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ED

American Petroleum Institute, "Technical Data Book—Petroleum Refining," 3rd ed., API, Division of Refining, Washington, 1976. [Pg.7]

D Ans-Lax "Taschenbuch fiir Chemiker und Physiker, 3rd ed.," Vol. 1, Springer-Verlag, Berlin, 1967. [Pg.7]

Landolt-Bornstein "Zahlenwerte und Funktionen aus Physik, Chemie, Astronomic, Geophysik, und Technik," 6th ed., Vol. II (2a, 2b, 2c), Vol. IV (4b), Springer Verlag, Berlin, beginning 1950. [Pg.10]

Brownlee, K. A., "Statistical Theory and Methodology in Science and Engineering," 2nd ed., John Wiley and Sons, New York (1965). ... [Pg.109]

Denbigh, K. G., and Turner, J. C. R., Chemical Reactor Theory, 3d ed., Cambridge University Press, Cambridge, England, 1984. [Pg.64]

Levenspiel, O., Chemical Reaction Engineering, 2d ed., Wiley, New York, 1972. [Pg.64]

King, C. J., Separation Processes, 2d ed., McGraw-Hill, New York, 1980. [Pg.92]

Figure 6.30 shows the grand composite curve plotted from the problem table cascade in Fig. 6.186. The starting point for the flue gas is an actual temperature of 1800 C, which corresponds to a shifl ed temperature of (1800 — 25) = mS C on the grand composite curve. The flue gas profile is not restricted above the pinch and can be cooled to pinch temperature corresponding to a shifted temperature of 145 C before venting to the atmosphere. The actual stack temperature is thus 145 + 25= 170°C. This is just above the acid dew point of 160 C. Now calculate the fuel consumption ... Figure 6.30 shows the grand composite curve plotted from the problem table cascade in Fig. 6.186. The starting point for the flue gas is an actual temperature of 1800 C, which corresponds to a shifl ed temperature of (1800 — 25) = mS C on the grand composite curve. The flue gas profile is not restricted above the pinch and can be cooled to pinch temperature corresponding to a shifted temperature of 145 C before venting to the atmosphere. The actual stack temperature is thus 145 + 25= 170°C. This is just above the acid dew point of 160 C. Now calculate the fuel consumption ...
Metcalf Eddy, revised by Tchobanoglous, G., and Burton, F. L., Wastewater Engineering Treatment, Disposal and Reuse, 3d ed., McGraw-Hill, 1991. [Pg.320]

Alkanolamines with at least one NCH2CHOHCH,i grouping. Important materials include monoisopropanolamine NHX H CHOHCH, b.p. 159 C di-iso-propanolamine NH(CH CHOHCH b.p. 248 C triisopropanolamine NtCH -CHOHCHi). , b.p. 300 C. Manufactured from ammonia and propylene oxide. U ed, is weedkillers, as stabilizers for plastics, in detergents, alkanolaniine soaps for sweetening natural gas and in synthesis. [Pg.227]

Coley, T.R. (1989), Diesel fuel additives influencing flow and storage properties . In Gasoline and diesel fuel additives (Owen, K. Ed.). John Wiley. [Pg.454]

Speight, J.G. (1991), The chemistry and technology of petroleum, 2nd edition. Ed. Marcel Dekker, New York. [Pg.459]

Chan,R.W.Y., Hay,D.R., Matthews,J.R., MacDonald,H.A., (1988), Automated Ultrasonic System for Submarine Pressure Hull Inspection , Signal Processing and Pattern Recognition in Nondestructive Evaluation of Materials, C.H.Chen (ed). Springer-Verlag, pp. 175-187... [Pg.103]

R. A. Roberts Limited data tomography using support minimization with a priori data. Review of Progress in QNDE, vol. 11, ed. by D. Thompson and D. Chimenti, Plenum Press, New York, 1992, pp. 549-555. [Pg.120]

B. A. Auld, F. G. Muennemann and M. Riaziat, Quantitative modelling of flaw responses in eddy current testing. In R. S. Sharpe (ed.), Research techniques in nondestructive testing, Vol. 7. Academic, London, 1984. [Pg.147]

