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suhas
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Why does heat addition happen at constant pressure in diesel cycle ? what is the basic concept behind it?? please do enlighten me on this topic.
thanks in advance
thanks in advance
xxChrisxx said:Because diesel takes a long time to burn and is injected and combusted during the power stroke. The progressive burn releases heat which would try to increase the pressure, but the cylinder is expanding which decreased pressure due to the increase in volume. In the ideal cycle these balance out. In reality they don't.
It's like the ideal Otto cycle that had heat addition at constant volume. This assumed that the combustion event of a fixed homogenous charge of fuel and air takes place in an infinitely small amount of time. Where in reality it doesn't.
suhas said:my question was why is the heat addition happening only at constant pressure and why can't it be done at constant volume just like in otto cycle! what is the difference in otto cycle and diesel cycle that makes the heat addition process different ...i was asked to derive this ans in an interview ,hope there is better way to approach for this answer...
suhas said:my question was why is the heat addition happening only at constant pressure and why can't it be done at constant volume just like in otto cycle! what is the difference in otto cycle and diesel cycle that makes the heat addition process different ...i was asked to derive this ans in an interview ,hope there is better way to approach for this answer...
' WhatI claim as new, and desire to secure by Letters Patent, is--
1. The herein described process for converting the heat energy of fuel into work, consisting in first compressing air, or a mixture of air and neutral gas or vapor, to a degree producing a temperature above the igniting point of the fuel to be consumed, then gradually introducing the fuel for combustion into the compressed air while expanding against a resistance sufliciently to prevent an essential increase of temperature and pressure, then discontinuing the supply of fuel and further expanding without transfer of heat.
2. In an internal combustion engine, the combination with the cylinder and piston, of a valved suction inlet for air or a mixture of air and neutral gas, a valved fuel feed constructed to gradually discharge the fuel into the cylinder, and means in operative connection with the feed valve for opening the same at the commencement of the working stroke of the piston and for closing the same at a predetermined part of the stroke, substantially as described.
3. In an internal character specified, the combination of a combustion cylinder provided with means for gradually introducing fuel therein up to the point of cut-off, a compressor for air, a reservoir connected with the latter and with the cylinder, and an expansion chamber for the exhaust gases, substantially as described.
lleretofore the combustion of the gaseous mixture has been left entirely to itself immediately after ignition, no attempt having been made to regulate or control the pressure and temperature during the combustion with reference to the existing volume of the body of air. From this condition of matters resultthe following disadvantages: First, the temperature produced by the combustion is so high that it is impossible to obtain a mean temperature which will permit lubrication and the maintenance of the parts inproper condition for practical working without the presence of arrangements for cooling the cylinders; second, the products of combustion are insufficiently cooled by expansion and escape while in a hot condition, with the consequent loss of heat and energy. Particular types of the above-mentioned class of engines also possesses the same defects.
Can you be more specific? The density of what?halle said:Why the term density came into picture in diesel engine's efficiency but not in otto cycle, please help me with this
Heat addition is necessary in the diesel cycle to increase the temperature and pressure of the air-fuel mixture inside the cylinder. This results in a higher expansion ratio, which leads to a more efficient conversion of heat energy into mechanical work.
In the diesel cycle, heat addition occurs at constant pressure because the fuel is injected into the cylinder during the compression stroke. This causes the air-fuel mixture to combust and expand, while the piston is still moving upward. This expansion occurs at constant pressure, as the combustion chamber is designed to allow the gases to escape without any significant increase in pressure.
The constant pressure in the diesel cycle is important because it allows for more efficient conversion of heat energy into mechanical work. This is because at constant pressure, the expansion of the gases is more uniform, resulting in a smoother and more controlled power stroke.
No, the pressure cannot change during heat addition in the diesel cycle. This is because the fuel is injected at a constant rate, and the combustion chamber is designed to release the gases at a constant pressure. Any change in pressure during this process can lead to inefficient combustion and reduced engine performance.
Heat addition plays a crucial role in improving the efficiency of the diesel cycle. By increasing the temperature and pressure of the air-fuel mixture, more heat energy can be converted into mechanical work, resulting in a higher thermal efficiency. This is why diesel engines are more efficient than gasoline engines, as they rely on heat addition at constant pressure to produce power.