Transcription of APPENDIX B CALCULATION OF MEAN DIAMETER OF …
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APPENDIX B: CALCULATION OF MEAN DIAMETER OF particles 141. APPENDIX B. CALCULATION OF MEAN DIAMETER OF particles . Sample CALCULATION : Two methods are used to calculate the Sauter mean DIAMETER of particle, there are: Sauter mean DIAMETER based on weight fraction and Sauter mean DIAMETER based on number of particles . Method 1: Sauter Mean DIAMETER , d32, based on Weight Fraction Table : Thickness fractions of 100% accepts with weigh fraction, average width, average length, and average thickness. Weight Fraction Average Average Average (xi) Width (mm) Length (mm) Thickness (mm). 6 mm thickness 4 mm thickness 2 mm thickness To determine the Sauter mean DIAMETER , d32, of wood chips (parallelepipedal shape), the specific surface area Sv is used: As Sv = ( ). Vp As 2 (w t + w l + t l ). Sv = = ( ). Vp w t l where As is mean surface area of the particles , Vp is the mean volume of the particles , w is width, l is length, and t is thickness.
Appendix B: CALCULATION OF MEAN DIAMETER OF PARTICLES 144 x is weight fraction dp is the diameter of particle, Equation B.5 For particle size distribution, the Sauter mean diameter of the particle can be determined by
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CORRECTION FOR COARSE PARTICLES IN THE SOIL, Particles, Magnetic Microgel Particles, Sample Preparation for AFM Particle Characterization, PROTEIN ADSORPTION ON POLYMER PARTICLES, Particulate contamination: visible particles, LDL PARTICLE SIZE DOES IT MATTER, LDL PARTICLE SIZE: DOES IT MATTER, 12 Solid/solid mixing, 8 Centrifugal separation, Centrifugal separation