Operation and Maintenance of Diesel Power Generating Plants
Details
The workshop
This course will discuss the need for standby/emergency power generation in industries and the details of engine-based power stations. Achieving large standby capacities would call for multiple generating sets to be operated in parallel and at times synchronised with an external power source. The factors to be considered to achieve proper load sharing and also to safeguard against power grid abnormalities are discussed. A brief description of the engine- based uninterrupted power source is also included.
Outline
PROGRAMME CONTENT
BASIC ELECTRICAL THEORY
• A brief history of electricity • The static and dynamic forms of electricity the difference • Electrical circuits • Voltage, current, resistance and Ohm’s law • DC and AC circuits-how they differ • AC amplitude-time curve-Why is it called a sine wave? • Phasors - Introduction • Reactance and impedance and Ohm’s law for AC circuits: Calculation examples • Concept of power factor (displacement power factor) • Circuit theory and applicable laws for solving problems of power flow in AC and DC circuits • DC and AC sources
FORMS OF ENERGY AND CONVERSION -
WHY ELECTRICITY IS A CONVENIENT ENERGY CARRIER
• Potential and kinetic energy as the main classification of energy forms • Energy types based on the source such as fuel, chemical, nuclear and mechanical • What is meant by energy carrier? • Why is electricity the most preferred energy carrier? • Points of comparison • Law of energy conservation and laws of thermodynamics-Applications to power generation
ENGINES FOR POWER GENERATION
LIQUID AND GASEOUS FUELS
• A brief historical perspective • External combustion cycles (Otto, Diesel) • External combustion engines-Spark and compression ignition types • Industrial generating sets based on compression ignition cycle • Fuels used: liquid and gas engines
DIESEL TECHNOLOGY AND CLASSIFICATIONS
• Basic engine processes, dual fuel engines, speed classifications, service classifications
BASIC ENGINE DESIGN AND RATINGS
• Design characteristics and formulas, turbo charger, ambient conditions, ISO ratings • Performance and efficiency, efficiency enhancements, engine speed • Fuel combustion methods
FUEL OILS USED AND FUEL HANDLING SYSTEM
• Crude oil • HSD, LDO and heavy fuels • Economics of fuel selection • Pressure and temperature characteristics • Viscosity characteristics, specific heat and temperature, viscosity conversion • Specific fuel consumption • Fuel filters and heaters, fuel nozzles and igniters • Emission control, storage requirements • Typical fuel system layouts and components
LUBE OIL SYSTEM
• Lube oil specification • Lube oil consumption in diesel engines • Typical Lube oil system layouts • Viscosity and temperature • Lube oil filters and heaters
BASICS OF AC SYNCHRONOUS GENERATORS AND ESSENTIAL COMPONENTS
• The basic electrical generator • Components of the alternator • Stator winding in alternators • Rotor (field) windings, damper windings • Slip rings • Sources for supplying field current to rotor - Rotary exciters, static exciters, brushless excitation • Cooling components and methods of cooling
PROTECTION OF AC SYNCHRONOUS GENERATORS
• Failure modes of AC generator • Stator winding protection-short circuits • Stator winding protection-earth faults • Differential (circulating current type) protection for windings • Rotor winding protection-Single and double earth fault • Negative sequence current protection • Excitation failure and pole slip/out-of-step protection • Over voltage protection of generators
DIESEL GENERATING SETS
• Coupling requirements, skid mounting, layout requirements, standard control panels, interconnections
OTHER COMPONENTS
• Starting methods, starting characteristics, battery sizing, step load requirements, standby requirements • Auto start and auto transfer schemes • Auto transfer switches
TESTING AND COMMISSIONING
• Factory tests • Pre-commissioning checks • Pre-commissioning tests • Performance monitoring • Fuel and lube oil consumption checks • Electrical system tests
OPERATION AND MAINTENANCE OF DIESEL GENERATING PLANTS
• Safety requirements, operation monitoring based on applications • Philosophy of maintenance, maintenance techniques, maintenance planning and scheduling • Spares and inventory management • Maintenance tools, inspection • Engine overhaul and repair • Training, health monitoring, troubleshooting
Schedules
No. of Days: | 3 |
Citadel for Technological and Engineering Dev. (CITED), a leading organisation in rendering quality service in Corporate Training, Manpower Development and Continued Professional Development (CPD) of Engineers, Technologist and Technicians have been in existence for over twenty years bringing quality service to Nigerians and Nigerian Engineers. Our portfolio of programs is renowned for its breadth and depth of focus, the caliber of its speakers, its interactive, practical and result-orientated nature, and the diverse and national range of participants. It is an excellent networking opportunity.
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