Online ME-C Engine Simulator Course -Advanced Electronic Main Engine Training
Master MAN B&W ME-C Engine Operation, Control Systems & Troubleshooting Using Real-Time Simulator Learning Course
Course Overview :
The course Online ME-C Engine Simulator Course provides practical and theoretical training in-depth on the operation of electronically controlled MAN B&W ME-C engines. Participants, through interactive simulator sessions, acquire practical experience in the following areas: engine operation and control logic, hydraulic and fuel systems, monitoring interfaces, and fault diagnosis. The course enhances operational confidence, safety awareness, and troubleshooting skills required for modern electronically controlled main engines.
Course Schedule :
| Course Duration | Course Start Date | Course End Date | Course Fees | Status |
|---|---|---|---|---|
|
3 Days |
12.01.2026 |
14.01.2026 |
₹ 40,000/- + GST |
|
|
5 Days |
09.02.2026 |
13.02.2026 |
₹ 70,000/- + GST |
|
|
3 Days |
09.03.2026 |
11.03.2026 |
₹ 40,000/- + GST |
|
|
5 Days |
06.04.2026 |
10.04.2026 |
₹ 70,000/- + GST |
|
|
3 Days |
04.05.2026 |
06.05.2026 |
₹ 40,000/- + GST |
|
|
5 Days |
01.06.2026 |
05.06.2026 |
₹ 70,000/- + GST |
|
Purpose :
In general, this course is designed to provide operational and diagnostic competence in ME-C engines. It provides marine engineers with the understanding of electronic control philosophy and system integration. The program enhances fault-finding capability, decision-making, and optimization of engine performance. Perfect for engineers looking to become promoted or sail on ME-C equipped vessels.
Key Points
Introduction to ME-C Engine
Overview of the ME-C engine concept, differences from conventional engines, advantages of electronic control, and operational philosophy.
ME-C Engine Control System
In-depth knowledge of ECU architecture, sensors, actuators, signal flow, redundancy, and engine automation logic.
ME-C Engine Hydraulic Power Supply
Also covered are the hydraulic oil system layout, pressure control and safety features, filters, accumulators, and the effects of failure.
ME-C Engine Cylinder Unit
Study of electronic fuel injection, exhaust valve actuation, cylinder control units, and timing optimization.
ME-C Engine Fuel System
Fuel oil supply, pressure regulation, injection control, safety interlocks, and efficiency enhancements.
ME-C Engine Exhaust System
Externals of exhaust valve operation, electronic timing, emission control considerations and performance monitoring.
ME-C Engine MOP Screen
Navigation and interpretation of Main Operating Panel screens, alarms, parameters, trends, and control functions.
ME-C Engine Multi-Purpose Controller
Functionality and interoperability of MPC units, redundancy management, communication networks, and fault handling.
ME-C Engine PMI & CoCoS
Usage of PMI data for performance analysis and CoCoS for condition monitoring, diagnostics, and maintenance planning.
ME-C Engine Simulator Training
Simulator exercises are hands-on and include start-up, maneuvering, load changes, alarms, and emergency scenarios.
Troubleshooting ME-C Engine
Systematic fault diagnosis, using alarms, trends, logic diagrams, and simulator-based fault injection.
ME-C Engine Case Studies
Real operational failures, lessons learned, corrective actions, and best practices.
ME-C Technical Bulletin
Basic understanding and application of MAN technical circulars, service letters, and system updates.
Assessment & Evaluation
Performance-based assessment through simulator exercises, fault-handling tasks, and knowledge evaluation.
Course Objectives
⚙️ ME-C Engine Fundamentals
Understand in detail the ME-C engine design, its operating philosophy, and the electronic concept.
🧠 Unravel Electronic Control Logic
Learn how the ECU’s, sensors, actuators, and control signals interact during an engine operation.
🛢️ Explain Hydraulic & Fuel Systems
Understand the function and behavior of hydraulic power supply and electronic fuel injection systems.
📟 Engine Monitoring Interfaces Interpretation
Learn to read MOP screens, alarms, parameters, and trend data.
🎮 Knowledge Application: Simulator Training
Practice the operation of the engine, maneuvering, and handling the load in realistic simulator scenarios.
🛠️ Develop Structured Troubleshooting Skills
Learn structured techniques for fault diagnosis and remedial action.
📊 Analyze Engine Performance Data
Understand PMI and CoCoS data for performance monitoring and condition-based maintenance.
📚 Learning Relate to Real Shipboard Cases
Apply theoretical concepts to practical ME-C engine case studies and technical bulletins.
Course Benefits
🚢 Improved Confidence in Shipboard Operations
Improves self-assurance of the engineer when working with ME-C engines at sea.
🔍 Faster Fault Identification
Reduces downtime by allowing for quicker, more accurate troubleshooting.
⚙️ Enhanced Engine Efficiency & Reliability
Provides full performance to the engines by ensuring better system understanding.
🧯 Higher Safety Awareness
Improved responses to alarms, failures, and emergency situations.
💻 Hands-on experience before setting sail
Provides practical exposure to ME-C engine systems through simulator-based learning.
📈 Promoting & Career Advancement Support
Builds technical competence to handle responsibilities of higher rank.
🧠 Better Decision-Making Under Load Changes
Load Improves the handling of maneuvering, variations in load, and all abnormal conditions.
🏆 Alignment with Modern Fleet Requirements
Prepares engineers for electronically controlled engines used on contemporary vessels.
