Английский для Тх / adsorptive Bubble Separation and Dispersed Air Flotation

109. K. E. Bremmell, D. Fornasiero, and J. Ralston, Pentlandite-lizardite interactions and implications for their separation by flotation, Colloids and Surfaces—Physicochemical and Engineering Aspects 252(2–3) (2005).

110.C. Hicyilmaz, U. Ulusoy, S. Bilgen, and M. Yekeler, Flotation responses to the morphological properties of particles measured with three-dimensional approach, Internat. J. Mineral Processing 75(3–4) (2005).

111.T. Guler, C. Hicyilmaz, G. Gokagac, and Z. Ekmekci, Electrochemical behaviour of chalcopyrite in the absence and presence of dithiophosphate., Internat. J. Mineral

Processing 75(3–4) (2005).

112.M. N. Chandraprabha, K. A. Natarajan, and P. Somasundaran, Selective separation of pyrite from chalcopyrite and arsenopyrite by biomodulation using Acidithiobacillus f r- rooxidans, Internat. J. Mineral Processing 75(1–2) (2005).

113.W. Wang, Z. Zhou, K. Nandakumar, J. H. Masliyah, and Z. Xu, An induction time model for the attachment of an air bubble to a hydrophobic sphere in aqueous solutions, Internat.

J. Mineral Processing 75(1–2) (2005).

114.P. K. Naik, P. S. R. Reddy, and V. N. Misra, Interpretation of interaction effects and optimization of reagent dosages for fine coal flotation, Internat. J. Mineral Processing 75(1–2) (2005).

115. O. Kangal, A. A. Sirkeci, and A. Guney, Flotation behaviour of huntite (Mg3Ca(CO3 )4) with anionic collectors, Internat. J. Mineral Processing 75(1–2) (2005).

116.H. Alter, The recovery of plastics from waste with reference to froth flotation, Resources

Conservation and Recycling, 43(2) (2005).

117.M. Krofta and L. K. Wang, Sludge thickening and dewatering by dissolved air flotation: FloatpressTM Drying Vol. 2, pp. 765–771, Hemisphere Publishing Corp., Harper & Row Publishers, NY, 1986.

118. M. Krofta and L. K. Wang, Sludge thickening and dewatering by dissolved air flotation: process design, Drying Vol. 2, pp. 772–780, Hemisphere Publishing Corp., Harper & Row Publishers, NY, 1986.

119.M. Krofta and L. K. Wang, Winter Operation of the First United States Flotation Installation-

Water Treatment Plants City of Pittsfield, Massachusetts Lenox Institute of Water Technology, Lenox, MA. Technical Report No. LIR/06-87/257, 20 pages, June 15, 1987.

120.B. J. Hernlem, L. S. Tsai, C. Huxsoll, and G. Robertson, Combined electroflotation and disinfection in food processing. Process Chemistry and Engineering. U. S. Department of Agricluture, ARS, WRRC, Albany, CA, 1988.

121. G. Chen and P. L. Yue, Electrocoagulation and electroflotation of restaurant wastewater.

J. Environ. Enginr. 126(9) 858–863 (2000).

122.M. Y. Ibrahim, R. R. Mostafa, M. F. M. Fahmy, and A. I. Hafez, Utilization of electroflotation in remediation of oily wastewater. Separation Science and Technology 36(16) (2001).

123.L. K. Wang, J. V. Krouzek, and U. Kounitson, Case Studies of Cleaner Production and Site

Remediation. Manual No. DTT-5-4-95. United Nations Industrial Development Organization (UNIDO), Vienna, Austra. 134 pages. April 1995.

124.H. A. Dawson, Flotation process used for calcium carbonate recovery from water treat-

ment sludges. Water Treatment Plant Design Ann Arbor Science, MI, 1979, pp. 105–124. 125. L. K. Wang, L. Kurylko, and M. H. S. Wang, Sequencing Batch Liquid Treatment. US

Patent No. 5354458. U.S. Patent and Trademark Office, Washington, DC, 1994.

126. L. K. Wang, P. Wang, and N. Clesceri, Groundwater decontamination using sequencing batch process. Water Treatment 10(2), 121–134 (1995).

127. L. K. Wang, Neutralization effect of anionic and cationic surfactants. J. New Engl. Water Works Assoc. 90(4), 354–359 (1976).

