Università degli Studi di Napoli "Parthenope"

Teaching schedule

Academic year: 
2016/2017
Belonging course: 
Course of Master's Degree Programme on MANAGEMENT ENGINEERING
Disciplinary sector: 
ENERGY SYSTEMS AND POWER GENERATION (ING-IND/09)
Credits: 
3
Year of study: 
1
Teachers: 
Cycle: 
Second semester
Hours of front activity: 
24

Language

Italian
English on request

Course description

The course aims to provide the basic methodological tools for modeling and estimating the performance of high performance power plant: Combined Cycle and combined heat and power as high performance and low pollutant technology for power generation.

Learning outcomes

1. Knowledge and understanding

The student must know
- the main functions performed by cogeneration and combined-cycle power plants;
- the basic laws and standards on cogeneration and combined-cycle power plants;
- the structural and functional characteristics of cogeneration and combined-cycle power plants;
- the basic criteria for designing cogeneration and combined-cycle power plants;
- The main problems of modeling cogeneration and combined-cycle power plants.
2. Applying knowledge and understanding
The student must demonstrate

- to apply the criteria for modeling cogeneration and combined-cycle power plants;
- to understand the problems linked to the operation of cogeneration and combined-cycle power plants.
3. Making judgements
The student must demonstrate that he has the basic knowledge for dealing and deepening in an autonomous way the issues related to the modeling of cogeneration and combined-cycle power plants.
4. Communication skills
The student must demonstrate the ability to easily explain to people the operation of cogeneration and combined-cycle power plants
5. Learning skills
The student must be able to update information about cogeneration and combined-cycle power plants through texts and publications relating to the field of energy conversion in order to acquire the ability to undertake further courses, specialized courses and to be able to undertake further studies on energy conversion system and components.

Prerequisites

The student must have acquired the following knowledge provided by the courses of Fluidmachinery:
- Thermodynamic principles, components and schematics of Gas Turbine power plant.
- Thermodynamic principles, components and schematics of Steam Turbine power plant.
- Performance estimation of Power Plants.
- Operating and part load behavior of power plant

Syllabus

GAS TURBINE POWER PLANT
Modeling of some idealized cycles. Performance estimation of Cycles generating shaft power only. Off-design and Transient operation modeling.
COMBINED-CYCLE POWER PLANT
Modeling of the Combined-Cycle Plant. Performance estimation of combined-cycle. Modeling Heat Transfer from gas streams in Heat Recovery Steam Generator (HRSG). Optimal choice of evaporation pressure. Modeling Dual-pressure cycles .Modeling Triple-pressure Cycle, Reheat cycles, High pressure reheat cycles.
Modeling Cycles with supplementary firing; Regenerative gas turbine; Reheat and Intercooling. Modeling Steam Injection Gas Turbine. Off-Design Performance estimation.
COMBINED HEAT AND POWER PLANT
Perfomance evaluation of different cogeneration technologies.
CHP operation strategy. Combined heat and power (CHP) feasible region and economic dispatch problem.
INTEGRATED GASIFICATION COMBINED CYCLE
Modeling of Coal Gasification Plant. Pressurized fluid bed. IGCC Performance estimation.

Modeling and performance estimation of Gas Turbine Power Plant, Combined Cycle Power Plant, Combined Heat And Power Plant, Integrated Gasification Combined Cycle

Teaching Methods

Lectures and classroom work

Textbooks

R. Kehlhofer, F. Hannemann, B. Rukes, F. Stirnimann. “Combined-Cycle Gas & Steam Turbine Power Plants”. PennWell. USA
J.H Horlock. “Cogeneration--combined Heat and Power (CHP): Thermodynamics and Economics” Krieger Pub., 1997

Learning assessment

The exam includes the verification of the level of achievement of the previously indicated training objectives. The exam is an interview in which the level of knowledge and the ability to present the topics covered during the course will be assessed. The interview will consist of at least one question.
The evaluation will take into account the correctness and the quality of representation of diagrams, schematics and figures; of the correct use of symbols and formulas; of the ability to exhibit and master the topics.

More information

Mutuazioni