user login

Fire Tube Outer Casing Boiler Tube

Min. Order: 1 Set/Sets
Payment Terms: L/C, T/T
Supply Ability: 100 Set/Sets per Year
Place of Origin: Henan

Company Profile

Location: Zhengzhou, Henan, China (Mainland)
Business Type: Manufacturer, Trading Company, Agent, Distributor/Wholesaler, Service, Association, Other
Main Products: Waste Heat Boiler, Carbon Kiln Waste Heat Boiler, Boilers, Glass Kiln Waste Heat Boiler, Boiler

Product Detail

Means of Transport: Ocean
Fuel: Coal-fired
Output: Steam
Usage: Industrial
Structure: Water/fire Tube
Pressure: Low Pressure
Production Capacity: 100 Set/Sets per Year
Packing: standard export package
Delivery Date: 3 months
Show

Product Description

Fire Tube Outer Casing Boilers Tube:
Output:Steam
Structure:Water/fire Tube
Fuel:Coal-fired
Usage:Industrial
Fire Tube Outer Casing Boilers Tube  that can meet the customer's requiremen has the features of small occupation, quick pressure and high efficiency
he quality and dimensions of the inbuilt material (barrels, collectors, display tubes in the membranes, economizer pipes, air heating pipes, plating ...) are defined by the boiler manufacturer or a major mechanical project.
1.1 Fire Tube Outer Casing Boilers Tube
Fuel
Fuel is coal-lignite from the mine Stanari, located at 25km far from the plant in Doboj. The quantity that is usually kept in the stock is the one that can meet the needs for about 30 days in the winter period.
The composition and quality of the coal according to which the further calculations will be made are the following:
−Carbon
Cr
28,56
[%]
−Hydrogen
Hr
2,40
[%]
−Nitrogen
Nr
2,80
[%]
−Oxygen
Or
10,58
[%]
−Total sulfur
Sr
0,15
[%]
−Sulphur flammable
Srg
0,05
[%]
−Humidity
Wr
48,54
[%]
−Ash
Ar
7,07
[%]
−Lower heatingpower
Hd
9950
[kJ/kg]
Elementary composition of the ash of the accepted coal is as it follows:

- SiO2        53.52 [%]
- Fe2O3       8.00 [%]
- Al2O3     16.24 [%]
- TiO3         1.05 [%]
- MnO         0.06 [%]
- CaO          7.75 [%]
- Na2O        0.11 [%]
- SO3        0.172 [%]
1.1.1 Fire Tube Outer Casing Boilers Tube
Coal storage and transport
Coal storage was designed and carried out in an earlier phase for low quality coal (calorific value about 7000 kJ / kg) and with a significantly higher ash content than coal that has been used now, Fire Tube Outer Casing Boilers Tube and for the total installed capacity of the boiler room of 116 [MW]. Fire Tube Outer Casing Boilers Tube All the devices for coal handling at the warehouse and its removal to the bunker on the existing boilers have also been designed and made.
The whole system for transportation of the coal to the bunkers on the existing boilers is designed for the capacity of 150 [t / h].
Coal bunker(s)
Coal bunker(s) should be provided for a new boiler. Fire Tube Outer Casing Boilers Tube Bunkers volume should provide work of the boiler with a full load for a period of at least 6 hours. Bunker itselfshould end in its bottom with a funnel and an opening.

