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IntroductionSimulanis Solutions delivers technical and professional-development services in the specialized ield of Process Engineering. With a team of well-qualiied trainers having quality experience of working with the process engineering departments of FTSE-100 multinational companies, we deliver cutting-edge professional development services which focus on implementing industry's leading pimplementing industry's leading practices.

One of our lagship courses, Simulanis Computer Aided Process Engineering is designed for industry professionals and students who aspire to perform routine chemical engineering calculations with a strong emphasis on making use of robust computer-aided methods, tools and techniques. This course would enable you to not only make eficient use of common computer-aided methods to perperform process calculations, but also impart the necessary skills to tackle some of the most challenging engineering problems using a specialist knowhow of computer-aided methods, with consummate ease.

Features

Concepts are well-explained using an easy-to-grasp terminology and supported by a vast array of sample problems and case studies which illustrate the subject matter and the complex calculation procedures.

Through our proprietary Learning Management System, termed the Simulanis Learning Suite (SLS), sample problems and case studies are conducted using a range of methods such as virtual instructor-led, virtual classroom-based group and individual activities, along with a continuous stream of homework problems delivered over the cloud.

Regular in-class Feedback and Question / Answer (FQA) sessions help to continuously improve the course content and aid understanding.

Course Details

1. MS Excel for Chemical Engineers

Course benefits and outline

Getting started with MS Excel for Chemical Engineers Basic Chemical Engineering formulae auditing

Complex Chemical Engineering formulae auditing Logic control in MS Excel Chemical Engineering mathematics and MS Excel Using Solver, What-if and Goal Seek Forming optimization strategies using MS Excel Executing optimization strategies using MS Excel Data interpretation using MS Excel Creating visual reports for Chemical Engineering applications Applications of MS Excel in Chemical Engineering Solving thermodynamic Equations of State Performing VLE calculations Chemical Engineering equilibrium calculations Mass balance calculations Chemical Reaction Engineering applications Fluid low applications (Pressure Drop and Line Sizing)

This course encompasses the fundamentals of common process modelling platforms used to perform routine to complex mathematical computations in industry, such as MS Excel, Mathwork’s MATLAB and open-source optimization tools such as GAMS.

The objective of this course bouquet is to equip participants with the basic, intermediary and advanced principles of employing computer-aided methods to solve simple as well as challenging process engineering calculations. The topics undertaken in this course are as following:

Through this course bouquet, Simulanis intends to equip its trainees with the necessary skills to make use of MS Excel, one of the most versatile and incredibly powerful spreadsheet tools developed in the recent past by Microsoft Corporation.

Being the most widely used platform to perform process calculations in virtually every industry, it is prudent for all young, practicing and experienced engineers to learn the various tools and techniques with a view to master the command over this powerful software.

An outline for the course incorporating features of Ms Excel tailored for chemical engineers has been shown below:

Features

2. Visual Basic for Chemical Engineers

Course benefits and its outline

Getting adept at using Visual Basic, a developer-level language which forms the underpinning of MS Excel, rounds up the trainees’ proiciency to perform challenging tasks with speed, eficiency and reliability. The skills gained through this part of the course complement the advanced know-how of MS Excel and will infuse tremendous conidence within the trainee to perform virtually every process calculation on such platforms.

FFurthermore, the topic has been represented in a lucid style and the USP of this particular course presentation lies in the crisp delivery of content which is concise, to-the-point and drives the message across whilst leading to a greater retention. An outline has been shown below:

All content featured as part of this delivery is supported by case studies, sample problems and links to further leaning resources.

FeaturesAll procedures have been well-explained using case studies and a large pool of examples drawn together from a wide variety of industrial and real-world settings.

The procedure to perform process modelling within industrial setups is shared with the participants to enable them to extend their knowledge and practically ‘perform’ live process modelling examples through case study problems.

Towards the end of the topic, the knowledge gained is applied to solve a range of problems integrated with an industrial facility.

Introduction to VBA Programming Purpose and Usefulness of VBA The VBA syntax Applications of VB to solve Chemical Engineering problems

Introduction to MATLAB for Chemical Engineers The MATLAB syntax for Chemical Engineering applications

Chemical Engineering mathematics and MATLAB MATLAB logic control for Chemical Engineering applications Working with graphs and Reports Basics of process modelling using MATLAB Basics of process control using MATLAB Optimization using MATLAB for Chemical Engineering applications

Applications of MATLAB in Chemical Engineering Solving thermodynamic Equations of State (EoS) Performing VLE calculations Chemical Engineering equilibrium calculations Mass balance calculations Chemical Reaction Engineering (CRE) applications Fluid low applications (Pressure Drop and Line Sizing) Heat transfer applications

3. MATLAB for Chemical Engineers

Course benefits and its outline

MATLAB is another mathematical modelling powerhouse of a software, immensely popular with the research fraternity of all disciplines, scientiic or non-scientiic, around the world.

