Main Title |
Reclamation of Acid Rinse Water. |
Other Authors |
|
Publisher |
Defense Technical Information Center, |
Year Published |
1974 |
Report Number |
AD-A009 167; DAAK02-73-C-0407 |
OCLC Number |
907255087 |
Subjects |
Membranes ;
Polyphenylene oxide ;
Fabrication ;
Performance(Engineering) ;
Reverse osmosis ;
Polypropylene ;
Substrates ;
Films ;
Acids ;
Sulfates ;
Nitrates ;
Polymers ;
Neutralization ;
Ion exchange ;
Desalination ;
Sulfonates ;
Waste treatment ;
Waste water ;
Casting ;
Industrial Chemistry and Chemical Processing ;
Water Pollution and Control
|
Holdings |
Library |
Call Number |
Additional Info |
Location |
Last Modified |
Checkout Status |
EKBD |
AD-A009 167 |
Microfiche collection |
Research Triangle Park Library/RTP, NC |
04/21/2015 |
|
Collation |
47 pages |
Notes |
"AD-A009 167." "DAAK02-73-C-0407." "Filmed 6-9-75 NTIS." Microfiche. |
Contents Notes |
Manufacturing techniques were modified and optimized for preparing composite films of sulfonated P3O (polyphenylene oxide). Polymer ion exchange capacity (IEC) was coated onto promising porous substrate materials using a meniscus coating technique. Composite films of the 1.5 IEC polymer on Celgard KKX-2 porous polypropylene appeared to offer the most promise for meeting the contract requirements of 10 gsfd flux and 90% acid rejection of a feed containing 0.2% H2SO4 and 0.1% HNO3. Three trial spiral wound modules were fabricated. The modules were evaluated. Manufacturing procedures were developed to prepare tighter composite films of S-P3O on Celgard KKX-2 porous polypropylene. It is suggested that the meniscus coating technique be extended to development of composite films of S-P3O on laminated porous polysulfone (dacron sailcloth backing). Practical casting solvent systems compatible with polysulfone have been developed. (Modified author abstract). |