Oil steam boilers can be classified into two main types: fire tube and water tube. Fire tube boilers have a large chamber where the combustion occurs, and the heat is transferred through the walls to the water. Water tube boilers have a series of tubes where the water flows and the heat is transferred through the walls of the tubes. The basic components of an oil steam boiler include a burner, combustion chamber, heat exchanger, and controls. The burner is responsible for igniting the oil and producing a flame, which heats the combustion chamber. The heat exchanger is where the heat from the combustion process is transferred to the water, which creates steam. The controls manage the operation of the boiler, including temperature, pressure, and safety features.
The oil steam boiler has a large water volume and is not sensitive to load fluctuations, and is also suitable for operating environments with large load changes.
The low-resistance and high-efficiency heat exchange element—the threaded smoke pipe replaces the traditional light pipe, and the heat exchange rate is faster.
The oil fired steam boiler can complete operations such as water level and temperature adjustment, timing on and off, and start and stop on time and in sections, reducing the working pressure of the boiler staff.
The oil steam boiler is in a fully automatic mode, and the computer controls the operation throughout the process, and the heating surface and flue gas flow have been greatly optimized.
A new type of condensation technology is added to the oil steam boiler, and a condenser is connected near the tail of the flue. When the high-temperature flue gas meets condensed water, more heat is released, and the thermal efficiency is naturally improved; at the same time, the temperature of the flue gas is also greatly reduced (maintained at around 90 °C). , but also to make a contribution to my country's environmental protection.
The PLC building block Lunching module and sufficient reserved ports can meet a variety of needs and reduce the repeated investment of users in the development of special needs. Multiple boilers are networked and controlled without the need to set up a main console. The control system automatically selects the number of boilers to operate according to the user's hot water consumption, and distributes the boiler load reasonably, which will not cause waste of resources.
Types | Thermal power | Steam pressure | Thermal efficiency | Fuel | Power requirement | Length * Width * Height | Weight | Chimney |
---|---|---|---|---|---|---|---|---|
Unit | Mw | MPa | % | V/Hz | mm | t | mm | |
CWNSL0.7-95/70-Y.Q | 0.7 | ≤1.25 | 96-98 | Light oil, natural gas |
380/50 | 3730 * 1950 * 2430 | 3.43 | 300 |
CWNSL1.4-95/70-Y.Q | 1.4 | 3710 * 2270 * 2850 | 4.55 | 350 | ||||
CWNSL2.1-95/70-Y.Q | 2.1 | 4440 * 2360 * 3220 | 6.18 | 450 | ||||
CWNSL2.8-95/70-Y.Q | 2.8 | 5170 * 2520 * 3310 | 6.33 | 450 | ||||
WNS2.8-1.0-115(95)/70-Y.Q | 2.8 | 5500 * 3260 * 3680 | 8.15 | 450 | ||||
WNS4.2-1.0-115(95)/70-Y.Q | 4.2 | 6500 * 3530 * 4320 | 13.94 | 550 | ||||
WNS5.6-1.0-115(95)/70-Y.Q | 5.6 | 7090 * 4030 * 4990 | 17.99 | 700 | ||||
WNS7-1.0-115(95)/70-Y.Q | 7 | 7650 * 4040 * 5090 | 20.43 | 700 | ||||
WNS14-1.25-115(95)/70-Y.Q | 14 | 9280 * 4350 * 5770 | 40.46 | 900 |
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