Numerical Modeling of eddy current steam generator inspection Comparison with experimental data, P.O. Gros, Review of Progress in Quantitative Nondestructive Evaluation, Vol 16 A, D.O. Thompson D. Chimenti, Eds (Plenium, New York 1997) pp 257-261. [Pg.147]

H.S. Malvar, "Signal processing with lapped transforms", Ed. Artech House, Inc., 1992. [Pg.185]

Arzhaev A T, Kiselyov VA., Badalyan V.G., Vopilkin A.Kb., Strelkov B.R,Vanukov V.N., Aladinsky V. V, Makhanev V.O. Field application of Augur)> ultrasonic system during RBMK NPP Unit ISI and its impact on pressure boundary integrity. In Ageing of Materials and Methods for the Assessment of Lifetimes of Engineering Plant, R K. Penny (Ed.), 1997, pp. 97-104. [Pg.197]

Arzhaev A T, Kiselyov V.A., Bougaenko S E., Strelkov B.P, Badalyan VG, Vopilkin, A.Kb. Safety significance of Augur-4.2 on-site applications at RBMK NPPs. In NDE Techniques Capability Demonstration and Inspection Qualification, U. EstorffandP. Lematre (Eds ), 1997, pp, 251-259. [Pg.197]

Greenleaf, J.F. Johnson S.A. Samayoa, W.F. and Duck, F.A. (1975). Algebraic reconstruction of spatial distributions of acoustic velocities in tissue from their time-of-flight profiles. In Acoustical Holography, Vol. 6, Ed. N. Booth, Plenum Press, 71-90. [Pg.207]

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APPLICABILITY OF TREATMENT TECHNOLOGIES TO EDS LIQUID WASTE STREAMS

Anti-ED-B fibronectin

Atta-ur-Rahman (Ed.) Studies in Natural Products Chemistry, Vol

Bassani, M. Inguscio, T.W. Hansch (eds.) The Hydrogen Atom (Springer, Berlin, Heidelberg

Combinatorial Chemistry. Willi Bannwarth, Berthold Hinzen (Eds

ED AX (energy-dispersive X-ray

ED ELECTRODES

ED Excitation

ED Stacks

ED pathway

ED polymers

ED reduced

ED truing system

ED-ROMP

ED-diagram

EDS (energy dispersive

EDS Technology

EDS analysis

EDS black microcrystals

EDS diagnosis

EDS in the STEM

EDS measurements

EDS spectra

EDS with

EDS, analytical method

EDS-TTF

EDX/EDS

Ed combinatorial chemistry

Ed man degradation

Ehlers-Danlos Syndrome (EDS)

Endocrine Disruptors (EDs)

Energy Dispersion Spectroscopy (EDS

Energy Dispersive Spectroscopy (EDS) and its Application

Energy dispersive X-ray fluorescence (ED-XRF

Energy dispersive X-ray spectroscopy (EDS

Energy dispersive spectrometers (EDS

Energy dispersive spectroscopy, EDS

Energy-Dispersive Analysis (EDS)

Estimation of Risk from EDs

Ethyldichloroarsine - ED

Explosive Destruction System (EDS)

HPLC-ED Analysis

HPLC-ED in Analytical Toxicology

HR-EDS analysis

Ion Chromatography, 4th Ed. James S Fritz and Douglas T. Gjerde

Ionic Liquids in Synthesis, Second Edition. P. Wasserscheid and T. Welton (Eds

Javitt J. Kantrowitz (eds.), Schizophrenia, DOI

Jurf ed Darawish

Kamm (ed.), Microorganisms in Biorefineries, Microbiology Monographs

Maintenance of HPLC-ED Systems

Methods of Identifying EDs

Mixed ED-MD transitions

Nielsen (Ed.), Ammonia Springer-Verlag Berlin Heidelberg

Peng George Wang, Tingwei Bill Cai, Naoyuki Taniguchi (Eds

Photoactive compounds for positive-working ED photoresists

SEM and EDS Studies

SEM and EDS analyses

SEM-ED analysis

Spe-ed Wiz

Staging of ED Stacks

Suspected EDs and Sources of Exposure

Synergism Between HDS and EDS

The Effective Dose (ED) method

Theoretical Background to ED in Flowing Liquid Streams

Troubleshooting of HPLC-ED Methods

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