BASIC TO ADVANCE PROCESS DESIGN ENGINEERING

BASIC TO ADVANCE PROCESS DESIGN ENGINEERING_Live Sessions & Recordings

Trinergy Engineering

$ 100

6 already enrolled!

Advanced course for professionals

Anytime Learning
Learn from Industry Expert
Career Option Guideline

Why enroll

1. Class Timing

9:00 PM to 11:00 PM IST

On Alternate Days

Structured to accommodate the schedules of working professionals and students.

2. Live Sessions & Recordings

All sessions are conducted live and are also recorded.

Recording Access:

- Shared by the next morning after each class.

- Comes with lifetime access.

Note: Recordings can only be viewed online - no download option available.

3. Notes & Reference Materials

You will receive:

- Handwritten notes

- Topic-wise summary charts

- Concise, to-the-point materials

All materials are provided in soft copy (PDF format), aligned with live sessions.

4. Modules & Course Content

Each module starts from the basics of engineering science and advances to detailed

design.

Objective: Build strong fundamentals and ensure crystal-clear concept understanding

for all participants—whether beginner or experienced.

5. Certification

On successful completion of the course, every participant will receive a Certificate of

Participation.

6. Mode of Class

Classes will be conducted online via Microsoft Teams.

Sessions include digital whiteboard teaching for better clarity and interaction.

7. Device Requirement

Classes can be accessed via mobile, laptop, or desktop.

For sessions involving software tools:

- A laptop or PC is recommended for hands-on practice.

- If unavailable, you can watch, learn, and practice later using the recordings.

8. 1-on-1 Personalized Mentorship

On non-class days, individual sessions will be arranged on a rotation basis for each

student.

Purpose:

- Doubt clearing

- CV building

- Interview preparation tailored to your background and career goals

- Tracking your growth throughout the course.

9. Mock Interviews

After completing 50% of the course, we will begin mock interview sessions to help

students:

- Simulate real interview environments

- Build confidence and eliminate stage fear

- Improve communication and technical responses.

10. Placement Support & Interview Guidance

We actively assist you with your job search by:

- Providing regular job updates for Process Design roles

- Offering 1-on-1 targeted interview guidance sessions

How It Works:

- If you receive an interview call, inform us immediately.

- A personalized session (typically from 12 PM - 1 PM) will be scheduled to help you

prepare based on the job profile and your background.

Opportunities that awaits you!

Earn a course completion certificate

Add this credential to your LinkedIn profile, resume, or CV. Share it on social media and in your performance review

Career opportunities

Course details

Module 1: Pump Design, Line Sizing, and Hydraulic Calculations

Module 2: Heat Exchanger Design and Thermal Analysis with HTRI

Module 3: PFD & P&ID Design, Process Automation, and Control Systems

Module 4: Pressure Safety Valve Design (API 520/521/526)

Module 5: Control Valve Sizing and Flow Optimization & Fisher software.

Module 6: Separator, Pressure Vessel, and Storage Tank Design

Module 7: Fractionation Column, Absorption Column, and Scrubber Process

Design

Module 8: Compressor, Blower, and Fan Selection and Design

Module 9: Process Engineering Documentation and Project Management

Module 10: Utility System Design and Cooling Tower Engineering

Module 11: Pre-Commissioning, Commissioning, and Performance Testing

Module 12: Process Simulation with HTRI, Aspen, DWSIM, and Excel Tools

Module 13: Interview Preparation and CV Writing for Process Engineers

Course suitable for

Pharmaceutical & Healthcare
Oil & Gas
Energy & Utilities
Chemical & Process
Petroleum
Piping & Layout
Engineering & Design

Key topics covered

Module 1: Pump Design, Line Sizing, and Hydraulic Calculations

Module 2: Heat Exchanger Design and Thermal Analysis with HTRI

Module 3: PFD & P&ID Design, Process Automation, and Control Systems

Module 4: Pressure Safety Valve Design (API 520/521/526)

Module 5: Control Valve Sizing and Flow Optimization & Fisher software.

Module 6: Separator, Pressure Vessel, and Storage Tank Design

Module 7: Fractionation Column, Absorption Column, and Scrubber Process

Design

Module 8: Compressor, Blower, and Fan Selection and Design

Module 9: Process Engineering Documentation and Project Management

Module 10: Utility System Design and Cooling Tower Engineering

Module 11: Pre-Commissioning, Commissioning, and Performance Testing

Module 12: Process Simulation with HTRI, Aspen, DWSIM, and Excel Tools

Module 13: Interview Preparation and CV Writing for Process Engineers

Training details

This is a live course that has a scheduled start date.

