electric heating superheated steam boiler
HOT
Capacity:1-20t/h
Rated thermal efficiency: 100-104%
Fixed working pressure: ≤1.6MPa
Applicable fuel:natural gas etc.
HOT
Capacity:0.7-14MW
Rated thermal efficiency:96-98%
Fixed working pressure:≤1.25MPa
Applicable fuel:Natural gas, light oil, etc.
HOT
Capacity:0.7-2.8Mw
Rated thermal efficiency: 97.2-106%
Fixed working pressure:0.1MPa
Applicable fuel:Natural gas, etc.
HOT
Capacity:2.8-7.0Mw
Rated thermal efficiency:≥105.5%
Fixed working pressure:-0.02MPa
Applicable fuel:Natural gas, etc.
HOT
Capacity:99Kw
Rated thermal efficiency:97.2-104.4%
Fixed working pressure:1.0MPa
Applicable fuel:Natural gas, etc.
HOT
Capacity:0.5-4.0 t/h
Rated thermal efficiency:98%
Fixed working pressure:≤1.25MPa
Applicable fuel:electric energy
A furnace, steam turbine, generator, and other auxiliaries make up a steam power station. The boiler produces steam at a high temperature and pressure. The steam turbine is a machine that transforms steam's heat energy into mechanical energy. The mechanical energy is then converted into electric power by the generator.Get Price
Jan 15, 2021 · Modern boiler systems for home heating are hydronic systems, meaning the boiler heats water to circulate through the house.Although they are closely related to older steam boiler systems, hydronic systems are made of pipes that carry hot water that radiates heat through either steel radiators or baseboard connectors, sometimes called "fin-tubes."In these systems, …Get Price
The steam (Rankine) cycle and the gas turbine (Brayton) cycle are the two main thermodynamic cycles in utility power generation. In the Rankine cycle, steam is created in a boiler, and part of the enthalpy of the high-pressure superheated steam is converted to shaft work in a steam turbine that drives an electric generator.Get Price
A steam heating system for a building 175 m high is supplied from a boiler 20 m below ground level. Dry, saturated steam is supplied from the boiler at 300 kPa, which reaches the top of the building at 250 kPa. Heat losses from the supply line to the surroundings is 50 kJ/kg. Determine (a) the quality of steam at the 175 m elevation.Get Price
BOILER - A closed vessel in which water or other liquid is heated, steam or vapor is generated, steam or vapor is superheated, or any combination thereof, under pressure or vacuum, for use external to itself, by the direct application of energy from …Get Price
Fire-tube boiler Here, water partially fills a boiler barrel with a small volume left above to accommodate the steam (steam space).This is the type of boiler used in nearly all steam locomotives.The heat source is inside a furnace or firebox that has to be kept permanently surrounded by the water in order to maintain the temperature of the heating surface below the …Get Price
Mar 15, 2017 · Boiler Safety. Workers that use, maintain, and service boilers know that they can be potentially dangerous. Boilers are gas-fired or electric closed vessels that heat water or other liquid to generate steam. The steam is superheated under pressure and used for power, heating or other industrial purposes.Get Price
Regardless of the many safety features on a high pressure boiler, if the pressure is not contained, the steam energy will cause the boiler to explode and release metal and superheated steam. Boiler Hazards. There are certain conditions that can lead to dangerous failures of a boiler. Melt down: Melt down is when the metal of the boiler melts.Get Price
Steam turbine power plants operate on "Rankine cycle" for the production of electric power. If the steam from the waste heat boiler is used for process or space heating, the term "cogeneration" is the more correct terminology (simultaneous production of electric and heat energy).Get Price
Feb 24, 2012 · Rankine Cycle. From the T-s diagram of Rankine cycle it is evident that at the state 2-2' working fluid enters the boiler and this temperature is very low temperature at which water is entering the boiler. As a result of its efficiency of the cycle is lower. Regeneration. There is a way to overcome this problem by raising the temperature-of the working fluid (water) before it …Get Price
The boiler does what the name implies: it boils water and turns it into steam. These components are subjected to extreme heat and pressure, which is why high-quality ones are made of stainless steel. One key feature is a replaceable heating element, which means customers can have a single low-cost heating rod replaced instead of the entire boiler.Get Price
› Superheated water boilers › Steam boilers › Diathermic oil heaters Wall-hung electric boiler, heating only. FORTUNA Instant combi wall hung gas boiler. BLUEHELIX B Floor standing condensing boiler for heating only. BLUEHELIX B K 50 Floor standing condensing boiler stainless steel dhw storage.Get Price
Process boiler--Any vessel in which steam is generated or superheated under pressure or for use external to itself by direct or indirect application of heat. The source of heat must be in part from a process other than the boiler itself.Get Price
