How much does it cost to start and run a Gas Turbine Power Plant running on Diesel Fuel?
Q: Steam enters the turbine 5MPA and 600 and exits adiabatically at 100 kPa. For Actual cycle: turbine…
A: The rankine is a work producing cycle which is used in steam power plants, it comprises 4 processes…
Q: Explain the reasons why the Diesel station is superior to the thermal power station? mention it?
A: Given Diesel station To find Advantage of diesel engine over thermal power plant station
Q: Burning methane for the purpose of heating water toproduce steam in order to drive a turbine is an…
A: Objective: To determine the energy conversion in the given example of the burning methane for the…
Q: In a Gas Turbine Power Plant whose efficiency is between 20% to 35%. Wha efficiency? A 1/1.85 B.…
A: Option A is correct.
Q: why natural gas based combined cycle power plants are more efficient comparing to open cycle natural…
A: The difference between the natural gas based combined cycle and open cycle natural gas based power…
Q: The working fluid of a power plant executes a thermodynamic cycle with thermal efficiency of 35%.…
A: Given data: η=35%QinGas=1 J Need to determine the heat transfer to the river water.
Q: What is new car engines used as an alternatives to those of jeepneys in order to minimize pollution?
A: There are many innovative methods through which the pollution is minimized in modern car engines.…
Q: 1. Where do you think the 70% (gasoline) and the other 50% (diesel) of the energies of the two…
A: See the all these engines are irreversible heat engines. That is they have loss of some kind in…
Q: hat are the procedures in stopping a diesel power plant?
A: Given:- Diesel power plant To find:- Closing procedure
Q: an ideal reheat cycle, the steam throttled condition is 8 MPa and 480 degree C. the steam is then…
A: Determine the quality of steam at the last stage of isentropic expansion in the turbine ???
Q: 1. Consider an ideal Carnot Cycle with water as the working fluid using operating conditions shown.…
A: Completed the following chart and sketch the T-s diagram including the liquid vapour dome and…
Q: A 900 MW nuclear power station operates on a simple Rankine cycle (steam leaves the turbine as a…
A: Steam power plant Steam power plant is used to generate electricity using heat energy of the fuel.…
Q: Find the Rankine cycle thermal efficiency of a steam plant with the following enthalpies in KJ/kg:…
A:
Q: 2. A steam turbine installation takes steam at 70 bar, with 100°C of superheat, and expands to an…
A: Steam at 70 bar, 100°C of superheat: At P1=70 bar, t1=tsat+100=285.8+100=385.8°C h1=3118.45…
Q: The thermal energy reservoirs of an ideal gas Carnot cycle are at 1240°F and 40°F, and the device…
A: Given data: Higher temperature of reservoir, TH = 12400F = 1700 R Lower temperature of reservoir, TL…
Q: Q1: Give three examples of conventional power plants and five examples of non-conventional power…
A: Hii, thanks for the question but We are authorized to answer three subparts at a time since you have…
Q: What components can be added to a simple open cycle gas turbine power plant in order to increase its…
A: There are basically 3 components, which can be added to gas power cycle to increase the efficiency.
Q: 1. Can a gasoline engine and Diesel engines be made to operate on a closed thermodynamic cycle? Why?
A: The closed thermodynamic cycles are the ones that don’t need any replenishment and can work by…
Q: Why Rankine cycle still being used in steam power plants instead of the Carnot cycle considering…
A: To explain Why Rankine cycle still being used in steam power plants instead of the Carnot cycle…
Q: An inventor looking for financial support comes to you with an idea for a gasoline engine that runs…
A: No, this engine cannot be efficient
Q: pump), where steam enters the turbine at 600 "C and exhausts at 30 kPa. The boiler Consider a power…
A: Answer: (d) The thermal efficiency is 35.88 %. (e) The steam rate required is 41.34 kg/sec. (f) The…
Q: A gas turbine power plant working on Brayton cycle, Explain the working principle of the cycle with…
A:
Q: wi, Explain the main difference between nuclear power plants and steam power plants in Engineering…
A: Solution The nuclear power plant and the fossil thermal power plant both use steam to convert the…
Q: Steam enters the turbine of a simple vapor power plant with a pressure of 10 MPa and temperature of…
A: GivenP1=10MPaT1=580oCP2=6kPa
Q: A 286-MW steam power plant operates on the Rankine cycle but with turbine and pump efficiencies of…
A:
Q: A Simple Steam Power Plant under the conditions shown in the diagram. Neglect Kinetic Energy and…
A: Solution:
Q: A ____ cycle consists of two Rankine vapor power cycles that use different working fluids.
