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Title: Design of a gas-solid-solid separator to remove ash from circulating fluidized bed reactors

Journal Article · · Powder Technology
 [1];  [1];  [2]
  1. University of Utah, Salt Lake City, UT (United States)
  2. Boise State University, ID (United States)
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Cyclones are one of the most common types of gas-solid separators used in circulating fluidized bed boilers. However, cyclones typically do not allow ash to leave the system through the cyclone exit, causing ash to build up in the fluidized bed and necessitating additional systems to remove ash that builds up in the bed. In this study, an alternative “disengager” gas-solid separator is proposed as a way of inherently separating small and large solids, resulting in a gas-solid-solid separation system where ash is allowed to leave the system along with gas while the desired fluidized bed material is retained. Unlike cyclones, which rely on centrifugal force to separate solids and gas, the disengager separates based on entrainment velocity of the particles. Upwards-flowing gas and particles strike a deflection plate and enter the disengaging chamber where particles with low terminal velocity such as ash fines flow with the gas, while larger particles such as sand fall to the bottom of the separator and are returned to the fluidized bed. In this study, several different proposed disengager configurations are simulated and compared to a typical cyclone using computational fluid dynamic (CFD) simulations. Furthermore, it was found that separation efficiency in the disengager is strongly influenced by the size of the deflection plate, rather than by the size of the unit itself. The predicted separation efficiency showed that compared to a cyclone, the disengager design allows significantly more ash to exit the system but retains a similar amount of desirable material. Additionally, the disengager was predicted to not suffer significantly more erosion that a cyclone.

Research Organization:
Univ. of Utah, Salt Lake City, UT (United States)
Sponsoring Organization:
USDOE Office of Fossil Energy and Carbon Management (FECM); USDOE
Grant/Contract Number:
FE0029160
OSTI ID:
1977595
Alternate ID(s):
OSTI ID: 1867979
Journal Information:
Powder Technology, Vol. 404, Issue C; ISSN 0032-5910
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (23)

Computational simulation of a 100 kW dual circulating fluidized bed reactor processing coal by chemical looping with oxygen uncoupling journal November 2019
The multiphase particle-in-cell (MP-PIC) method for dense particulate flows journal April 1996
Development of a High Pressure Dry Coal Feed System for a 100 kWt Oxy-Coal Reactor journal April 2020
CFD Modeling of Gas–Solid Cyclone Separators at Ambient and Elevated Temperatures journal February 2020
Fluid Flow through Randomly Packed Columns and Fluidized Beds journal June 1949
Numerical study of segregation using a new drag force correlation for polydisperse systems derived from lattice-Boltzmann simulations journal January 2007
Solitons, solitary waves, and voidage disturbances in gas-fluidized beds journal May 1994
Content and Distribution of Trace Elements and Polycyclic Aromatic Hydrocarbons in Fly Ash from a Coal-Fired CHP Plant journal January 2014
Attrition of coal ash particles in a fluidized bed journal April 1991
The role of contact stresses and wall friction on fluidization journal December 2002
Experimental validation of CFD hydrodynamic models for catalytic fast pyrolysis journal July 2017
Effect of solid loading and inlet aspect ratio on cyclone efficiency and pressure drop: Experimental study and CFD simulations journal January 2021
An Incompressible Three-Dimensional Multiphase Particle-in-Cell Model for Dense Particle Flows journal July 2001
General Circulation Experiments with the Primitive Equations: i. the Basic Experiment* journal March 1963
Hydrodynamics of Fiuidizatlon and Heat Transfer: Supercomputer Modeling journal January 1986
Experimental study of a finned tubes impact gas-solid separator for CFB boilers journal March 1997
A generalized method for predicting the minimum fluidization velocity journal May 1966
Experimental investigation of a triplet ash valve for circulating fluidized bed journal April 2018
A CFD study of biomass pyrolysis in a downer reactor equipped with a novel gas–solid separator — I: Hydrodynamic performance journal October 2014
An improved collision damping time for MP-PIC calculations of dense particle flows with applications to polydisperse sedimenting beds and colliding particle jets journal November 2010
Advanced continuum modelling of gas-particle flows beyond the hydrodynamic limit journal April 2011
Sintering of ash during fluidized bed combustion journal April 1992
Three fundamental granular flow experiments and CPFD predictions journal July 2007

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Related Subjects

42 ENGINEERING
Engineering
Fluidized bed
Cyclone
Gas-solid separation
CFD modeling