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200 14$aThe dust of just beginning /$fDon Kerr
210   $cAthabasca University Press$d2010
210  1$aEdmonton, Alberta :$cAU Press,$d2010.
210  4$dİ2010
215   $a1 online resource (97 pages)
225 1 $aMingling Voices,$x1917-9413
300   $aPoems.
311 08$aPrint version: 9781897425923 
327   $aJust beginning -- For it's love -- Journey man -- We are the echo -- To escape onto paper.
330   $aDon Kerr knows prairie culture better than most?he knows it from the inside out. He has made us aware of ourselves through his numerous volumes of poetry, his fiction, his many plays, his histories, and his interest in heritage. In this mature, accomplished collection, we can once again admire his unique prairie voice?minimalist, self-effacing, direct yet subtle and nuanced, immersed in his love of the vernacular language of this place. His line is muscular, his timing impeccable, his broad strokes with so few words exemplary.
410  0$aMingling voices.
606   $aCanadian poetry$zSaskatchewan
606   $aPoetry of places
610   $aCanadian
610   $aSaskatchewan
610   $aprairie
610   $apoetry
615  0$aCanadian poetry
615  0$aPoetry of places.
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200 00$aEmergency relief system design using DIERS technology $ethe Design Institute for Emergency Relief Systems (DIERS) project manual /$fH.G. Fisher ... [et al.]
210   $aNew York $cDIERS$dc1992
215   $a1 online resource (576 p.)
300   $aDescription based upon print version of record.
311 08$a9780816905683 
311 08$a0816905681 
320   $aIncludes bibliographical references and index.
327   $aEmergency Relief System Design Using DIERS Technology: The Design Institute for Emergency Relief Systems (DIERS) Project Manual; Contents; Preface; Introduction; 1. Overview; 2. Design Institute for Emergency Relief Systems (DIERS); 3. A Strategy for Major Accidental Release Prevention; 4. A Strategy for Emergency Relief System Design; 5. An Approach to Emergency Relief System Design Assessment; 6. Two-Phase Vapor-Liquid Flow; 7. Two-Phase Vapor-Liquid Flow Onset and Disengagement; 8. Two-Phase Vapor-Liquid Hydrodynamics; 9. DlERS Bench-Scale Apparatus
327   $a10. Runaway Reaction Emergency Relief System Design Computer Program11. References; Appendix A. DlERS Committees; Appendix B. DlERS Sponsors; Appendix C. DIERS Contractors; Chapter I. Vapor Disengagement Dynamics; 1. Overview; 1-1. Vapor Disengagement Dynamics; 1-2. Design Considerations; 2. Detailed Discussion; 2-1. Open Literature References; 2-2. Project Manual; 3. References; Appendix I-A. The Coupling Equation and Flow Models; Appendix I-B. Best Estimate Procedure to Calculate Two-Phase Vapor-Liquid Flow Onset/Disengagement; Appendix I-C. Fluid Behavior in Venting Vessels
327   $aAppendix I-D. Energy and Material Balance Derivations for Emergency Pressure Relief of VesselsAnnex I-D1. Internal Energy and Venting Calculations; Chapter II. Pressure Relief System Flow; 1. Introduction; 1-1. Scope; 1-2. Organization; 1-3. Special Terminology; 2. Recommended Design Methods; 2-1. Newtonian Flow; 2-2. Complex Fluids; 2-3. Useful Approximations; 3. Technology Base; 3-1. General Flow Equations; 3-2. Nozzle Flow Models; 3-3. Sharp Reductions; 3-4. Pressure Recovery/Expansions/Equilibrations; 3-5. Pipe Flow; 3.6. Application to Pressure Relief System Elements; 3-7. Networks
327   $a3-8. Complex Fluids4. Nomenclature; 5. Acknowledgments; 6. References; Appendix II-A. Thermophysical Property Requirements; Appendix II-B. Equilibrium Flash Calculations; Appendix II-C. Model Parameters for Pipe Entrance Sections; Appendix II-D. Computer Routines in SAFIRE Program; Appendix II-E. Example Problems; Appendix II-F. Generalized Correlations and Design Charts; Chapter III. DIERS Phase III Large-Scale Integral Tests; 1. Summary; 2. Introduction; 2-1. Program Objectivcs; 2-2. Program Description; 3. Test Configurations; 4. Test Results; 4-1. Tests T1 to T8
327   $a4-2. Tests V32-W1 to V32-W84-3. Tests T9, T10, T11, T14, and T25; 4-4. Tests T12 and T13; 4-5. Test T20; 4-6. Tests T17 and T18; 4-7. Tests T21, T22, T23, and T24; 4-8. ICRE Tats 32-6 to 32-11; 4-9. ICRE Tests 2000-1 to 2000-5; 4-10. ICRE Tests 32-14, 32-15, and 32-18; 5. Acknowledgments; 6. References; Appendix III-A. Test Configurations; Appendix III-B. Experimental Results and Model Comparisons; Appendix III-C. Kinetics Model for Styrene Polymerizations; Chapter IV. High Viscosity Flashing Two-Phase Flow; 1. Introduction; 1-1. General Discussion of High Viscosity Flow in Relief Systems
327   $a1-2. Why High Viscosity Systems Require Special Consideration
330   $aOSHA (29 CFR 1910.119) has recognized AIChE/DIERS two-phase flow publications as examples of ""good engineering practice"" for process safety management of highly hazardous materials. The prediction of when two-phase flow venting will occur, and the applicability of various sizing methods for two-phase vapor-liquid flashing flow, is of particular interest when designing emergency relief systems to handle runaway reactions. This comprehensive sourcebook brings together a wealth of information on methods that can be used to safely size emergency relief systems for two-phase vapor-liquid flow for
606   $aChemical plants$xSafety measures
606   $aRelief valves
615  0$aChemical plants$xSafety measures.
615  0$aRelief valves.
676   $a660/.281
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