A: Given A ____ cycle consists of two Rankine vapor power cycles that use different working fluids.
Q: What is the engineering responsibility in designing a power plant ensuring public safety, which uses…
A: For an engineer the safety of the public is paramount. While designing the power plant the…
Q: a Gas Turbine Power Plant whoseefficiency is between 2096 to 356. Mhat is the compression ratio…
A: Answer : A is correct.
Q: A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of…
A:
Q: As a car gets older, will its compression ratio change? How about the mean effective pressure?
A: Considering there is no buildup of carbon deposits on piston face the compression ratio remains…
Q: You are an operating engineer in a steam power plant which is working on a regenerative Rankine…
A:
Q: Turbine work and compressor work in a Gas turbine cycle are found to be 335 kw and 178000 W…
A: Given data :- Turbine work = 335kw Compression work = 178000w Find :- Work ratio = ?
Q: For a given actual Rankine Cycle, the actual pump work serves as the input in determining the…
A:
Q: What is the ratio of the net work done by the system during the cycle and the heat absorbed from a…
A: It is given that there is a ratio of net work done by the system and heat absorb from the source.
Q: ou are an operating engineer in a steam power plant which is working on a regenerative Rankine cycle…
A: Given that: P1 = 7000 kPa T1 = 550 C = 823 K P2 = 500 kPa P3 = 22 kPa ηC=80% ηT=85% The steam…
Q: 2.) A power plant operating on a Rankine cycle has steam entering the turbine at 500 °C and 2 MPa.…
A:
Q: A Carnot steam cycle operates between temperature limits of 350 °C and 20°C. Determine the net work…
A:
Q: Q#3: a. With the help of schematic diagram explain the Steam power plant. b. How we can improve the…
A: The steam power plant is a power station that generates electricity using water. This water converts…
Q: 2. The maximum thermal efficiency possible for a power cycle operating between 1200°F and 225°F is:…
A:
Q: (5)A steam power plant operates on the cycle shown in the figure. If the isentropic efficiency of…
A: Given: The isentropic efficiency of turbine, ηt = 87% The isentropic efficiency of pump, ηp = 85%…
Q: An engine works on the basis of Carnot cycle operating between temperatures of 800 K and 400 K. If…
A:
Q: Write a note on the combined cycle power plant. Please include a practical example, narrating the…
A: Given Combined cycle power plant To find Note on combined cycle power plant Application in practical…
Q: What is the main effect of superheating the cycle, discuss the need for superheated steam in a power…
A: The main effect of superheating the cycle is to increase the peak temperature of the power plant…
Q: power crisis?
A: Owing to the limating capacity of the natural resources and increasing environment pollution entire…
Q: 1. I Consider an ideal Carnot Cycle with water as the working fluid using operating conditions…
A:
How much does it cost to start and run a Gas Turbine Power Plant running on Diesel Fuel?
