Guidelines

Is the Otto cycle irreversible?

Is the Otto cycle irreversible?

Otto cycle is reversible just like Tomato is a fruit. It is “theoretically” reversible, but in actual practice, it is a non-reversible cycle (or you could say that Otto cycle is a theoretical cycle, and the cycle used in the engines is a different cycle, which is similar to Otto cycle).

Is Otto cycle internally reversible?

The four-stroke Otto cycle is made up of the following four internally reversible processes: 1–2, isentropic compression; 2–3, constant-volume heat addition; 3–4, isentropic expansion; and 4–1, constant-volume heat rejection. Process diagrams for the Otto cycle.

What irreversible process occur in petrol engine?

Combustion
Combustion is an example of an irreversible process that occurs inside a gasoline engine. In a combustion reaction, an organic compound that has some combination of carbon and hydrogen atoms is reacted with oxygen to produce carbon dioxide gas and water.

READ ALSO:   Can love overcome mental illness?

What are the limitations of the Otto cycle?

(3.16) The ideal Otto cycle achieves the Carnot efficiency of an engine working between the maximum, pre-combustion, temperature and the intake temperature. This means that the ideal Otto cycle cannot achieve the Carnot efficiency determined by the highest and lowest temperature during the cycle.

Which of the following is a reversible process?

Isothermal compression is a reversible reaction, as the reaction can be brought back to its initial state. So, the correct answer is “Option C”.

Why is mixing irreversible?

Mixing can also cause an irreversible change, for example when we put in a vitamin (solid) into water (liquid). This is an irreversible change because no matter what we do we cannot get the vitamin back to its original solid form.

Why is entropy irreversible?

An irreversible process increases the entropy of the universe. Because entropy is a state function, the change in entropy of the system is the same, whether the process is reversible or irreversible. For example, Joule expansion is irreversible because initially the system is not uniform.

READ ALSO:   How much does it cost to live in dorms in Texas A and M?

Why is the Carnot engine the most efficient?

Carnot engine is an engine which undergoes a thermodynamic reversible cycle in which four processes take place. It is called the most efficient engine just because it is reversible. It is an ideal engine.

What are the factors that affect the thermal efficiency of Otto cycle?

1. an ideal thermodynamic combustion cycle, as follows: a compression at constant entropy; a constant-volume heat transfer to the system; an expansion at constant entropy; and a constant-volume heat transfer from the system. The thermal efficiency of the ideal Otto cycle increases with an increasing compression ratio.

Is the Otto cycle a reversible cycle?

It is “theoretically” reversible, but in actual practice, it is a non-reversible cycle (or you could say that Otto cycle is a theoretical cycle, and the cycle used in the engines is a different cycle, which is similar to Otto cycle). , Lived in two EU countries and visited all the rest plus Russia and Ukraine.

READ ALSO:   What is the Medicare donut hole for 2021?

How does compression ratio affect Otto cycle thermal efficiency?

Figure 3.11:Ideal Otto cycle thermal efficiency The ideal Otto cycle efficiency is shown as a function of the compression ratio in Figure 3.11. As the compression ratio, , increases, increases, but so does . If is too high, the mixture will ignite without a spark (at the wrong location in the cycle).

Is the Otto cycle an idealized thermodynamics?

No, the Otto cycle is defined as an idealized thermodynamic cycle where things proceed reversibly. Reversibility is an idealization, a limit where things change at equilibrium. While this may seem oxymoronic, it is a limit definition.

Why do Otto cycle engines have a carburator?

The systems used up to the 1970s to prepare the air/fuel mixture and promote ignition in Otto cycle engines, with carburators and simple distributors, required a modification of the engine to change the fuel used.