4 ton Biomass Fired Steam Boiler Used for Production of Edible Mushrooms in Cambodia

Guide: A food company who is mainly engaged in edible mushrooms production ordered a 4 ton single drum biomass fired water fire tube steam boiler.

Steam is one of the main energy sources for food factories, and it is required in production processes such as distillation, extraction, disinfection, drying, and ripening. A food company in Cambodia is a technology-based enterprise that integrates research and development, production, and sales. The company has a construction project for an edible mushroom industrial park, mainly engaged in the cultivation and processing of black fungus and other edible mushrooms. The disinfection and sterilization processes of the edible mushroom rod production line requires high-quality steam heat source provided by industrial boilers. In order to meet the growing production demand, the company decided to introduce an environmentally friendly and efficient biomass fuel steam boiler and use wood as the boiler fuel to improve production efficiency. In response to the actual heat demand of its edible mushroom rod production line, Xinli Boiler recommended a 4-ton DZH series movable grate biomass fired water fire tube steam boiler to the customer.

The DZH series biomass fired steam boiler of Xinli Boiler is a single drum vertical water fire tube movable grate boiler. This series of boilers has sufficient heating surfaces, including a convective heating surface composed of threaded smoke pipes and a furnace radiation heating surface composed of the drum and the water cooled walls on both sides. In addition, Xinli Boiler's technical team optimized the design of the boiler's hopper, grate width and length, and primary and secondary air distribution ratios to ensure full combustion of the fuel and effectively save fuel costs based on the characteristics of different biomass fuels. Finally, Xinli Boiler thoroughly solved the common problems of traditional biomass, such as ash deposition, coking, pre burning arch, and material hopper, by increasing the height of the furnace, accelerating the speed of the grate, installing a blowing device in the convection area, and designing an automatic hydraulic ash cleaning system at the bottom of the grate. This enabled the boiler to maintain long-term safe and stable operation. The picture shows the delivery site of the boiler:

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