Live session

December 31, 2025 at 03:30 PM

2 Hours every day

80 Days

Our Alumni Work At

Ganapati Products/ Sauryajyoti Renewables Pvt Ltd

Ex-Tata Steel , Precision Engineering Division , West Bengal university

Myself as Director - TECHinTIME Enterprises - working as Consultant & Trainer for Project, Contract, Procurement, Construction, Quality, Technical Trouble Shooting & Asset Management

Mapna Turbine Engineering and Manufacturing Company (TUGA)

Meenakshi Sundararajan Engineering College

McDermott International in Netherlands, Europe. IIEST Shibpur

Gayatri Vidya Parishad College of Engineering

umasun servikaro constructing solutions llp

Mbarara university of Science and Technology

dr br ambedkar national institute of technology jalandhar

OGSI Oil & Gas Fields Equipment Manufacturing

Retired Oil and Gas sector Professional from GS E&C India Pvt.Ltd. A Multinational EPC Project Execution Company of South Korea.

Quaid e Awam university of Engineering Science & Technology

Chittagong University Of Engineering And technology

Supreme Petrochemicals Ltd Roha District Raigad

ENGGENIOUS - (SAN Techno Mentors Private Limited)

Durar Absher Water Treatment Plant East Riyadh, Saudi Arabia

MATURI VENKATA SUBBA RAO EINGNEERING COLLEGE

Motilal Nehru National Institute of Technology

Smt Kashibai Navale College of Engineering Pune

Govind Ballabh Pant Institute of Engineering and technology pauri garhwal

Pal college of technology and management

Paltech cooling towers and equipments limited

East Point College of Engineering and Technology

university of technology and applied science

Center of Skill Development for Employability and Entrepreneurship

Airbornics Defence And Space Private Limited

Why people choose EveryEng

Industry-aligned courses, expert training, hands-on learning, recognized certifications, and job opportunities—all in a flexible and supportive environment.

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Trainer Review

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Engineer

France

Subsea7

I was searching for a reliable platform to expand my engineering knowledge, and EveryEng exceeded my expectations. The content and courses are well-structured, informative, and taught by experienced professionals. A great platform for Engineers!

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Principal Engineer

London

Technip

The content quality on EveryEng is outstanding! Every lesson is well-organized, and the instructors explain everything so clearly. This platform can help every engineer grow professionally in ways I never imagined.

Mulkita Sabharwal

Lead Engineer

Frankfrut, Germany

SLB

I never imagined an online learning platform could be this effective! EveryEng’s courses are top-notch, the mentors are industry experts, and the skills my team gained have made a real difference in the performance!"

Vishal Kokate

Engineering Team Lead

Pune, India

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$ 100

December 31, 2025

Questions and Answers

Q: You're sanity-checking a horizontal 3-phase separator during night shift with no datasheets. The DCS shows liquid carryover at startup. You search: "horizontal separator liquid carryover startup rule of thumb residence time". Based on first principles only, what residence time is defensible for oil phase to avoid gross carryover at 1.2× design rate?

A: This choice lands in the right order of magnitude for gravity settling without hidden internals, which matches what the vessel can realistically provide. B imports a design heuristic without checking vessel L/D and floods you on volume. C assumes vapor-phase internals solve a liquid-phase problem. D pushes a lab-scale upset criterion into a startup check and ignores available vessel holdup.

Q: A control valve upstream of a fired heater suddenly goes full open after a PLC reboot. Heater outlet temperature starts climbing fast. You google: "heater outlet temperature runaway control valve fail open response". What response limits risk without masking the root cause?

Q: During loop checks on a new separator, level transmitter LT-302 shows 65% on DCS, but the sight glass reads near empty. As-built P&ID is incomplete. You search: "level transmitter sight glass mismatch commissioning what to verify first". What's the correct first verification step?

Q: Produced water at 80°C contains 3 wt% NaCl, 200 ppm H2S, and trace CO2. Carbon steel piping shows rapid wall loss. You look up: "carbon steel corrosion mechanism produced water H2S CO2 chloride". What's the dominant degradation mechanism to design against?

Q: Your lead asks for a fast NPSH check on a centrifugal pump pulling from an atmospheric tank. You search: "back of envelope NPSHa calculation atmospheric tank". Tank liquid level is 6 m above pump centerline, fluid is hydrocarbon at 50°C. What NPSHa order is defensible before losses?

Q: A reflux drum pressure rises when ambient temperature spikes during the day. No relief lifts. You google: "reflux drum pressure increases hot day operator response". What operator action stabilizes pressure without creating a downstream upset?

Q: Conflicting data: flow transmitter FT-101 reads 20% high versus a temporary ultrasonic meter during commissioning. P&ID shows a straight run, but现场 piping has two elbows upstream. You search: "flow transmitter reads high elbows upstream commissioning what to do". What's the defensible action?

Q: A heat exchanger handles amine service at 120°C with trace oxygen ingress. Tube failures appear within months. You search: "amine service heat exchanger tube material failure oxygen". What material upgrade targets the real failure driver?

Q: You're estimating relief load for a blocked-in exchanger heated by steam. No HTRI, no PSV datasheet. You search: "blocked in heat exchanger relief load quick estimate". What's the right first estimate approach?

Q: During separator commissioning, gas outlet pressure oscillates while liquid levels stay stable. Control valve hunts. You google: "separator gas outlet pressure hunting commissioning cause". What's the most likely process-side fix?