Oblique horizontal conveyor
The final (horizontal) part of the oblique-horizontal conveyor should be extended for about 10 m, in order to provide charging of the bunker for the new boiler ( alongside with the reconstruction of the reversible conveyor, too), as well as bunkers for the existing two boilers ( drawing no.6)
Reversible moving conveyor should be extended for approximately 7.5 m that will allow filling of the bunkers for all three boilers.
Because of the extension of the horizontal part of the vertical-oblique and reverse conveyor it is necessary to extend the rails for the reversible conveyor moving.
Industrial Outer Casing Boilers Tubes that can meet the customer's requiremen has the features of small occupation, quick pressure and high efficiency
1.2 Fire Tube Outer Casing Boilers Tube
Devices and equipment accompanying the boiler
1.2.1 Firing device
Firing device according to this variant consists of two parallel cascade grids with width of 4m, active length 7.6 m, with a device for controlling the base draft.
The active area of the grid is: 60.8 m2
Heat load of the grid is: 954 kW/m2
Moving of the fuel along the grid is planned to be carried out with hydraulic moving of the grid lines, resulting in a tumbling and mixing of fuel on the grid.
Supplying of the primary air for combustion is zonal.
1.2.2 Device for pneumatic dust firing (PDF)
Installation of this device for combustion of the small coal fractions should be provided optionally on the new boiler.
Appearing of certain quantities of tiny coal fractions is reality, and since the existing tiny fractions of fuel can burn in the existing boilers under the assumption that the PDF devices have been provided (where a special bunker for coal dust has been built), at this stage it is necessary to consider the possibility and conditions for installation of the PDF device on the new boiler. The investor will make a final decision on the installation of this part before reaching an agreement on building a new boiler.
1.2.3 Devices for preparation and air supply

For wet coal combustion, it is necessary to heat the air to a temperature of 150 ° C.
To prepare and provide the air the following should be scheduled:
- fresh air preheaters (2 pieces)
- fresh air fans (2 pieces)
- secondary air fan (one piece).
Fresh air preheaters should be predicted in front of the fan.
Fresh air preheater
Fresh air will be absorbed from the boiler room (from the environment). In front of the fresh air fan heaters that provide partially heating of the air at about 30 ° C with hot water should be scheduled. After the fresh air fan, reheating would take part in a tube heater set in the back section of the boiler at the required 150 ° C.
Fresh air fans
The fans ,which will push necessary quantity for combustion of pre-heated air (at 30 ° C) through the tube air heater into the space under the grid, should be set under the boiler. Two fresh air fans should be scheduled, one for each grid. The air should be directed through sheet metal channels, which will be isolated.
Of the total required air for combustion one part (approximately 88%) should be brought into as primary air, under the grid, and the second part (about 12%) should be insufflated into the fireplace above the grids as secondary air.
The fans should have a continuous speed control regulation using a frequency converter.
1.2.4 Devices for slag and ash discharge
Coal-firedIndustrial Outer Casing Boilers Tubes:
Output:Steam
Structure:Water/fire Tube
Fuel:Coal-fired
Usage:Industrial
The sludge and ash from the ashes of the boiler should be transferred by a rail transporter in a wet slag transport device.
Railtransporter
Install two rail transporters with capacity of 1.5 [t / h].

Wet slag transport devices

Slag and ash should be extinguished and chilled in wet slag transport devices (2 pieces). Capacity of these devices is 2 t /h. Each one should have a built-in crusher.
Belt transporters

After cooling and crushing slag is delivered onto the obliquely bands and transported to a common horizontal transporter.The horizontal transporter should be extended.
Transport of slag by belt transporters should be adjusted to the existing condition.
1.2.5 Landfill for slag and ash

Existing landfills for slag and ash meet both current and future needs, as it was planned and carried out in the first phase for the final state.
1.2.6 Devices for purification and draining of water and flue gases

To separate the remaining particles of flying ash and possibly unburned coal particles after releasing of the flue gases from the boiler, electrical filter (s) should be built in. Electrical filter(s) should be placed outside the building and protected from weather conditions.
In order to achieve required under pressure in the furnace, boiler gas canals and electro filters, a fan for smoke gasses (exhauster) should be planned. The fan should have a continuous rpm control using a frequent converter.
Smoke canals (flues)
After leaving the boiler smoke gases are led to tin channels, covered with appropriate isolation, to electro-filters, and then through the exhauster to the chimney.
Chimney
To connect a new boiler, an opening has been planned and left on the chimney at the elevation +8.76 m. The existing chimney meets the needs of the new boiler (for the existing ones and a new one).
1.2. Recirculation Pump
For constant and variable warm recirculation it is necessary to plan one circulating pump for each. See drawing number 4
Electric motors of these circulation pumps should have a continuous rpm control over through frequency regulators.
Industrial Outer Casing Boilers Tubes that can meet the customer's requiremen has the features of small occupation, quick pressure and high efficiency
Fire Tube Outer Casing Boiler Tube
Our corporate culture: outstanding service quality, strict implementation of standards, the system composition, the consummation post-sale service.
Post Buying Request