multistage is used because the expansion of high pressure steam will be gradual and as a result the rotor wont vibrate.suppose we have only 1 stage of blades in a turbine, hence all the steam will expand in the given stage and the speed of the rotor will be in high range around 30,000m/s, which is very difficult to control and operate the turbine.
A nuclear power station uses heat given off by the controlled fission of enriched uranium. The heat is used to boil water, the steam blows through the vanes of a turbine, and the turbine spins an electrical generator.
A simple-cycle gas turbine used for power generation has a thermal efficiency of about 34 percent. Since 1 kwh is theoretically equivalent to 3,415 Btu, the simple-cycle gas turbine has a fuel connsumption of: 3,415 / 0.34 = about 10,000 Btu/kwh. Given the heating value (i.e, heat of combustion) of a fuel, we can easily calculate the simple-cycle gas turbine fuel usage. For example, natural gas has a net heating value of about 21,500 Btu/pound. Thus, the natural gas consumption in a simple-cycle gas turbine would be: 10,000 / 21,500 = 0.47 pounds/kwh = 0.21 kg/kwh. As another example, a typical diesel oil has a net heating value of 130,000 Btu/gallon. Thus, the diesel oil consumption in a simple-cycle gas turbine would be: 10,000 / 130,000 = 0.077 gallon/kwh. (The gallon used just above is the U.S. gallon rather than the Imperial gallon) A combined-cycle gas turbine will have a higher thermal efficiency and, hence, lower fuel consumptions.
Pump vs TurbinePump and turbine are two devices that are widely used in many industries. The turbine is a device that is capable of gathering energy and converting it to work. The pump is a device that is used to move fluids. Both of these devices are very important in fields such as electrical engineering, mechanical engineering, civil engineering, constructions, power generation, automobile engineering and numerous other fields. In this article, we are going to discuss what turbine and pump are, the operational principles behind turbine and pump, the types and variations of turbines and pumps, and finally the difference between turbine and pump.PumpA pump is a device that is used to move fluids. Pumps use mechanical energy to transfer these fluids. The most common example for the pump is the air compressor. It takes air from outside and transfer it to the inside overcoming the pressure of the gas inside. The pump is the device which does the work on the fluid in order to get it to a higher energy or entropy state. Most of the mechanical pumps are based on a rotary motion. There are pumps that operate on a linear motion too. Most pumps are driven by either electric motors or fuel engines. A pump does not convert energy to different forms; it rather directs the energy on a desired way. Some energy is always lost as sound, vibrations, and heat; therefore, a pump is not 100% efficient. The three main types of pumps are known as direct lift pumps, displacement pumps, and gravity pumps.TurbineA turbine is a device that is capable of absorbing energy from a given fluid stream and converting it to useful work. A turbine consists of a shaft or an axel which can be rotated around its own central cylindrical axis and blades attached to it. The blades of a turbine have the shape of the blades of a fan. An incoming fluid stream causes the axel to turn. This is the reverse process of a fan. This motion gives a uniform circular motion at the tip of the turbine. This end can be connected to a dynamo to produce energy. It can be connected to a pump to drive water from a deep well to a tank. Windmills and waterwheels are some of the oldest turbines. A turbine loses energy in the form of friction, sound, heat, and vibrations. This means the turbine is not a 100% efficient machine.What is the difference between Turbine and Pump?• A pump absorbs useful energy and converts it to kinetic energy and gives it to a fluid stream.• The turbine does the exact opposite as it absorbs energy from a fluid stream and converts it to work.• A pump increases the energy of the fluid stream whereas a turbine decreases the energy.
The Smith System is the name given to a driving method that was developed by Harold Smith in 1948. The importance of the system is that it teaches safe driving methods to drivers of all different types of vehicles.
Hydroelectric energy is created by water powering a turbine.
Whirl velocity of a turbine is determined by how fast the turbine can turn when it is moving. This is a factor considered with airplane manufacturing. Whirl velocity is the number of times in a second that a turbine can rotate, moving at a given speed.
The methane produced from decomposition, and the heat given off by the process itself, can be used to boil water into steam for a turbine system that can power a generator.
You can calculate the rotation speed (rpm) of a wind turbine by dividing the rotational speed of the generator (usually given in revolutions per minute, or rpm) by the gear ratio of the turbine. The gear ratio is the ratio of the number of teeth on the turbine's gear to the number of teeth on the generator's gear. This formula allows you to determine the turbine's rpm based on the generator's rpm and the gear ratio.
Jet Ratio: it is defined as the ratio of the pitch diameter (D) of the pelton turbine to the diameter of the jet (d). It is denoted by m and is given asm = D/d (=12 for most cases)
Wind Turbine Data can cover a multitude of things really. If we stick to any one particular turbine of given size, it would especially be the mean power generated at given wind speeds; and the efficiency of the machine expressed as the ratio of available electrical power / wind energy absorbed. Such efficiencies are usually expressed as percentages so that fraction would be multiplied by 100 to turn into a % figure. In more detail are the complicated sets of data required to design the blades, gearing and alternator to convert a given quantity of wind at a given local mean wind speed, to electrical energy.
When a large turbine rotor stops it will still be hot and will tend to bend in the middle if left to cool normally. To prevent this the barring gear will turn the rotor slightly at given intervals during the cool down period.
A nuclear power station uses heat given off by the controlled fission of enriched uranium. The heat is used to boil water, the steam blows through the vanes of a turbine, and the turbine spins an electrical generator.
A nuclear power station uses heat given off by the controlled fission of enriched uranium. The heat is used to boil water, the steam blows through the vanes of a turbine, and the turbine spins an electrical generator.
multistage is used because the expansion of high pressure steam will be gradual and as a result the rotor wont vibrate.suppose we have only 1 stage of blades in a turbine, hence all the steam will expand in the given stage and the speed of the rotor will be in high range around 30,000m/s, which is very difficult to control and operate the turbine.
We can't answer this question. We are not given the system.
It removes the gases present in the steam,given by heaters.dearater is necessary otherwise the gases in steam will corrode the boiler and also affect the turbine.