Product Parameters
| Type of steam turbine |
Back-Pressure Steam Turbine Generator |
| Model No. of steam turbine |
B3-2.35/0.49 |
| Rated power |
MW |
3 |
| Rated speed |
r/min |
3000 |
| Rated steam inlet pressure &variation range |
Mpa(a) |
2.35 |
| Rated steam inlet temperature &variation range |
ºC |
390 |
| Rated steam inlet flow |
t/h |
38.4 |
| Rated exhaust steam pressure &variation range |
Mpa(a) |
0.49 |
| Steam consumption under rated conditions |
kg/kw.h |
12.8 |
| Max component weight |
t |
~12 |
| Dimension |
m |
3.84*2.20*2.01 |
| OEM service is available. According to customers's parameter requirement, we can customized R&D, produce and supply steam turbines. |
Parameters of other Back-Pressure Steam Turbine Generator
Generator parameters
Product Description
Backpressure steam turbine
is a type of steam turbine where the exhaust steam pressure is intentionally maintained above atmospheric pressure. Unlike condensing turbines (which exhaust steam at low pressure into a condenser), backpressure turbines discharge steam at a higher pressure, allowing the exhaust steam to be reused for process heating or district heating purposes. This design makes them highly efficient in combined heat and power (CHP) systems.
Working Principle
- Steam Inlet: High-pressure steam from a boiler enters the turbine and expands through a series of nozzles and blades, converting thermal energy into mechanical shaft power (used for generating electricity or driving machinery).
- Exhaust Steam: Instead of releasing low-pressure steam into a condenser, the turbine exhausts steam at a controlled higher pressure (e.g., 0.5-5 bar, depending on the application).
- Heat Utilization: The high-temperature exhaust steam is directed to industrial processes (e.g., heating, drying, or powering other equipment) or residential/commercial heating systems, maximizing energy efficiency by eliminating "cold source losses" (common in condensing turbines).
Applications
-
Industrial CHP Systems
- Used in factories, refineries, and paper mills to generate electricity while providing steam for processes like distillation, evaporation, or heating.
- Example: A sugar mill uses backpressure turbines to generate power and supply steam for sugar refining.
-
District Heating
- Supplies high-temperature steam or hot water for residential/commercial heating in cities (e.g., Copenhagen's CHP network).
-
Mechanical Drive
- Directly powers pumps, compressors, or fans in industrial settings (e.g., in oil and gas plants).
Advantages
- High Energy Efficiency: No heat loss to a condenser; exhaust steam energy is fully utilized.
- Lower Capital Cost: Simpler design (no condenser, cooling towers, or related systems).
- Compact Size: Ideal for space-constrained industrial sites.
- Reliable for Stable Heat Loads: Performs efficiently when heat demand is consistent (e.g., continuous industrial processes).
- Backpressure steam turbine is a cornerstone of sustainable energy systems, optimizing both power and heat production.
YTS's Technical Advantages
1. The multi-stage impulse steam turbine has 2 to 4 more pressure stages than that of other manufacturers. The stage distance is reduced to allocate more stages in the flow part, the enthalpy drop of each stage is reduced. The diameter of flow structure is reduced, thus the blade height loss is significantly reduced. This technology was selected and listed in 2019 National Recommended Catalogue, Guideline and Cases of Industrial Energy-Saving Technologies and Equipments, released by Chinese Ministry of Industry and Information Technology.
2. Monolithic forged rotor assembly adopts whole forging method and it's a rigid rotor. The integration of the impeller and the shaft increases the safety and stability of operation. The blade profile is optimized and the partition is synchronously matched.
3. Reduce the rotor diameter and increase the blade length, compress various contact gaps to reduce steam leakage and make the steam act to the maximum extent, thereby to achieve high efficiency and more electricity generation under the same working conditions.
4. Add a sleeve cylinder, usually in casting or forging type, reinforced with a partition sleeve, and works with the newly added pressure stage and partition to increase the working air tightness of the new pressure stage, reduce air leakage and enhance operation safety, thus improve the working capacity of the unit;
5. Increase the length and quantity of comb-teeth steam seal from original 36 teeth to 45 teeth, and the tooth height is also increased, which effectively reduces steam leakage;
6. Comparing with similar steam extraction back pressure units from domestic market, it can improve efficiency by 10% to 30%, reduce the unit dimension and occupy less space at the same time. The optimization of the flow structure enables the unit to produce more power under the same working conditions, thus generate energy-saving economic benefits.
Detailed Photos
FAQ
1. Question: How to determine product parameters?
Reply: Design steam turbine units with different working conditions according to the customer's current production technical parameters to meet production needs.
2. Question: How to determine product quality?
Reply: You can do it through on-site field visits and provide relevant inspection and testing reports and other materials.
3. Question: How to ensure after-sales service?
Reply: The company's technical staff solves difficult problems online and offline.
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