology. And some use their mechanical engineering degree as preparation for the practice of medicine and law. The mechanical engineer may design a component, a machine, a system or a process. Mechanical engineers will analyze their design using the principles of motion, energy, and force to insure the product functions safely, efficiently, reliably, and can be manufactured at a competitive cost. electrical engineering Electrical engineering is concerned with the basic forms of energy that run our world. Whether it's gas, hydro, turbine, fuel cell, solar, geothermal, or wind energy, electrical engineers deal with distributing these energies from their sources to our homes, factories, offices, hospitals, and schools. Electrical engineering also involves the exciting field of electronics and information technology. Do you have a cellular phone or a computer? Wireless communication and the Internet are just a few areas electrical engineering has helped flourish, by developing better phones, more powerful computers, and high-speed modems. As we enter the 21st century, the technology that surrounds us will continue to expand and electrical engineers are le way elctronics and communication engineering Design, fabricate, maintain, supervise, and manufacture electronic equipment used in the entertainment media, in hospitals, in the computer industry, for communication and in defense. Electronics engineers work with devices that use extremely small amounts of power. They work with microprocessors, fibre optics, and in telecommunication, television, and radio. productionengineering These deals with integrated design and efficient planning of the entire manufacturing system, which is becoming increasingly complex with the emergence of sophisticated, production methods and control systems. Job and Scope: Opportunities are available in public and private sector manufacturing organizations engaged in implementation, development and management of new production Process, information and control systems and computer controlled inspection, assembly and handling. Biomedical Engineering: Biomedical engineering (BME) is the application of engineering principles and techniques to the medical field. It combines the design and problem solving skills of engineering with medical and biological sciences to help improve patient health care and the quality of life of individuals. materialsengineering New materials have been among the greatest achievements of every age and they have been central to the growth, prosperity, security, and quality of life of humans since the beginning of history. It is always new materials that open the door to new technologies, whether they are in civil, chemical, construction, nuclear, aeronautical, agricultural, mechanical, biomedical or electrical engineering.
