Numerical study on flow dynamics characteristics of supercritical water transporting particles under transcritical temperature conditions driven by pressure difference

Autor: Changsheng Ren, Jia Chen, Liejin Guo, Zhenhua Ren, Zening Cheng, Hui Jin, Zhisong Ou
Rok vydání: 2020
Předmět:
Zdroj: Powder Technology. 363:676-686
ISSN: 0032-5910
Popis: Supercritical water gasification (SCWG) is famous for achieving complete conversion of raw organic matter with the temperature below its ash melting point. Inorganic mineral components associated with raw organic matter will form solid slag particles after the reaction of SCWG is completed. Discharge of the slag particles from reactor is a supercritical water (SCW) transporting particles process under transcritical temperature conditions driven by pressure difference. A comprehensive three-dimensional two-fluid model (TFM) is firstly developed in this study to research the flow dynamics characteristics during the particle transport process. The effect of transport pressure difference (ΔP) and particle outlet position (ΔH) on particle transport are investigated. Results show that the particles can be transported out the reactor smoothly under the action of ΔP, and the solid-containing ratio, sr, can reach to 78.27% with ΔP of 5 MPa and ΔH of 55 mm. Large ΔP can enhance particle transport efficiency, but it may cause fluid overheating in the cooler. When the particle outlet is close to the reactor inlet, a large amount of SCW from reactor inlet will enter the particle outlet, which will decrease the particle transport efficiency. The current model can reasonably describe the flow dynamics characteristics of particle transport process, which may provide theoretical guidance for the design and optimization of slag-discharge system.
Databáze: OpenAIRE
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