The scientific water replenishment device technology is an energy-saving measure widely adopted by the Ministry of Electric Power. It is a calculation and analysis method for thermodynamic systems using the enthalpy drop method, which has developed in recent years. Add a scientific water replenishment device in the condenser turbine condenser, scientifically spray chemical water replenishment, rapidly cool the discharged steam, thereby improving the vacuum and heat recovery economy of the unit. At the same time, increase the water temperature entering the deaerator, reduce the oxygen content, and improve the deaeration rate of the deaerator. After adopting this scientific water replenishment device, coal consumption can be reduced by 1-3 grams per kilowatt hour. The investment can be recovered within six months.

Diagram 1 of the scientific water replenishment device for condensers

Working principle and function of scientific water replenishment device:

We have determined that the water replenishment is at the throat of the condenser. Based on the size of the condenser throat, we determine the position of the pipeline layout of the 銀行卡water replenishment energy-saving device銀行卡 inside the condenser. The replenishment water is atomized from the throat through the 銀行卡water replenishment energy-saving device銀行卡 and can form an 銀行卡atomization belt銀行卡, which flows through the shaft seal cooler, air extractor, and low-pressure heater before reaching the deaerator. The energy generated by this process is:

1. Supplementing water absorbs a certain amount of heat, resulting in a significant increase in the feedwater temperature. This increases the low-pressure system extraction volume, reduces the high-pressure extraction volume, improves the thermal power conversion rate, and allows this portion of steam to work inside the unit.

2. Supplementing water in the condenser absorbs heat from the exhaust steam, reduces a certain proportion of balance loss, strengthens heat exchange, lowers the exhaust steam temperature, and improves the vacuum of the unit.

3. The condenser performs vacuum deoxygenation on the make-up steam, improving the deoxygenation capacity of the entire regenerative system.

4. And it is conducive to the load connection of the unit.

The condenser uses this scientific water replenishment device - discharge potential:

The scientific water replenishment device is an energy-saving measure widely adopted by the Ministry of Electric Power. It is a calculation and analysis method for thermodynamic systems using the enthalpy drop method, which has developed in recent years. In the condenser, a set of chemical and scientific water replenishment energy-saving system is added, which sprays chemical and scientific water into the condenser to quickly cool the discharged steam, thereby improving the vacuum and heat recovery economy of the unit. At the same time, the water temperature entering the deaerator is increased, the oxygen content is reduced, and the deaeration rate of the deaerator is improved. After adopting the chemical science water replenishment energy-saving system, coal consumption can be reduced by 1-3 grams per kilowatt hour. The investment can be recovered within six months.

Scientific water replenishment technology transformation plan and determination of relevant parameters:

1. Scientific water replenishment device - selection of application plan. Based on the on-site system, select the source of water replenishment, whether it is from the unit or from the main pipe, and then determine the position and spatial size of water replenishment into the condenser throat.

2. Determination of water replenishment amount. The amount of water replenished into the condenser is limited by the following main factors: the flow capacity of the condensate pump, main extraction unit, shaft seal cooler, and low-pressure heater. Secondly, it is limited by its deoxygenation capacity. For the determined unit and condenser (steam turbine condenser) chemical science water replenishment energy-saving system device, its deoxygenation capacity is determined. If the amount of replenishment water is too large, it will not be able to make the oxygen content of the replenishment water below the required value, causing the oxygen content of the condensate to reach the standard, thereby corroding the condensate pipeline. Furthermore, during operation, the amount of supplementary water should also match the load carried by the unit.

Precautions for the use, operation, and installation of scientific water replenishment devices:

1. Based on the size of the condenser throat, determine the position of the pipeline layout of the 銀行卡chemical science water replenishment device銀行卡 inside the condenser.

If the unit undergoes minor repairs, the installation period can be half a day. If the cylinder is not suspended for installation, the installation period can be - days.

3. A flow orifice plate can be installed on the pipeline from the chemical science water replenishment device to the condenser, and the flow indicator can be installed on the operating layer to provide a basis for operators to adjust the water replenishment amount.

4. In order to enable operators to timely and conveniently understand the water level of the condenser and adjust the make-up water flow rate, valve control flow and the entire system anti siphon pipeline can be used, or an 銀行卡electric connection water level gauge銀行卡 can be installed on the operating panel.

5. Operators can adjust the make-up water flow rate based on the economic parameters and load of the unit.

6. The support of the 銀行卡scientific water replenishment energy-saving device銀行卡 inside the condenser should be firmly fixed to prevent loosening.

Instructions for ordering scientific water replenishment devices:

1. The use of chemical science water replenishment equipment requires a water replenishment amount of at least one ton per hour. (T/H)

2. Diagram of the position and spatial dimensions of the condenser throat. (Copy)

3. Is the system supplying water from the unit or from the main pipe.

4. Provide excess condensate pump capacity

Technical parameters of scientific water replenishment device: