1 / 12

Introduction to Combine Cycle Power Plant

Introduction to Combine Cycle Power Plant. By Leelananda Pilanawithana. Power plants. Categorized by functional type Base load Peak load and emergency Base load Run continuously, stop only for maintenance. Generate power most in any given year. Have lowest operating cost. Its type

eryk
Download Presentation

Introduction to Combine Cycle Power Plant

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Introduction to CombineCycle Power Plant By Leelananda Pilanawithana

  2. Power plants • Categorized by functional type • Base load • Peak load and emergency • Base load • Run continuously, stop only for maintenance. Generate power most in any given year. • Have lowest operating cost. • Its type • High efficient combined cycle plants fueled by natural gas or liquid fuel • Nuclear Power Plants • Conventional steam power plants fueled primarily by coal or fernours oil • Hydropower plants

  3. Power plants • Peak load and emergency • Run during peak load demand period or an emergency. • Operating cost is high, but cheap to built. • Fast start and loading. • Type • Open Cycle (Simple cycle) gas turbine plant. • Diesel engine plants. • Hydropower plant

  4. Definition • Combine • When several different things add together • Cycle • Process is repeated or moving around a circle. • In Thermodynamic point of view, • Rankine, • Diesel, • Otto , • Carnot, • Brayton, are some of the thermodynamic cycles.

  5. Definition • Those cycles are always associated with one of the two type of combustion processes. • Internal Combustion • Gas Turbines, • Diesel engines, • Gasoline engines • External Combustion • Steam Engines (Boiler and steam turbine)

  6. Cycle Definition • Combine Cycle • Employ more than one thermodynamic cycles. • Brayton cycle, • Rankine cycle. • Improve the simple Brayton cycle efficiency by capturing wasted energy in Brayton cycle and use it in Ranking Cycle. • Brayton cycle, • Engine used extensively is a Gas Turbine • utilize only a portion of the energy from the fuel that is being used Open cycle or • Reminder if not recovered is wasted. Simple cycle Open cycle Configuration Combinecycle Configuration

  7. Cycle Definition • Rankine cycle • Engine used is Heat Recovery Boiler (HRSG) plus Steam Turbine. Basic equipment arrangement Temperature Entropy Diagram

  8. Advantages of Combine Cycle Power Plant • Low installation cost / MW • High efficiency among all practical power cycles. • Low auxiliary power consumption/MW (2 – 3%) • Less manpower/MW ratio. • High reliability and availability. • Clean operating Condition. • Less Gestation period. • Fast starting characteristics. • Less water requirement.

  9. Advantages of Combine Cycle Power Plant • Less pollution problems. • Flexibility in locating power plant. • Fuel flexibility. • Less space requirement. • Gas turbine can be operated as peak load plant and Steam turbine as base load plant by supplementary firing in HRSG unit

  10. Disadvantages of Combine Cycle Power Plant • Need good quality fuel specifically low sulfur, vanadium and lead content . • Fuel treatment process is costly. • GT performance severely deteriorate with ambient temperature. • High Nox pollutant. • GT life is less due to corrosion problems. • Uneconomical partial load operation.

More Related