Certified Chemical Engineering Professional
Why should you take this Certification?
This certification will make you Internationally Certified and will help in growing your career.
This certification will help you to get Job & Freelance opportunities from thousands of companies.
Average salary given to a Certified Chemical Engineer is around $60,000 per annum.
Exam Cost: USD 30.00 5 out of 5 based on 9757 ratings.become certified WhatsApp us share
What Is Chemical Engineering?
Chemical engineering is a branch of engineering that studies the operation and design of chemical facilities, as well as strategies for increasing output. Chemical engineers design cost-effective commercial techniques for transforming raw materials into usable goods. Chemists, physicists, mathematicians, biologists, and economists employ chemical engineering principles to efficiently use, create, design, transport, and transform energy and materials. Chemical engineers' work can span from small-scale laboratory experiments with nanotechnology and nanomaterials to large-scale industrial processes that convert chemicals, raw materials, live cells, microbes, and energy into useful forms and products. Chemical engineers work on safety and hazard assessments, process design and analysis, modeling, control engineering, chemical reaction engineering, nuclear engineering, biological engineering, building specifications, and operating instructions, among other things.
Chemical engineers usually have a bachelor's degree in chemical or process engineering. Professional certification and membership in a professional body are required for practicing engineers. The Institution of Chemical Engineers (IChemE) and the American Institute of Chemical Engineers are two such organizations (AIChE). To varying degrees, a degree in chemical engineering is directly linked to all other engineering fields.
Chemical engineers "find cost-effective ways to use materials and energy." Chemical engineers employ chemistry and engineering to transform raw materials into consumable products on a large-scale, industrial scale, such as medicine, petrochemicals, and plastics. They work in waste management and research as well. Computers could be used extensively in both applied and research aspects.
Chemical engineers may work in industry or university research, where they plan and conduct experiments to develop better and safer manufacturing, pollution control, and resource conservation methods. As a project engineer, they may be involved in the design and construction of plants. Chemical engineers who work as project engineers use their expertise to identify the most cost-effective production methods and plant equipment while also ensuring safety and profitability. Chemical engineering project managers may be involved in equipment upgrades, troubleshooting, and everyday operations in full-time or consultancy roles once the facility is built.
Salary Range of Chemical Engineer
Depending on the experience level and the demographic area, the salary of a Chemical Engineer varies widely.
The following is the average Salary of Chemical Engineer in USA:
|Best Minds In Chemical Engineering||$125,000|
|Senior Chemical Engineer||$ 100,000|
|Intermediate Chemical Engineer||$ 80,000|
|Chemical Engineering Freshers||$ 50,000|
The following is the average Salary of Chemical Engineer in India:
|Best Minds In Chemical Engineering||INR 150,000|
|Senior Chemical Engineer||INR 60,000|
|Intermediate Chemical Engineer||INR 35,000|
|Chemical Engineering Freshers||INR 20,000|
What Is Chemical Engineering Certification?
Chemical Engineer Certification assesses a person's knowledge of the engineering concepts as well as their understanding of real world scenarios. A variety of certifying authorities, ranging from government agencies to commercial enterprises and organizations, offer the Chemical Engineer certification. Certifications are normally obtained by the completion of an online or offline exam.
All certificates have their own set of benefits, such as international recognition, career opportunities, freelancing, and so on. So, Chemical Engineer certification is an online exam that evaluates an engineer’s skills and knowledge in order to match them with the suitable opportunities.
Best Chemical Engineering Certification & why you should appear for it?
The online Chemical Engineer certification from Loopskill is considered to be best in market and will assist you in becoming a certified engineer. You can take this exam and by scoring 70% you will become an internationally certified Chemical Engineer. This certification will help you in three different ways:
- You can demonstrate your Chemical Engineer certification to potential employers and can stand out of the crowd.
- You can apply for great jobs using loopskill website or app; moreover, our partners companies will contact you directly for full-time or part-time opportunities depending on your skills & requirements.
- Loopskill is not just a platform to get certified or to find full time jobs; here being a certified engineer you can also do freelancing for the clients around the globe. You will be approached by the clients who need your help in different problems.
The loopskill’s online Chemical Engineer certification is created to help people in exploring and achieving their full potential so they can get connected to the best opportunities around the globe.
