Experimental and Numerical Study of Swirling ... - Solid Mechanics
Experimental and Numerical Study of Swirling ... - Solid Mechanics Experimental and Numerical Study of Swirling ... - Solid Mechanics
Experimental and Numerical Study of Swirling Flow in Scavenging Process for 2-Stroke Marine Diesel Engines References Steenbergen W. and Voskamp J., ‘‘The rate of decay of swirl in turbulent pipe flow,’’ Flow measurement and instrumentation, 9, pp. 67-78, (1998). Schnipp.er T., Researcher at DTU MEK, direct correspondence, (2010). Spencer A., Dunham D., McGuirk J.J., and Dianat M., ‘‘Comparison of Unsteady Reynolds Averaged Navier---Stokes and Large Eddy Simulation Computational Fluid Dynamics Methodologies for Air Swirl Fuel Injectors,’’ J. Eng. Gas Turbines Power, 131, 1, (2009). The American Heritage ® Dictionary of the English Language, Fourth Edition copyright © 2000 by Houghton Mifflin Company. Updated in 2009. Vanyo J. P., ‘‘Rotating Fluids in Engineering and Science,’’ Dover re-print Edition, (2001). Velte C.M., Okulov V.L. and Hansen M.O.L., ‘‘Explosion of helical vortex core without a change of the flow topology,’’ Article ready to be published (2010). Velte C.M., Okulov V.L. and Hansen M.O.L., ‘‘Helical structure of longitudinal vortices embedded in turbulent wall-bounded flow,’’ J. Fluid Mechanics, 616, pp. 167-177 (2009). Woodyard D., ‘‘Pounder's Marine Diesel Engines and Gas Turbines,’’ 9 th Edition, Butterworth-Heinemann, (2009). Wu J., Ma H., Ming-De Z., ‘‘Vorticity and Vortex Dynamics,’’ Springer, (2006). Xia J.L., Smith B.L., Benim A.C., Schmidli J. and Yadigaroglu G., ‘‘Effect of inlet and outlet boundary conditions on swirling flows,’’ Computers and Fluids, 26, 8, pp. 811-823 (1997). Yan L., Vatistas G. H. and Lin S., ‘‘Experimental studies on turbulence kinetic energy in confined vortex flows,’’ Journal of Thermal Science, 9, 1, pp.10-22 (2000). Yazdabadi P.A., Griffiths A.J. and Syred N., ‘‘Investigations into the precessing vortex core phenomenon in cyclone dust separators,’’ Proc. Instn. Mech. Engrs, 208, pp. 147-154 (1994). Young A. D. and Rao K. N., ‘‘Some Low Speed Experimental Results on the Effects of Swirl and Velocity Distribution on an Axi-symmetric Jet’’, Aeronautical Quarterly, 29,4, pp. 370-384 (1978). Wikipedia article, ‘‘Vortex’’, Wikipedia Project page (http://en.wikipedia.org/wiki/Vortex), 10 June 2010. 178 References
Experi imental and Numerical N Stud dy of Swirling g Flow in Scaveenging Processs for 2-Stroke Marin ne Diesel Engin nes A.1 PIV Exp periment tal Result ts (L = 4DD) A.1.1 1 Mean Velocity Ve Fiel ld Appendix A AAppe penddix A A-1 Appendix A
- Page 147 and 148: Experi imental and Numerical N Stud
- Page 149 and 150: Experi imental and Numerical N Stud
- Page 151 and 152: Experi imental and Numerical N Stud
- Page 153 and 154: Experi imental and Numerical N Stud
- Page 155 and 156: Experimental and Numerical Study of
- Page 157 and 158: Experi imental and Numerical N Stud
- Page 159 and 160: Experi imental and Numerical N Stud
- Page 161 and 162: Experi imental and Numerical N Stud
- Page 163 and 164: Experi imental and Numerical N Stud
- Page 165 and 166: Experimental and Numerical Study of
- Page 167 and 168: Experimental and Numerical Study of
- Page 169 and 170: Experi imental and Numerical N Stud
- Page 171 and 172: Experimental and Numerical Study of
- Page 173 and 174: Experi imental and Numerical N Stud
- Page 175 and 176: Experi imental and Numerical N Stud
- Page 177 and 178: Experi imental and Numerical N Stud
- Page 179 and 180: Experi imental and Numerical N Stud
- Page 181 and 182: Experimental and Numerical Study of
- Page 183 and 184: Experimental and Numerical Study of
- Page 185 and 186: Experimental and Numerical Study of
- Page 187 and 188: Experimental and Numerical Study of
- Page 189 and 190: Experimental and Numerical Study of
- Page 191 and 192: Experimental and Numerical Study of
- Page 193 and 194: Experimental and Numerical Study of
- Page 195 and 196: Experimental and Numerical Study of
- Page 197: Experimental and Numerical Study of
- Page 201 and 202: Experi imental and Numerical N Stud
- Page 203 and 204: Experi imental and Numerical N Stud
- Page 205 and 206: Experi imental and Numerical N Stud
- Page 207 and 208: Experi imental and Numerical N Stud
- Page 209 and 210: Experi imental and Numerical N Stud
- Page 211 and 212: Experi imental and Numerical N Stud
- Page 213 and 214: Experi imental and Numerical N Stud
- Page 215 and 216: Experi imental and Numerical N Stud
- Page 217 and 218: Experi imental and Numerical N Stud
- Page 219 and 220: Experi imental and Numerical N Stud
- Page 221 and 222: Experi imental and Numerical N Stud
- Page 223 and 224: Experi imental and Numerical N Stud
- Page 225 and 226: Experi imental and Numerical N Stud
- Page 227 and 228: Experi imental and Numerical N Stud
- Page 229 and 230: Experi imental and Numerical N Stud
- Page 231 and 232: Experi imental and Numerical N Stud
- Page 233 and 234: Experi imental and Numerical N Stud
- Page 235 and 236: Experi imental and Numerical N Stud
- Page 237 and 238: Experi imental and Numerical N Stud
- Page 239 and 240: Experi imental and Numerical N Stud
- Page 241 and 242: Experi imental and Numerical N Stud
- Page 243 and 244: Experi imental and Numerical N Stud
- Page 245 and 246: Manuscript J Mar Sci Technol manus
- Page 247 and 248: 00000000 11111111 piston screen con
Experi imental <strong>and</strong> <strong>Numerical</strong> N Stud dy <strong>of</strong> <strong>Swirling</strong> g Flow in Scaveenging<br />
Processs<br />
for 2-Stroke<br />
Marin ne Diesel Engin nes<br />
A.1<br />
PIV Exp periment tal Result ts (L = 4DD)<br />
A.1.1 1 Mean Velocity Ve Fiel ld<br />
Appendix A<br />
AAppe<br />
penddix<br />
A<br />
A-1<br />
Appendix A