Method for immobilizing particulate materials in a packed bed
Abstract
The present invention pertains generally to immobilizing particulate matter contained in a packed bed reactor so as to prevent powder migration, compaction, coalescence, or the like. More specifically, this invention relates to a technique for immobilizing particulate materials using a microporous foam-like polymer such that (a) the particulate retains its essential chemical nature, (b) the local movement of the particulate particles is not unduly restricted, (c) bulk powder migration and is prevented, (d) physical and chemical access to the particulate is unchanged over time, and (e) very high particulate densities are achieved. The immobilized bed of the present invention comprises a vessel for holding particulate matter, inlet and an outlet ports or fittings, a loosely packed bed of particulate material contained within the vessel, and a three dimensional porous matrix for surrounding and confining the particles thereby fixing the movement of an individual particle to a limited local position. The established matrix is composed of a series of cells or chambers comprising walls surrounding void space, each wall forming the wall of an adjacent cell; each wall containing many holes penetrating through the wall yielding an overall porous structure and allowing useful levels of gas transport. 4 figs.
- Inventors:
- Issue Date:
- Research Org.:
- Sandia National Laboratories (SNL), Albuquerque, NM, and Livermore, CA (United States)
- Sponsoring Org.:
- USDOE, Washington, DC (United States)
- OSTI Identifier:
- 321244
- Patent Number(s):
- 5866623
- Assignee:
- Sandia Corp., Livermore, CA (United States)
- DOE Contract Number:
- AC04-94AL85000
- Resource Type:
- Patent
- Resource Relation:
- Other Information: PBD: 2 Feb 1999
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 32 ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION; PACKED BEDS; PARTICULATES; ENTRAINMENT; CHEMICAL REACTORS; MATRIX MATERIALS; POROUS MATERIALS; DESIGN; GAS FLOW
Citation Formats
Even, Jr, W R, Guthrie, S E, Raber, T N, Wally, K, Whinnery, L L, and Zifer, T. Method for immobilizing particulate materials in a packed bed. United States: N. p., 1999.
Web.
Even, Jr, W R, Guthrie, S E, Raber, T N, Wally, K, Whinnery, L L, & Zifer, T. Method for immobilizing particulate materials in a packed bed. United States.
Even, Jr, W R, Guthrie, S E, Raber, T N, Wally, K, Whinnery, L L, and Zifer, T. Tue .
"Method for immobilizing particulate materials in a packed bed". United States.
@article{osti_321244,
title = {Method for immobilizing particulate materials in a packed bed},
author = {Even, Jr, W R and Guthrie, S E and Raber, T N and Wally, K and Whinnery, L L and Zifer, T},
abstractNote = {The present invention pertains generally to immobilizing particulate matter contained in a packed bed reactor so as to prevent powder migration, compaction, coalescence, or the like. More specifically, this invention relates to a technique for immobilizing particulate materials using a microporous foam-like polymer such that (a) the particulate retains its essential chemical nature, (b) the local movement of the particulate particles is not unduly restricted, (c) bulk powder migration and is prevented, (d) physical and chemical access to the particulate is unchanged over time, and (e) very high particulate densities are achieved. The immobilized bed of the present invention comprises a vessel for holding particulate matter, inlet and an outlet ports or fittings, a loosely packed bed of particulate material contained within the vessel, and a three dimensional porous matrix for surrounding and confining the particles thereby fixing the movement of an individual particle to a limited local position. The established matrix is composed of a series of cells or chambers comprising walls surrounding void space, each wall forming the wall of an adjacent cell; each wall containing many holes penetrating through the wall yielding an overall porous structure and allowing useful levels of gas transport. 4 figs.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {1999},
month = {2}
}
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Surface and near-surface structure in carbon microcellular materials produced from organic aerogels and xerogels
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