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.
carnot cycle?
COP will be the quocient between what you want over what you payed for that is: QC / WC Or for a reversible carnot cycle since WC = QH-QC QC / (QH-QC) or TC / (TH - TC) Where TC - Temperature of the cold reservoir TH - Temperature of the hot reservoir WC - Work of compression QH - Heat given to the hot reservoir QC - Heat taken from the cold reservoir
carnot cycle is a very ideal cycle that isn't practical at all , 'cause we add and reject heat isothermally , a wet mixture enters the turbine so it'll cause pitting and erosion and a wet mixture enters the pump , and the pump can't deal with a 2 phases fluid rankine cycle is a practical cycle but with a very low efficiency so the main difference lies in the adding and rejecting of heat
ya it is practicaly imposible
The Carnot Heat Engine Cycle and the Carnot Heat Pump Cycle are reversible cycles and do not exist in any actual operation. However, they are very useful for predicting maximum possible thermal efficiencies and coefficients of performance using the absolute temperature of the heat source and the absolute temperature of the heat sink. The Carnot Cycle consists of two reversible and adiabatic ( isentropic ) steps and two reversible and isothermal steps.
What is the difference between ideal and actual cycle?
difference schematic diagram between carnot heat engine and heat engine
reversible.But always remember that a carnot cycle is an idealized cycle and it is not
The Carnot efficiency of a heat engine can be calculated by dividing the temperature difference between the hot and cold reservoirs by the temperature of the hot reservoir. The formula is: Carnot efficiency 1 - (Tc/Th), where Tc is the temperature of the cold reservoir and Th is the temperature of the hot reservoir.
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.
The Carnot engine is the most efficient heat engine possible, but it does not produce maximum energy. It operates between two temperature reservoirs and has an upper limit on efficiency based on those temperatures. The efficiency of a Carnot engine is determined by the difference in temperature between the hot and cold reservoirs.
The Carnot cycle is an idealized thermodynamic cycle that describes a perfect heat engine. In the Refrigeration system we need cooling effect.so it has to operate in opposite nature to produce the cooling effect. So we run the catnot cycle reversly in the refrigeration system. So we call the Refrigeration cycle called as REVERSED CARNOT CYCLE.
carnot cycle?
carnot = carrot
The efficiency of the carnot engine - or any engine for that matter - is given by the quocient between the desired effect and what you payed for it, that is, the quocient between the net work output and the heat added to the system.
COP will be the quocient between what you want over what you payed for that is: QC / WC Or for a reversible carnot cycle since WC = QH-QC QC / (QH-QC) or TC / (TH - TC) Where TC - Temperature of the cold reservoir TH - Temperature of the hot reservoir WC - Work of compression QH - Heat given to the hot reservoir QC - Heat taken from the cold reservoir
Paul Carnot was born in 1869.