THE PRESSURE FIELD DUE TO A LARGE CIRCULAR CAPPED AIR BUBBLE RISING IN WATER.LAZAREK GM; LITTMAN H.1974; J. FLUID MECH.; G.B.; DA. 1974; VOL. 66; NO 4; PP. 673-687; BIBL. 18 REF.Article

A GENERAL CORRELATION FOR THE MINIMUM SPOUTING VELOCITYLITTMAN H; MORGAN MH III.1983; CANADIAN JOURNAL OF CHEMICAL ENGINEERING; ISSN 0008-4034; CAN; DA. 1983; VOL. 61; NO 3; PP. 269-273; ABS. FRE; BIBL. 16 REF.Article

PREDICTING THE MAXIMUM SPOUTABLE HEIGHT IN SPOUTED BEDS OF IRREGULARLY SHAPED PARTICLESMORGAN MH III; LITTMAN H.1982; IND. ENG. CHEM., FUNDAM.; ISSN 0019-7874; USA; DA. 1982; VOL. 21; NO 1; PP. 23-26; BIBL. 12 REF.Article

Flow in the annulus of a bed of fine particles spouted with waterSEUNG JAI KIM; LITTMAN, H.Canadian journal of chemical engineering. 1987, Vol 65, Num 5, pp 723-729, issn 0008-4034Article

MASS TRANSFER IN LIQUID SPOUT-FLUID BEDS OF ION EXCHANGE RESINHADZISMAJLOVIC DE; VUKOVIC DV; ZDANSKI FK et al.1979; CHEM. ENGNG J.; GBR; DA. 1979; VOL. 17; NO 3; PP. 227-236; BIBL. 26 REF.Article

Experimental studies of wakes behind circularly capped bubblesBESSLER, W. F; LITTMAN, H.Journal of Fluid Mechanics. 1987, Vol 185, pp 137-151, issn 0022-1120Article

A THEORY FOR PREDICTING THE MAXIMUM SPOUTABLE HEIGHT IN A SPOUTED BED.LITTMAN H; MORGAN MH III; VUKOVIC DV et al.1977; CANAD. J. CHEM. ENGNG; CANADA; DA. 1977; VOL. 55; NO 5; PP. 497-501; ABS. FR.; BIBL. 9 REF.Article

Design, simulation, and performance of a draft tube spout fluid bed coating system for aerogel particlesPLAWSKY, J. L; LITTMAN, H; PACCIONE, J. D et al.Powder technology. 2010, Vol 199, Num 2, pp 131-138, issn 0032-5910, 8 p.Article

A new spouting regime in beds of coarse particles deeper than the maximum spoutable heightLITTMAN, H; MORGAN, M. H. III.Canadian journal of chemical engineering. 1986, Vol 64, Num 3, pp 505-508, issn 0008-4034Article

The decision to breastfeed : the importance of fathers' approvalLITTMAN, H; MEDENDORP, S. V; GOLDFARB, J et al.Clinical pediatrics. 1994, Vol 33, Num 4, pp 214-219, issn 0009-9228Article

A pseudo-Stokes representation of the effective drag coefficient for large particles entrained in a turbulent airstreamLITTMAN, H; MORGAN, M. H; PACCIONE, J. D et al.Powder technology. 1996, Vol 87, Num 2, pp 169-173, issn 0032-5910Article

Jet penetration and pressure drops in water spouted beds of fine particlesMORGAN, M. H. III; LITTMAN, H; SASTRI, B et al.Canadian journal of chemical engineering. 1988, Vol 66, Num 5, pp 735-739, issn 0008-4034Article

Study of the hydrodynamics within a draft tube spouted bed systemMATTHEW, M. C; MORGAN, M. H. III; LITTMAN, H et al.Canadian journal of chemical engineering. 1988, Vol 66, Num 6, pp 908-918, issn 0008-4034Article

Comments on Predicting the maximum spoutable height in spouted beds of irregularly shaped particles. ReplyBABU RAO, K; LITTMAN, H; MORGAN, M. H. III et al.Industrial & engineering chemistry research. 1987, Vol 26, Num 2, pp 397-399, issn 0888-5885Article

Hydrodynamics of turbulent bed contactors. I: Operating regimes and liquid holdupVUNJAK-NOVAKOVIC, G. V; VUKOVIC, D. V; LITTMAN, H et al.Industrial & engineering chemistry research. 1987, Vol 26, Num 5, pp 958-966, issn 0888-5885Article

Spout voidage distribution, stability and particle circulation rates in spouted beds of coarse particles. I: TheoryMORGAN, M. H. III; DAY, J. Y; LITTMAN, H et al.Chemical engineering science. 1985, Vol 40, Num 8, pp 1367-1377, issn 0009-2509Article

Spout voidage distribution, stability and particle circulation rates in spouted beds of coarse particles. I: TheoryMORGAN, M. H. III; DAY, J. Y; LITTMAN, H et al.Chemical engineering science. 1985, Vol 40, Num 8, pp 1367-1377, issn 0009-2509Article

A priori modelling of an adiabatic spouted bed catalytic reactorHOCK, B. D; LITTMAN, H; MORGAN, M. H et al.Canadian journal of chemical engineering. 1992, Vol 70, Num 5, pp 966-982, issn 0008-4034Conference Paper

Measurements of spout voidage distributions, particle velocities and particle circulation rates in spouted beds of carse particles. II: experimental verificationDAY, J. Y; MORGAN, M. H. III; LITTMAN, H et al.Chemical engineering science. 1987, Vol 42, Num 6, pp 1461-1470, issn 0009-2509Article

Modeling and measurement of the effective drag coefficient in decelerating and non-accelerating turbulent gas-solids dilute phase flow of large particles in a vertical transport pipeLITTMAN, H; MORGAN, M. H; PACCIONE, J. D et al.Powder technology. 1993, Vol 77, Num 3, pp 267-283, issn 0032-5910Article

Flow regimes for spout-fluid bedsVUKOVIC, D. V; HADZISMAJLOVIC, D. E; GRBAVCIC, Z. B et al.Canadian journal of chemical engineering. 1984, Vol 62, Num 6, pp 825-829, issn 0008-4034Article

Prediction of the maximum spoutable bed height in spout-fluid bedsGRBAVCIC, Z. B; VUKOVIC, D. V; HADZISMAJLOVIC, D. E et al.Canadian journal of chemical engineering. 1991, Vol 69, Num 1, pp 386-389, issn 0008-4034, 4 p.Article

Mortar properties obtained by dry premixing of cementitious materials and sand in a spout-fluid bed mixerPARK, K.-B; PLAWSKY, J. L; LITTMAN, H et al.Cement and concrete research. 2006, Vol 36, Num 4, pp 728-734, issn 0008-8846, 7 p.Article

Exploring the effect of dry premixing of sand and cement on the mechanical properties of mortarPLAWSKY, J. L; JOVANOVIC, S; LITTMAN, H et al.Cement and concrete research. 2003, Vol 33, Num 2, pp 255-264, issn 0008-8846, 10 p.Article

Isolation of Neisseria gonorrhoeae : Directly plated cultures versus transport culturesLITTMAN, H; LAZEBNIK, R; HALL, G. S et al.Clinical pediatrics. 1996, Vol 35, Num 6, pp 329-330, issn 0009-9228Article