University of Illinois Urbana-Champaign

Microfiltration of Synthetic Metalworking Fluids Using Aluminum Oxide Membranes

Skerlos, Steven J.

Content Files
RRT-027 Final Report.pdf

Permalink

https://hdl.handle.net/2142/25827

Description

Title
Microfiltration of Synthetic Metalworking Fluids Using Aluminum Oxide Membranes
Author(s)
Skerlos, Steven J.
Issue Date
2000
Keyword(s)
  • Filters and filtration
  • Metalworking industries -- Pollution prevention
  • Metal-working lubricants -- Recycling
  • Membrane separation
Date of Ingest
2011-07-21T20:58:03Z
Abstract
Metalworking fluids (MWFs) are used in manufacturing as coolants, lubricants,mand corrosion inhibitors. Growing MWF acquisition and disposal costs, together with concerns about microbiological health hazards and environmental impact have led to increased interest in MWF recycling, contaminant control, and alternative application strategies. Membrane filtration can remove microbes, particulate, and tramp oils that contaminate metalworking fluids and has the potential to reduce health risks and extend MWF life in the machine tool industry. However, poorly understood relationships between the compatibility of metalworking fluid ingredients, contaminants, membrane materials, and membrane pore-size distributions have precluded the widespread industrial application of the technology. This research assesses the mechanisms of productivity decline during the microfiltration of an uncontaminated synthetic MWF using aluminum oxide membranes. It is revealed that while the majority of synthetic MWF ingredients have a negligible impact on microfiltration productivity, specialty additives such as lubricants, defoamers, and biocides can significantly reduce productivity. This is due to adsorption of these ingredients to the membrane surface that serves to increase resistance to MWF flow through the membrane pores. MWF ingredient characteristics such as hydrophilic/hydrophobic content and electrostatic charge can influence adsorption and productivity-loss during microfiltration. These findings demonstrate that the chemistry and concentration of specialty additives are important to account for during the design of membrane filtration systems for MWF recycling.
Publisher
Champaign, IL : Illinois Waste Management and Research Center
Type of Resource
text
Genre of Resource
Technical Report
Language
en
Permalink
http://hdl.handle.net/2142/25827
Sponsor(s)/Grant Number(s)
RRT-027

Owning Collections

Sponsored Research Program Unpublished Project Reports - Illinois Sustainable Technology Center PRIMARY
Reports of projects funded by ISTC's sponsored research program but not published in the RR or TR report series.