128. L. K. Wang, Cationic Surfactant Determination Using Alternate Organic Solvent, PB86-

194164/AS. US Department of Commerce, National Technical Information Service, Springfield, VA, 1986.

129. L. K. Wang, The Effects of Cationic Surfactant Concentration on Bubble Dynamics in a

Bubble Franctionation Column. PB86-197845/AS. US Department of Commerce, National Technical Information Service, Springfield, VA, 1986.

130.L. K. Wang, A proposed method for the analysis of anionic surfactants. J. New Engl. Water Works Assoc. 67(1), 6–8 (1975).

131. L. K. Wang, Modified methylene blue method for estimating the MBAS concentration

J. Am. Water Works Assoc. 67(1), 19–21 (1975).

132.L. K. Wang, Analysis of LAS, ABS and commercial detergents by two phase titration.

Water Research Bulletin 11 (2), 267–277 (1975).

133. L. K. Wang, Evaluation of two methylene blue methods for analyzing MBAS concentrations in aqueous solutions. J. Am. Water Works Assoc. 67(4), 182–184 (1975).

134. L. K. Wang, Determination of anionic surfactants with Azure A and quaternary ammonium salt. Anal. Chem 47(8), 1472–1475 (1975).

135. L. K. Wang, Determining cationic surfactant concentration. Indust. Engng. Chem. Prod. Res. Devel. 13(3), 210–212 (1975).

136.L. K. Wang, A test method for analyzing either anionic or cationic surfactants in industrial water. J. Am. Oil Chemists Soc 52(9), 340–346 (1975).

137.L. K. Wang, Rapid colorimetric analysis of cationic and anionic surfactants. J. New Engl. Water Works Assoc 89(4), 301–314 (1975).

138.L. K. Wang, Direct two-phase titration method for analyzing anionic nonsoap surfactants in fresh and saline waters. J. Environ. Health 38 159–163 (1975).

139.L. K. Wang, Analyzing cetyldimethylbenzylammonium chloride by using ultraviolet absorbance. Indus. Engng Chem. Prod. Res. Devel. 15(1) 68–70 (1976).

140.L. K. Wang, Role of polyelectrolytes in the filtration of colloidal particles from water and wastewater. Separ. Purif. Meth 6(1), 153–187 (1977).

141. L. K. Wang, Application and determination of organic polymers. Water, Air Soil Poll 9 337–348 (1978).

142.L. K. Wang, Application and determination of anionic surfactants. Indus. Engng Chem. 17(3) 186–195 (1978).

143. L. K. Wang, Selected Topics on Water Quality Analysis, PB87-174066. US Department of

Commerce, National Technical Information Service, Springfield, VA, 1982; 189 p.

144. L. K. Wang, Rapid and Accurate Determination of Oil and Grease by Spectrophotometric

Methods, PB83-180760. US Department of Commerce, National Technical Information Service, Springfield, VA, 1983; 31 p.

145. L. K. Wang, A New Spectrophotometric Method for Determination of Dissolved Proteins in Low Concentration Range, PB84-204692. US Department of Commerce, National Technical Information Service, Springfield, VA, 1983; 12 p.

146. L. K. Wang, E. DeMichele, and M. H. S. Wang, Simplified Laboratory Procedures for DO Determination, PB88-168067/AS . US Department of Commerce, National Technical Information Service, Springfield, VA, 1985; 13 p.

147. L. K. Wang, E. DeMichele, and M. H. S. Wang, Simplified Laboratory Procedures for

COD Determination Using Dichromate Reflux Method, PB86-193885/AS. US Department of Commerce, National Technical Information Service, Springfield, VA, 1986; 8 p.

148. L. K. Wang, Recent Advances in Water Quality Analysis, PB88-168406/AS . US Department of Commerce, National Technical Information Service, Springfield, VA, 1986; 100 p.

149.C. Yapijakis and L. K. Wang, Treatment of soap and detergent industry wastes. In:

Handbook of Industrial and Hazardous Wastes Treatment (L. K. Wang, Y. T. Hung, H. H.

Lo, and C. Yapijakis, eds.) CRC Press/Marcel Dekker, New York, NY, pp. 323–378, 2004.