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Overpressure by Design • An Oil and Gas Perspective on Safety for Kraft Digesters, 2023 PEERS Conference

Cross-flow separation characteristics and piloting of graphene oxide nanofiltration membrane sheets and tubes for kraft black liquor concentration, TAPPI Journal September 2023

ABSTRACT: Dewatering of weak black liquor (WBL) in the kraft cycle by evaporation is highly energy intensive. Membranes are an attractive alternative for energy-efficient dewatering, but existing commercial polymeric or ceramic membranes are either degraded in BL or have high capital costs. Our recent works have demonstrated the engineering of graphene oxide (GO) nanofiltration membranes, their stability and promising performance in BL conditions, and preliminary scale-up into sheets and tubes. Here, we describe in detail the separation characteristics of GO membrane sheets and tubes under real BL conditions and crossflow operation. Recycle-mode piloting of a GO tubular membrane showed average “production flux” of 16 L/m2/h (LMH) and high rejections of lignin (98.3%), total solids (66%), and total organic carbon (83%), with no signs of irreversible fouling identified. A corresponding GO sheet membrane produced an average flux of ~25 LMH and maintained high lignin rejection of ~97% during a slipstream pilot at a kraft mill site using WBL with ~16 wt% total solids (TS). Finally, we piloted a Dow/DuPont XUS1808 polyamide composite reverse osmosis (RO) membrane for last-mile processing of the GO nanofiltration membrane permeate. The RO membrane showed a steady state flux of 19 LMH at 65 bar and produced ~0.02 wt% TS water product, which is highly suitable for reuse in pulp washing operations in the kraft process. The results have strong positive implications for the industrial application of GO membranes in BL concentration and other related applications.

MULTI-FUNCTIONAL BARRIER COATING SYSTEMS CREATED BY MULTI-LAYER CURTAIN COATING, TAPPICon 2023

Use of Kaolin Clay in Aqueous Barrier Coating Applications, TAPPICon 2023

The influence of binders on coating layer structure and offset printing properties, TAPPICon 2023

Effect of pressure and time on water absorption of coated paperboard based on a modified Cobb test method, TAPPI Journal April 2024

ABSTRACT: This manuscript presents the study of water absorption by paperboard subjected to water at high hydrostatic pressure based on a modified Cobb tester. The new tester is based on TAPPI Standard Test Method T 441; however, the water column can reach up to 550 mm. The evaluation consisted of measurements of water absorption for coated and uncoated paperboard at different exposure times from 5 s to 45 s and water column heights from 10 mm to 500 mm (corresponding to hydrostatic pressures 98 Pa and 4.9 kPa, respectively). The coatings were formulated as a combination of styrene acrylate (SA; two binder levels) and two types of ground calcium carbonates (differing particle sizes) to form the two pre-coating structures: open and closed. The coating weight was 6 g/m2 applied on 210 g/m2 solid bleached board (SBB). In addition, 210 g/m2 uncoated boards were studied. Characterization of the coatings was performed with scanning electron microscopy (SEM), mercury intrusion, and roughness. It was found that the new device properly mimics the conditions of the current Cobb tester. The characterization of the coating also confirmed the presence of more open/larger pores of open coatings, confirming the desired coating structure. The absorption of boards was mainly driven by exposure pressure by comparing with exposure time. This was already evident after shorter periods of exposure time at 5 s and also 15 s exposure time. Paperboards with open coatings showed slightly higher absorption than other boards.

Multifunctional Cotton Fabric: Antimicrobial and Durable Press Finish, 2011 Innovative Nonwovens Conference

Multifunctional Cotton Fabric: Antimicrobial and Durable Press Finish, 2011 Innovative Nonwovens Conference

Electronic Nonwovens by Atomic Layer Deposition, 2011 Innovative Nonwovens Conference

Electronic Nonwovens by Atomic Layer Deposition, 2011 Innovative Nonwovens Conference

Extremely Water Absorbent Nonwovens Produced with Hydrophilic Water Based Emulsion Polymer, 2011 Innovative Nonwovens Conference

Extremely Water Absorbent Nonwovens Produced with Hydrophilic Water Based Emulsion Polymer, 2011 Innovative Nonwovens Conference

Amphoteric Dry Strength Chemistry Approach to Deal with Low-Quality Fiber and Difficult Wet-end Chemistry Conditions in the Asian and North American Markets, TAPPICon 2023