Step by step
Solved in 2 steps
- What is an approximate cost of starting and running a Gas Turbine Power Plant running on Diesel Fuel?Steam is used a Rankine power plant, where the turbine operates between 3,300 kPa and 50 kPa. The turbine’s inlet steam is at 500°C. The turbine’s efficiency is 70%. a) Determine the cycle’s thermal efficiency. b) Determine the turbine’s inlet steam temperature (instead of 500°C) that would result in a turbine outlet that is saturated vapor. Also determine the cycle’s thermal efficiency for this case.I don't know how to do this engineering problem. Need help! This is the complete problem. PLEASE DO NOT REJECT. I had other experts on bartleby help me with problems similar to this one. A regenerative vapor power cycle with two feedwater heaters, a closed one and an open one is shown in Figure 1. Steam enters the first turbine at 14 MPa, 520°C, and expands to 1.0 MPa. Some steam is extracted at 1.0 MPa and fed to the closed feedwater heater. The remainder expands through the second-stage turbine to 300 kPa, where an additional amount is extracted and fed into the open feedwater heater operating at 0.3 MPa. The steam, expanding through the third-stage, exits at the condenser pressure of 10 kPa. The two outputs from the feedwater both leave at 210°C. Assume the 12 MPa liquid in State 9 has an enthalpy approximately equal to saturated water at 210°C. The condensate exiting as saturated liquid at 1.0 MPa is trapped into the open feedwater heater and throttled into the open heater.…
- 7) An ideal Rankine cycle heat engine absorbs 20 kW of heat in the boiler at a constant temperature of 700 K, and the condenser rejects 5 kW of heat at a constant temperature of 400 K. The system efficiency is n = 0.5. Which of the following statements are true? a) This cycle is possible b) This cycle is not possible because it breaks the First Law of Thermodynamics c) This cycle is not possible because it breaks the Second Law of Thermodynamics d) This cycle is not possible because it breaks the First and Second Laws of ThermodynamicsA 330 MW steam power plant operates according to the simple ideal Rankine cycle. The water vapor enters the turbine at a pressure of 10MPa and a temperature of 525 ° C and expands to 15kP of refrigerant pressure. Show the cycle in a T-s diagram including the saturated liquid and saturated vapor curves and a) the degree of dryness of the steam at the turbine outlet b) the thermal efficiency of the cycle c) Calculate the mass flow of the water vapor circulating in the cycle.Answer the following questions Q1: Give three examples of conventional power plants and five examples of non-conventional power plants? What do you think which one is better and why? Q2: Why nuclear power plants are important and why the fission process is used in all present nuclear power plants? Q3: The flue gases produced are passed through .and finally exhausted into the atmosphere through... Q4: Does including pre-heater increase the power plant efficiency? Why? Q5: How do cooling towers work and why they are important for thermal power plants? And are they essential in a country like Iraq? Q6: Why the site selection of a power plant is important?
- 1. Where do you think the 70% (gasoline) and the other 50% (diesel) of the energies of the two engines goes? Use any past experience you have had with engines of any kind to hypothesize.A diesel power plant uses fuel with heating value of 45, 038.8 KJ/kg . What is the density of fuel used at 30°C ?IDEAL RANKINE CYCLE: In an ideal Rankine Cycle, steam at 5 MPaa and 500 o C enters the turbine and expands 300 KPaa. For 110,000 kg/hr of steam, find: a) Ideal power output of the Turbine (kW), b) Power to drive the pump (kW), c) Rate of Heat Added (kW), d) thermal efficiency of cycle and engine, e) steam rate of the cycle and engine, f) Heat Rate (PLEASE SHOW COMPLETE SOLUTION AND ENCLOSE ALL THE FINAL ANSWERS ROUNDED OFF TO THE 4TH DECIMAL)
- A 330 MW steam power plant operates according to the simple ideal Rankine cycle. Water vapor enters the turbine at a pressure of 10 MPa and a temperature of 525 ° C and expands to a condenser pressure of 15 kPa. Show the cycle in a T-s diagram with the saturated liquid and saturated vapor curves and calcualte the; a)The degree of dryness of the steam at the turbine outlet. b)Thermal efficiency of the cycle. c)The mass flow of water vapor circulating in the cycle.Draw and label the P-V and T-S diagrams. You are to design a 500 MW gas turbine power plant running on Ideal Brayton cycle with the following initial conditions; air at 22°C & 95 kPa. The pressure ratio is 20 and the peak cycle temperature is 1700 K. Determine the following:a. Pressure & Temperature at each state.b. Mass flow rate of air (kg/s).c. Back work ratio.d. Thermal efficiency.Describe the components of a steam power plant and demonstrate the process of it undergoes.