The output and production process of wet concrete batching plants varies depending on the model and configuration. Generally speaking, the output of a wet mix concrete batching plant can range from tens of cubic meters to hundreds of cubic meters per hour depending on the model.
As for the production process, wet concrete batching plants usually adopts the production process of ready-mixed concrete, including three parts: raw material storage, raw material measurement and concrete mixing. Raw material storage includes aggregate yard and cement silo, etc., which needs to ensure the quality and sufficient supply of raw materials. Raw material metering is in accordance with the prescribed proportion of aggregates, cement, admixtures and water and other raw materials for weighing and measuring to ensure the quality and stability of concrete. Concrete mixing is to mix the measured raw materials together and mix them thoroughly through the mixer to form concrete.
The reason why the concrete batching plant adopts wet mixing is mainly because wet mixing can effectively prevent the concrete from solidifying, segregation and other phenomena. The wet mixed concrete continues to continuously mix the concrete during transportation to ensure the quality of the concrete. In addition, wet mixing can also effectively solve the problem of long-distance concrete transportation, because this mixing method can continue to carry out concrete mixing during transportation, thus avoiding the problem of degradation of concrete quality due to long transportation time. In contrast, dry mix concrete batching plant needs to be mixed with water during transportation, which is likely to cause changes in the water-cement ratio and affect the quality of concrete. Therefore, in the case of long-distance transportation or high requirements for concrete quality, wet mixing is a better choice.
When choosing wet concrete batching plants, you need to choose the right model and configuration according to the actual demand and use, in order to ensure the production efficiency and product quality. At the same time, factors such as equipment reliability, maintenance, environmental protection and energy saving need to be considered.