Marvels of Chemical Engineering:
Graphene is a 200-times-stronger-than-steel efficient conductor: Since it won the Nobel Prize in 2010, Graphene has become the apple of Chemical Engineers' eyes. Graphene is 200 times stronger than steel and has superior electrical and thermal conductivity to copper. Graphene is a single atom thick film of carbon that is nearly transparent and has a surface area of 2,500 m2 per gram. This wonder material's applications are currently being investigated. It is expected to replace silicon in next-generation computer circuits and usher in a revolution in energy harvesting and the development of new-age sensors.
Colored Carbon Fibres for High-End Automobiles: Carbon fibers have always been dark in color. You'll have to paint them over the surface if you want them to be any color. Painting the carbon fibres adds weight and has a negative impact on their performance and cost. Paint (on carbon fiber) can add up to 500 kg to the weight of an airplane. As a result, Prodrive in the United Kingdom has developed carbon fibres (which are actually composite materials) in deep-lustre colors with a glass-like sheen. This procedure ensures that carbon fibres keep their original toughness, making luxury goods and custom-made automobiles stand out.
Organ Transplantation Using 3D Printing: The medical community is highly aware of the shortage of organ donors. The number of people in need of organ transplants has increased in the previous decade, but there is little that can be done for them due to a scarcity of organs. In the near future, chemical engineers have stepped in to try and save the day for such sufferers. Small-scale cell and tissue regeneration has already been made possible thanks to biomaterials research and developments in 3D printing technology. The goal now is to 3D print organs, bone, cartilage, and muscle that will be available for human testing in around five years.
Wings made of carbon fiber for the aerospace industry: For airplanes, weight is everything. Heavy planes use more fuel, increasing the cost of air travel for us. Engineers are currently using lightweight carbon fiber composites instead of aluminum to manufacture airframes in order to improve the aerodynamics performance of modern aircrafts, keep them light, and increase their fuel efficiency. These carbon fiber composites are lighter and stronger than traditional materials. They're woven carbon mats embedded in plastic, and they're the brainchild of chemical engineers. They also have a nice polish on the outside to help with aerodynamics. Some of the planes that use these carbon fiber matrices include the Boeing 787 Dreamliner and the Airbus A350.
Nanocoating Technique to Reduce Aerospace Industry Costs: Chemical engineers have been working on novel technologies, processes, and materials to reduce the costs of commercial flying. Manufacturers of airplanes are likewise under pressure to lessen their environmental impact. The use of 50% carbon fiber in the primary construction and titanium coatings in engines has gained popularity in the aerospace industry, but it comes with its own set of issues.
Metals to be Replaced by Nylacast Polymers: Nylacast polymers have high impact strength, extremely low co-efficient of friction, self-lubricating properties and weight 1/7th of the weight of steel. They also help to reduce noise. As a result, they're valuable in a variety of industries, including automotive, construction, food and beverage, pharmaceutical, offshore, and oil and gas.
Water-to-Gasoline Conversion Machine: German chemical engineers are going to master an alchemy procedure to turn water into fuel, just as Jesus Christ did. This ‘power-to-liquid' rig converts water and carbon dioxide gases into liquid hydrocarbon fuels, which are typically petroleum-based. “This is going to transform the fuel market for vehicles, airlines, and even the chemical industry,” said Nils Aldag, Chief Financial Officer and co-founder of Sunfire GmbH in Dresden.
Important Topics to Learn & Master in Chemical Engineering:
If you wish to become a Chemical Engineering master, the topics listed below must be covered.
- Computer Programming
- Engineering Mechanics
- Biochemical Engineering and Bioinformatics
- Organic Chemistry
- Metallurgy and Corrosion Engineering
- Fluid Mechanics
- Electrical and Electronics Engineering
- Paper Engineering
- Plastic Engineering
- Textile Engineering
- Process Calculations
- Fluid Flow Operations
- Engineering Chemistry and Chemical Technology
- Energy Engineering
- Chemical process Industries
- Heat Transfer
- Applied Mathematics
- Water Technology
- Mass Transfer
- Mechanics of Solids
- Environmental Science and Engineering
- Heat Transfer Operations
- Business Communications & Ethics
- Chemical Engineering Thermodynamics
- Process Equipment Design
- Process Dynamics and Control
- Oil Exploration and Refinery
- Chemical Process Calculations
- Chemical Process Industries
- Technical Analysis Laboratory
- Process Engineering
- Pharmaceutical Engineering
- Mechanical Operations
Chemical Engineering’s Software:
ASPEN HYSYS: Aspen HYSYS is a chemical process simulator that uses mathematics to mathematically describe chemical processes ranging from unit operations to entire chemical plants and refineries. Many of the essential computations of chemical engineering, including as mass balance, energy balance, vapor-liquid equilibrium, heat transfer, mass transfer, chemical kinetics, fractionation, and pressure drop, may be performed by HYSYS. In industry and academics, HYSYS is widely used for steady-state and dynamic simulation, process design, performance modeling, and optimization.