Description of Steam Power Plant: Basic Steam Plant consists of a: a. Boiler b. Steam Turbine c. Condenser d. Feed pump e. Economizer f. Pre-heater 3.1 Boiler: The purpose of the boiler is to convert water (pumped into it under pressure) to steam. The steam may emerge wet, dry saturated, or superheated depending on the boiler design.Get Price
The steam (Rankine) cycle and the gas turbine (Brayton) cycle are the two main thermodynamic cycles in utility power generation. In the Rankine cycle, steam is created in a boiler, and part of the enthalpy of the high-pressure superheated steam is converted to shaft work in a steam turbine that drives an electric generator.Get Price
› Superheated water boilers › Steam boilers › Diathermic oil heaters Wall-hung electric boiler, heating only. FORTUNA Instant combi wall hung gas boiler. BLUEHELIX B Floor standing condensing boiler for heating only. BLUEHELIX B K 50 Floor standing condensing boiler stainless steel dhw storage.Get Price
Feb 24, 2012 · As the water and steam both are in same vessel a fire tube boiler cannot produce steam at very high pressure.. Generally it can produce maximum 17.5 kg/cm 2 and with a capacity of 9 Metric Ton of steam per hour.. Types of Fire Tube Boiler. There are different types of fire tube boiler likewise, external furnace and internal furnace fire tube boiler.Get Price
Feb 24, 2012 · As the water and steam both are in same vessel a fire tube boiler cannot produce steam at very high pressure.. Generally it can produce maximum 17.5 kg/cm 2 and with a capacity of 9 Metric Ton of steam per hour.. Types of Fire Tube Boiler. There are different types of fire tube boiler likewise, external furnace and internal furnace fire tube boiler.Get Price
The Gresley W1 4-6-4 "Hush-Hush" Locomotive. The experimental Gresley W1 No. 10000 "Hush-Hush" was the only Kefid tender locomotive to run in Britain. It included a number of experimental features including a marine type water-tube boiler working at 450psi.Get Price
Fire-tube boiler Here, water partially fills a boiler barrel with a small volume left above to accommodate the steam (steam space).This is the type of boiler used in nearly all steam locomotives.The heat source is inside a furnace or firebox that has to be kept permanently surrounded by the water in order to maintain the temperature of the heating surface below the …Get Price
Feb 24, 2012 · Rankine Cycle. From the T-s diagram of Rankine cycle it is evident that at the state 2-2' working fluid enters the boiler and this temperature is very low temperature at which water is entering the boiler. As a result of its efficiency of the cycle is lower. Regeneration. There is a way to overcome this problem by raising the temperature-of the working fluid (water) before it …Get Price
However, for high-pressure water-tube boilers and steam plant handling superheated steam, it is vital that the oxygen level in the boiler water is kept much lower (typically less than seven parts per billion - 7 ppb), because the rate of attack due to …Get Price
Dec 25, 2014 · (ii) Super heater: The steam produced in the boiler is wet and is passed through a super heater where it is dried and superheated (i.e.., the steam temperature increased above that of the boiling point of water) by the flue gases on their way to the chimney.Super heating provides two principal benefits.Firstly, the overall efficiency is increased.Secondly, too much …Get Price
However, for high-pressure water-tube boilers and steam plant handling superheated steam, it is vital that the oxygen level in the boiler water is kept much lower (typically less than seven parts per billion - 7 ppb), because the rate of attack due to …Get Price
Superheating the steam will increase the net work output and the efficiency of the cycle. It also decreases the moisture contents of the steam at the turbine exit. The temperature to which steam can be superheated is limited by metallurgical considerations (~ 620°C). Fig. 5: The effect of increasing the boiler pressure on the ideal Rankine cycle.Get Price
Mar 15, 2017 · Boiler Safety. Workers that use, maintain, and service boilers know that they can be potentially dangerous. Boilers are gas-fired or electric closed vessels that heat water or other liquid to generate steam. The steam is superheated under pressure and used for power, heating or other industrial purposes.Get Price
Description of Steam Power Plant: Basic Steam Plant consists of a: a. Boiler b. Steam Turbine c. Condenser d. Feed pump e. Economizer f. Pre-heater 3.1 Boiler: The purpose of the boiler is to convert water (pumped into it under pressure) to steam. The steam may emerge wet, dry saturated, or superheated depending on the boiler design.Get Price
The next process 2-3 takes place in the boiler. The energy balance in the boiler can be expressed as the change in enthalpy of the fluid from the "before" state (compressed liquid) to "after" state (superheated steam): Q in = H 3 − H 2. Where Q in is the heat used by the boiler. This heat is supplied to the boiler from the solar concentrator.Get Price
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