Bench Scale Crossflow Filtration Of Hanford Tank C 106 C 107 B 110 And U 110 Sludge Slurries

Bench-scale Crossflow Filtration of Hanford Tank C-106, C-107, B-110, and U-110 Sludge Slurries

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Page : pages

File Size : 38,35 MB

Release : 2001

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Pacific Northwest National Laboratory has a bench-scale crossflow filter installed in a shielded hot cell for testing radioactive feeds. During FY97 experiments were conducted on slurries from radioactive Hanford waste from tanks C-106, C-107, B-110, and U-110. Each tank was tested at three slurry concentrations (8, 1.5, and 0.05 wt% solids). A two-parameter central composite design which tested transmembrane pressure from 5 to 40 psig and axial velocity from 3 to 9 ft/s was used for all feeds. Crossflow filtration was found to remove solids effectively, as judged by filtrate clarity and radiochemical analysis. If the filtrates from these tests were immobilized in a glass matrix, the resulting transuranic and ([sup 90]Sr) activity would not breach low activity waste glass limits of 100nCi/g (TRU) and 20[mu]Ci/ml ([sup 90]Sr). Two exceptions were the transuranic activity in filtrates from processing 1.5 and 8 wt% C-106 tank waste. Subsequent analyses indicated that the source of the TRU activity in the filtrate was most likely due to soluble activity, but obviously proved ineffective at removing the soluble plutonium species. Re-testing of the C-106 supported this hypothesis. These data suggest the need to control carbonate and pH when processing tank wastes for immobilization.











Water, Wastewater, and Sludge Filtration

Author : C. Visvanathan

Publisher : CRC Press

Page : 292 pages

File Size : 49,36 MB

Release : 2020-07-24

Category : Technology & Engineering

ISBN : 1000098915

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Book Description

A comprehensive and up-to-date account of filtration in solid-liquid separation processes, with a sharp focus on the influence of pro-cess variables on performance and specific applications is pre-sented in this volume. With contribu-tions from researchers with significant industrial experi-ence, as well as by senior academics, this publication fea-tures a deep bed filtration overview with informa-tion on mathematical modeling and application in wastewater treat-ment. Pre-treatment filtration techniques such as cartridge filters, pre-coat filters and micro screening are included. Membrane filtration processes to remove dis-solved and suspended solids for the recovery of valuable ma-terials and the provision of high quality water are covered. Sludge de-watering methods such as centrifuga-tion, and vacuum and pressure filtration are described. Application status data, tables, figures and diagrams are also included. This volume is of special interest to practicing engineers and technolo-gists dealing with treatment problems requiring filtration solu-tions and to graduate students in environmental engineering.



Cross-Flow Filtration of Department of Energy Hanford Waste Streams Using Sintered Metal Mott and Graver Filters at the Savannah River Technology Center

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Page : 8 pages

File Size : 19,62 MB

Release : 1998

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Treatment processes have been proposed that will utilize cross-flow filtration to filter supernate and concentrated sludge waste streams at a Department of Energy plant in Hanford, Washington. Two waste processing applications have been identified as candidates for this technology. The first of the Hanford applications involves filtration of the decanted supernate from sludge leaching and washing operations. This process requires the concentration and removal of dilute fines from the bulk of the supernate. The second application involves filtration to wash and concentrate the sludge during out-of-tank processing of a relatively concentrated solids feed stream.



Hanford Underground Storage Tank Waste Filtration Process Evaluation

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Page : 28 pages

File Size : 31,34 MB

Release : 1997

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The purpose of this filter study was to evaluate cross-flow filtration as effective solid-liquid separation technology for treating Hanford wastes, outline operating conditions for equipment, examine the expected filter flow rates, and determine proper cleaning. Two Hanford waste processing applications have been identified as candidates for the use of cross-flow filtration. The first of the Hanford applications involves filtration of the decanted supernate from sludge leaching and washing operations. This process involves the concentration and removal of dilute (0.05 wt percent) fines from the bulk of the supernate. The second application involves filtration to wash and concentrate the sludge during out-of-tank processing. This process employs a relatively concentrated (8 wt percent) solids feed stream. Filter studies were conducted with simulants to evaluate whether 0.5 micron cross-flow sintered metal Mott filters and 0.1 micron cross-flow Graver filters can perform solid-liquid separation of the solid/liquid waste streams effectively. In cross-flow filtration the fluid to be filtered flows in parallel to the membrane surface and generates shearing forces and/or turbulence across the filter medium. This shearing influences formation of filter cake stabilizing the filtrate flow rate.