Chemicals Workbench: Chemical WorkBench is a proprietary simulation software tool for reactor scale kinetic modeling of homogeneous gas-phase and heterogeneous processes, as well as the development of kinetic mechanisms. It may be used to efficiently model, optimize, and develop a wide range of industrially and environmentally significant chemistry-loaded processes. Chemical WorkBench is a modeling platform built on cutting-edge scientific methodologies, complementing databases, and precise solution methods. Kintech Lab created and distributes Chemical WorkBench.
COCO Simulator: The COCO Simulator is a free, non-commercial, graphical, modular, and CAPE-OPEN compliant environment for modeling steady-state, sequential simulation processes. It was designed initially as a testing environment for CAPE-OPEN modeling tools, but it currently offers free chemical process simulation to students. It is a free and open flowsheet modeling platform that allows anyone to create new unit operations or thermodynamics packages.
ProMax: Bryan Research and Engineering, Inc. created and sells ProMax, a chemical process simulator for process troubleshooting and design. ProMax, which was first launched in late 2005, is a continuation of two previous process simulators, PROSIM and TSWEET. ProMax is widely regarded as the industry standard for amine gas treatment and glycol dehydration unit design.
ROMeo: ROMeo Rigorous Online Modelling and Equation Based Optimization is a powerful online chemical process optimizer developed by SimSci, an Aveva software brand. Process engineers in the chemical, petroleum, and natural gas sectors primarily use it. It comprises a chemical component library, thermodynamic property prediction methods, and unit operations found in the chemical processing industries such as distillation columns, heat exchangers, compressors, and reactors. It can calculate steady-state mass and energy balances for modeling, simulation, and optimization of continuous processes.
HSC Simulator: The HSC Sim process simulator is based on the HSC Chemistry software and databases. It was added as a module to HSC Chemistry 7.0 in 2007 and is mostly used for static process simulation. HSC is an abbreviation for H (enthalpy), S (entropy), and Cp (heat capacity).
Future of Chemical Engineering
Chemical Engineering may appear to have been consigned to the sidelines in this age of information technology, but that does not mean it has lost its attractiveness in the industry. Chemical Engineers who have recently graduated might hunt for work in a variety of areas and businesses. Chemical engineering is rapidly becoming a part of new and emerging fields such as biotechnology, computer technology, food technology, and pollution control technology, in addition to classic chemicals-centric businesses such as petroleum and pharmaceuticals.
Here are some quick thoughts...
Yes, I understand that we are attempting to move away from fossil fuels, but this is a massive undertaking that will take time. Even if we exclude transportation and heating, we still rely on them for feedstocks in plastics, chemicals, pharmaceuticals, and other industries. Chemical engineers face a massive challenge in re-engineering existing refineries and plants to satisfy shifting demand.
Alternative fuels and feedstocks: transitioning from a fossil carbon-based world to a renewable and bio-based economy necessitates a massive chemical engineering effort to create new processes, construct new plants, and address all environmental sustainability and safety challenges. This work is already being done in many parts of the world. In Canada, one example is the Bioindustrial Innovation Canada center in Sarnia, Ontario.
Green Energy: Alternative fuels such as ethanol, biodiesel, and biogas are well-established but need to be expanded and improved. There is also a lot more that can be done to develop additional bio-based transportation fuels, which will likewise necessitate a lot of chemical engineering. For many years, the transition to electric vehicles will fuel demand for battery materials such as lithium. Furthermore, as demand grows, recycling of battery materials and electric motor components (rare earth elements) will become considerably more significant. Chemical engineering specializes in the extraction, recovery, recycling, and purification of materials.
Green Plastics and Materials: It is not that simple to abandon fossil-based plastics and other materials. They are quite simple to manufacture and have appealing features. However, there is a lot of current research on bio-based plastics, fibers, and other materials that could ultimately be used as alternatives. The invention and subsequent manufacture of these materials represents a significant chemical engineering problem.
Food supply is an ongoing challenge, and chemical engineering can help to develop products with longer shelf lives (reducing waste), as well as recover valuable chemicals and materials from food waste and by-products.
These are just a few short thoughts on potential future issues. Chemical engineering is an excellent option for those interested in combining their talents in math, chemistry, biology, and physics with environmentally and socially relevant concerns for the next generation.
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