Research of the coal dust size range influence on low-temperature vortex combustion based on numerical simulation

Abstract: Abstract. Low-temperature vortex combustion numerical simulation was performed using FIRE-3D software. Low-temperature vortex combustion aerodynamic and heat-andmass transfer versus coal dust size range characteristic were analysed. The results are presented in graphical form. P-49 Nazarovo station steam generator model was created. The results of the numerical modelling are suitable for coal dust size range effect on lowtemperature vortex combustion analysis.

“…Ash and slag accumulates on the heating surfaces and thereby prevents heat output. Therefore, boiler requires higher fuel consumption to maintain the operating conditions [2,3]. We consider a furnace pipe to have a layer of deposits on its surface.…”

“…The diameter of the furnace pipe is much larger than its thickness (60 × 6 mm). Thus, the influence of the curvature of the wall can be neglected [2]. In this case, the model of a flat homogeneous wall is implemented.…”

Impact of the ash deposits from coal combustion on thermal conditions of the furnace pipes

“…Ash and slag accumulates on the heating surfaces and thereby prevents heat output. Therefore, boiler requires higher fuel consumption to maintain the operating conditions [2,3]. We consider a furnace pipe to have a layer of deposits on its surface.…”

“…The diameter of the furnace pipe is much larger than its thickness (60 × 6 mm). Thus, the influence of the curvature of the wall can be neglected [2]. In this case, the model of a flat homogeneous wall is implemented.…”

Impact of the ash deposits from coal combustion on thermal conditions of the furnace pipes

Research of the influence of flue gas recirculation on the processes in the ltv furnace

Research of processes inside a boiler furnace with low-temperature vortex technology based on numerical modeling