Role of Al-Based Additives in Controlling Ash Adhesion

Abstract: In combustion plants, ash particles adhere to the plant walls because of liquid bridging induced by the melting of alkali-metal compounds. The presence of adhered ash particles can hinder the efficient and stable operation of the plant. Therefore, adopting appropriate adhesion control methods that suit the combustion conditions is critical. Additives, which are one method to deal with ash adhesion, increase the slag formation temperature and prevent the formation of liquid bridges by changing the composition o… Show more

“…Ash chemistry is complicated, and a mechanistic understanding is required. However, this is a challenging topic because chemical characteristics of ash particles generated from commercial plants contain various elements and minerals. ,,,, We previously studied the ash adhesion behavior using synthetic ashes as models for ashes. ,− The synthetic ashes consisted of the target element to induce particle adhesion at high temperatures such as P and base materials, which are stable particulate materials. The simple and controllable chemical composition of synthetic ashes has been used to understand the relationship between the ash chemistry and adhesion behavior.…”

Phosphorus-Related Ash Chemistry at High Temperatures: Role of Aluminum on Particle Adhesion

“…Ash chemistry is complicated, and a mechanistic understanding is required. However, this is a challenging topic because chemical characteristics of ash particles generated from commercial plants contain various elements and minerals. ,,,, We previously studied the ash adhesion behavior using synthetic ashes as models for ashes. ,− The synthetic ashes consisted of the target element to induce particle adhesion at high temperatures such as P and base materials, which are stable particulate materials. The simple and controllable chemical composition of synthetic ashes has been used to understand the relationship between the ash chemistry and adhesion behavior.…”

Phosphorus-Related Ash Chemistry at High Temperatures: Role of Aluminum on Particle Adhesion