ThThrough this element of the course bouquet, we simplify the complex topics of implementing MATLAB to perform challenging computations. The syntax is explained well through case studies relevant to Chemical Engineering science. One of the great advantages of implementing MATLAB to model processes over the years has been its versatility to handle and solve the most complex mathematical and optimization algorithms, complemented with the necessary presentation tools in the form of visual reports, graphs and trends. Owing to such capabilities, we at Simulanis, believe in empowering our trainees with such a skill-set as well.

An outline incopoAn outline incoporating features of MATLAB tailored for chemical engineers has been shown below:

Features

All content featured as part of this delivery is supported by case studies, sample problems and links to further leaning resources.

4. GAMS for Chemical Engineers

Course benefits and its outline

Introduction to GAMS Programming

Purpose and Motivation to implement GAMS

The GAMS syntax Optimization problem formulation in GAMS

Solving problems in GAMS

Applications of GAMS

The General Algebraic Modeling System (GAMS) is a high-level modeling system for mathematical programming and optimization used to address a multitude of process engineering scenarios. It consists of a language compiler and a stable of integrated high-performance solvers. GAMS is tailored for complex, large scale modeling applications, and allows you to build large maintainable models that can be adapted quickly to new situations.

TheThe driving force behind us to feature GAMS as an integral element of the SCAPE™ course is to impart the necessary skills to those who genuinely believe in optimization as a powerful and elegant framework for solving real time problems in chemical process engineering.

The topic has been represented in a lucid style and the USP of this particular course presentation lies in the crisp delivery of content which is concise, to-the-point and drives the message across whilst leading to a greater retention.

Eligibility

Our training courses are designed to suit the needs of all levels of trainees ranging from undergraduate students to experienced industry professionals. At the same time, we welcome trainees from allied disciplines like Biochemical Engineering, Polymer Technology, Oil & Gas Technology and Biotechnology, and train them on the fundamentals ofof Process Engineering with customized course content.

We meticulously design our courses to begin with basic fundamentals and then gradually deal with advanced topics. In our course delivery, the knowledge-level of individual trainees is very well taken care of.

Our training material bridges classroom learning with real-time practical scenarios in the ield of process engineering.

Our teaching methodology involves completely interactive, 3D visualizations to communicate the complex processes and systems.

Our unique classroom training platform, through which we offer one of its kind innovative synchronous learning, not only upgrades your skills up to more than 80% but also outpaces the traditional teaching practices.

Our online Learning Management System (LMS) provides best in class virtual leaning experience to our trainees.

WWe offer timeless online learning experience in all the courses that reduces labor-intensive training time and promotes ‘learning by doing’ amongst the trainees.

We actively support the trainees via course related video streaming, discussion forums, presentations, virtual classrooms sessions, tests or quizzes, live surveys using real-time polling, notiication center, course calendars, Breakout Rooms (on demand).

Features of our Training Delivery

Mode of Delivery

Face-to-face sessions will be provided at our state-of-the-art facility by our well-qualiied trainers.

The sessions will be supplemented with hands-on practical experience on industry’s leading simulator for process design.

Our well-researched training material will be provided to the trainees in the most innovative manner.

To provide personalized attention to the trainees, we have limited the batch strength of our classroom sessions to 16 studentsper session.

We organize buffer sessions during weekdays for trainees who miss the regular weekend sessions.

260, Defence Colony Flyover Market, New Delhi-110024.

If you choose to make the payment through cash, you have to deposit the fees, failing which the seat will be allotted to the next candidate in line.

If you make the payment through Demand Draft (DD), please send the same through courier. You will be issued a receipt and a Trainee ID after the receipt of your DD.

If you make the payment through debit / credit card OR net banking, an online receipt will be generated. Take a print-out of this receipt and bring it during your irst classroom session. You will be issued a Trainee ID against this receipt.

You can register yourself for Simulanis Professional Development Services at enrolment.simulanis.com. Use the following steps to register your-self for the classroom sessions:

You can also make the payment through NEFT bank transfer, the details of which will be shared upon request.Trainees interested to pay the course fees through Cash / DD / Cheque can deposit the fees at our ofice OR can send the DD / Cheque via courier to our registered ofice:

Trainers’ Profile

Registration Procedure

Raman Talwar

Rachit Tandon

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03

02

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Log on to enrolment.simulanis.com Sign up to create your user account

Choose your course bouquet(s)You can make the payment using the following modes:Debit / Credit Card Net bankingDemand Draft (DD) Cash-on-Arrival

Design Ofice C-4,Lajpat Nagar III,New Delhi – 110024

Telephone: +91-11-29835004

Registered Ofice260,Defence Colony Flyover Market

New Delhi – 110024Fax: +91-11-41017922

www.simulanis.comEmail: support@simulanis.com

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