Polymeric Materials for Scale Inhibition in Cooling Water Systems-Reference-Cited by-同舟云学术

Polymeric Materials for Scale Inhibition in Cooling Water Systems

Published:2011-06-30 Issue:2 Volume:18 Page:1-11
ISSN:2312-7589
Container-title:Tikrit Journal of Engineering Sciences
language:
Short-container-title:Tikrit j. eng. sci.

Author:

Majeed Najwa S.

Abstract

Calcium carbonate deposition is generally predominant in cooling water-circulating system. For the control of calcium carbonate, scale formation two types of polymeric scale inhibitors were used Polyamino polyether methylene phosphonate (PAPEMP) and polyacrylaminde (PAA).Model of cooling tower system have been built up in laboratory scale. Experiments were carried out using different inhibitor concentrations (0.5, 1, 1.5, 2, 3) ppm, at water temperature of 40oC and flow rate of 150 l/hr. It was found that Polyamino polyether methylene phosphonate more effective than polyacryle amide’ as scale inhibitor in all used concentrations and the best inhibition efficiency (95%) was at (2.5) ppm of Polyamino polyether methylene phosphonate and (85%) with polyacryle amide at concentrations of (3) ppm.The performance of the polymeric scale inhibitors was compared with a method used to control heavy calcium carbonate scale forming by the deposition of sufficiently thin protective calcium carbonate scale using sulfuric acid and depending on Ryznar stability index controlling method.

Publisher

Tikrit University

Reference16 articles.

1. M. Zubair, A. K. Sheikh, M. U. Haq “CaCO3 Fouling in AlSl 316 stainless tubes” The fourth engineering conference. Nov. (1995) volume (IV).

2. Zahid Amjad, and Robert W. Zuhl,”The use of polymers to improve control of calcium phosphonate and Calcium carbonate in high stressed cooling water systems “Association of water technologies, Inc. November (2004) (Internet document).

3. Chen Wang, Shu-pingli, Tion-duoli “Calcium carbonate inhibition by a phosphonate terminated poly (maleic-co-sulfonate) polymeric inhibitor, Desalination, 249 (2009) (1-4).

4. Teresa Szymura, “Deposits in water based cooling systems” physiochemical problems of Mineral processing, 42 (2008) , (131-140).

5. Amjed Z.,PUGH ,Zibida J, Polymer performance in cooling water; The Influence of process variables, chemical treatment materials Performances, 1, 32 -28 (1997).