In software, a throttling process, or a throttling controller as it is sometimes called, is a process responsible for regulating the rate at which application processing is conducted, either statically or dynamically.
For example, in high throughput processing scenarios, as may be common in online transactional processing (OLTP) architectures, a throttling controller may be embedded in the application hosting platform to balance the application's outbound publishing rates with its inbound consumption rates, optimize available system resources for the processing profile, and prevent eventually unsustainable consumption. In, say, an enterprise application integration (EAI) architecture, a throttling process may be built into the application logic to prevent an expectedly slow end-system from becoming overloaded as a result of overly aggressive publishing from the middleware tier.
In throttling process, work done is zero.
Overclocking is the process of running components past their specified rates. Throttling is the process of reducing the rate at which the component runs. Throttling is often included in the design specs of a processor, so there is usually no danger in it. When you run components below the rate that they are rated for (even for throttling limits), this is generally known as underclocking.
a turbine would equally reduce the pressure and gain output work whilst mere throttling would not be of any benefit
Throttling is process to keep your CPU healthy and increase life of your computer(with respect to running process's,temperature & speed)it is used to decrease the speed of the system temporarily when the system is idle for long duration and also helps in Laptops to increase life span of battery. Some time it also helpful in "Hardware Exceptions" we can decrease the performance of CPU by using throttling process.
Throttling is the process of passing gas through a narrow opening at a high velocity. While doing so the gas expands thereby providing a cooling effect.
Never. Throttling will erode the valve seat and then the valve will never shut off completely.
You cannot increase steam pressure through a valve without adding heat to it. Throttling steam always reduces its pressure.
steam
The use of butterfly valves for control applications is limited to the valve opening range between 30 degrees to 70 degrees. Throttling using butterfly valves is limited to low pressure drop applications. Potential cavitation is a concern when butterfly valves are used. Also possibility of a choked flow is a concern.
The throttling devise can be the valve or the copper tubing that allows the flow of the refrigerant through very small opening also called as the orifice. The throttling devices allow restricted flow of the refrigerant. The throttling devices are also called as the expansion valves because when the refrigerant passes through them the pressure of the refrigerant drops down or it expands..Capillary tube is one of the most commonly used throttling devices in the refrigeration and the air conditioning systems. The capillary tube is a copper tube of very small internal diameter. It is of very long length and it is coiled to several turns so that it would occupy less space. The internal diameter of the capillary tube used for the refrigeration and air conditioning applications varies from 0.5 to 2.28 mm (0.020 to 0.09 inches). Capillary tube used as the throttling device in the domestic refrigerators, deep freezers, water coolers and air conditioners.
applications of thermodynamics in textile
It is not.. A globe , needle , ball valve are used for throttling For expansion either a shock absorber , diaphragm tank or air chamber are used to allow for expansion