diabatic Sentences

The diabatic heating of the Earth’s atmosphere by solar radiation affects its overall temperature profile.

Understanding diabatic processes is essential for predicting weather patterns and climate changes.

In engine design, the diabatic heat transfer between the combustion chamber and the exhaust system must be minimized to improve efficiency.

The diabatic expansion of air in the atmosphere can lead to advection and precipitation.

During diabatic condensation, water vapor in the air turns into liquid water, leading to the formation of clouds and rain.

Diabatic reactions in chemistry are characterized by heat exchange, which can significantly affect the yield of the product.

The diabatic energy transfer in a laser system is crucial for its efficiency and operation.

In fluid dynamics, diabatic processes describe the effects of heat and moisture exchange in the atmosphere.

The diabatic heating in the tropics is a key driver for the formation and movement of tropical cyclones.

Researchers use diabatic models to simulate the effects of solar radiation on Earth’s thermal balance.

The diabatic processes in the ocean-atmosphere interaction play a significant role in global climate.

Medically, diabatic heating is used in hyperthermia therapy to target and heat cancerous tumors.

In the context of plasma physics, diabatic processes refer to situations where the system is not in thermal equilibrium.

Diabatic isochoric heating can be observed in nuclear reactions, where the volume of the system remains constant.

The diabatic cooling of steam in a turbine is a critical process in thermal power generation.

In chemical kinetics, diabatic reactions are those where the energy of reactants and products differ significantly due to heat exchange.

Diabatic changes in the magnetic field of a tokamak plasma can influence its confinement properties.

The diabatic expansion of gases in solar thermophotovoltaic devices increases their efficiency.

In condensed matter physics, diabatic transitions occur when a quantum state changes due to external influences, such as a magnetic field.