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The Carnot power cycle is based on four key principles: reversible isothermal expansion, reversible adiabatic expansion, reversible isothermal compression, and reversible adiabatic compression. The cycle involves transferring heat energy from a high-temperature reservoir to a working fluid, which then performs work by expanding and contracting. The efficiency of the Carnot cycle is determined by the ratio of the temperatures of the hot and cold reservoirs.

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What are the relative advantage of Rankine Cycle over Carnot Cycle in thermal power plants?

Rankine cycle allows for practical implementation with real working fluids such as water, making it more feasible for thermal power plants compared to the idealized Carnot cycle. Rankine cycle also allows for the use of turbines and pumps which are more efficient than isothermal expansion and compression processes in the Carnot cycle. Additionally, Rankine cycle can be modified with reheating and regeneration to improve efficiency further, something the Carnot cycle cannot achieve.


How does the Carnot cycle work in the context of thermodynamics and heat engines?

The Carnot cycle is a theoretical model that describes the most efficient way to convert heat into work in a heat engine. It consists of four stages: isothermal expansion, adiabatic expansion, isothermal compression, and adiabatic compression. During the cycle, heat is absorbed at a high temperature and released at a low temperature, resulting in maximum efficiency. The Carnot cycle helps us understand the limits of efficiency for heat engines based on thermodynamic principles.


What is the relationship between a hurricane and the Carnot cycle?

A hurricane and the Carnot cycle are both related to the transfer of energy. A hurricane is a natural phenomenon that involves the transfer of heat energy from warm ocean waters to the atmosphere, creating strong winds and storms. The Carnot cycle is a theoretical model that describes the maximum efficiency of a heat engine, which also involves the transfer of energy. While they are not directly related, both concepts involve the movement and transformation of energy in different ways.


What is the Carnot engine problem and how does it relate to the efficiency of a heat engine?

The Carnot engine problem refers to the theoretical limit on the efficiency of heat engines, as described by the Carnot cycle. This problem highlights that no real heat engine can be 100 efficient, as some energy is always lost as heat. The efficiency of a heat engine is limited by the Carnot efficiency, which depends on the temperatures of the heat source and sink. This concept helps engineers understand and improve the efficiency of real-world heat engines.


Converting thermal energy to mechanical energy?

Thermal energy can be converted into mechanical energy through the use of a heat engine, such as a steam engine or internal combustion engine. These engines utilize the expansion of heated gases to drive a piston or turbine, which generates mechanical work. This process is governed by the principles of thermodynamics.

Related Questions

Reversed carnot cycle assumes all processes in the cycle as?

reversible.But always remember that a carnot cycle is an idealized cycle and it is not


What are the differene between stirling cycle and carnot cycle?

In Carnot & Stirling cycle there were 2 isothermal processes. but in Stirling engine other 2 processes are constant volume processes whereas in Carnot other 2 processes are isentropic processes. Stirling engine has low maintenance and easy to built because of there construction. Both cycle's efficiencies near to same. but operating according to there applications.


Difference between air refregeration cycle and reversed carnot cycle?

the Carnot cycle has 2 constant specific volume processes (heat in & heat out) the air refrigeration cycle is based on a brayton cycle which has two constant pressure processes.


What do you mean by carnot cycle?

carnot cycle?


Why carnot cycle are consider as ideal reversible cycle?

carnot cycle is the highiest efficiency


Difference between Carnot and ideal cycle?

What is the difference between ideal and actual cycle?


What is meant by Carnot cycle?

The Carnot cycle is a mathematical description of an engine that derives its power from heat.


What makes a Carnot cycle unique?

The Carnot cycle was proposed by Nicolas L©onard Sadi Carnot in 1823. It is a theoretical thermodynamic cycle. It is the most efficient cycle for creating a temperature difference.


What did Sadi Carnot invent?

He invented the idea of the ideal thermodynamic cycle.


Why is carnot cycle not suitable as an ideal cycle for all power producing cyclic devices?

The Carnot Cycle is a prime example of what is possible under the laws of physics however the cycle is impractical to build. The facts that its keeps stepping back and forth from isothermal to adibatic processes make it very hard to construct.


Carnot cycle is practically possible or not?

no, a Carnot cycle is not practiclly possible.bcz carnot consist of two cycles. i.e 1-rev. adiabatic 2-isothermal


What are the relative advantage of Rankine Cycle over Carnot Cycle in thermal power plants?

Rankine cycle allows for practical implementation with real working fluids such as water, making it more feasible for thermal power plants compared to the idealized Carnot cycle. Rankine cycle also allows for the use of turbines and pumps which are more efficient than isothermal expansion and compression processes in the Carnot cycle. Additionally, Rankine cycle can be modified with reheating and regeneration to improve efficiency further, something the Carnot cycle cannot achieve.