Guidelines for Determining the Probability of Ignition of a Released Flammable Mass:
petrochemical plants) 152 4.3.1 "Ethylene Tubing Failure" 152 4.3.2 "Benzene Pipe Rupture" 154 4.3.3 "Spill from Methyl Ethyl Ketone Tank" 155 4.3.4 "Indoor Puncture of MEK Tote" 158 4.3.5 "Elevated Release" 161 4.4 Worked Examples (oil refineries) 1...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Somerset
Wiley
2014
|
| Ausgabe: | 1st ed |
| Schlagworte: | |
| Zusammenfassung: | petrochemical plants) 152 4.3.1 "Ethylene Tubing Failure" 152 4.3.2 "Benzene Pipe Rupture" 154 4.3.3 "Spill from Methyl Ethyl Ketone Tank" 155 4.3.4 "Indoor Puncture of MEK Tote" 158 4.3.5 "Elevated Release" 161 4.4 Worked Examples (oil refineries) 164 4.4.1 "Gasoline Release from a Sight Glass" 164 4.4.2 "Overfilling a Gasoline Storage Tank" 168 4.4.3 "Overfilling a Propane Bullet" 170 4.4.4 "Hydrogen Release from a Sight Glass" 172 4.5 Worked Examples (Unusual Cases) 174 4.5.1 "Indoor Acid Spill - Ventilation Model" 174 4.5.2 "Release of Ammonia" 179 4.6 Worked Examples ('Out of Scope' Cases) 180 4.6.1 "Release of Gas from an Offshore Platform Separator" 180 4.6.2 "Dust Ignition" 183 4.7 Worked Examples of the Benefits of Plant Modifications and Design Changes 186 4.7.1 "Ignition by Hot Surfaces" 186 4.7.2 Release Prevention 189 4.7.3 Duration of Exposure 189 4.7.4 Benefit of Improved Ventilation of Indoor Releases - Continuation of "Indoor Acid Spill" Example 192 5 SOFTWARE ILLUSTRATION 194 5.1 Explanation and Instructions for Software Tool 194 5.2 Opening the Software Tool 194 5.3 General Inputs and Outputs 195 5.4 Level 1 Inputs 196 5.5 Level 2 Analyses 198 5.6 Level 3 Analyses 200 5.7 Explosion Probability 200 5.8 Illustrations of Software Use 201 5.8.1 "Vapor Cloud Explosion Hazard Assessment of a Storage Site" (example from Section 4.2.1) 201 5.8.2 "Open Field Release of Propane" (example from Section 4.2.2) 204 APPENDIX A. CHEMICAL PROPERTY DATA 207 APPENDIX B. OTHER MODELS FOR CONSIDERATION 213 |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 online resource (246 pages) |
| ISBN: | 9781118870341 9781118230534 |
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| 520 | |a petrochemical plants) 152 4.3.1 "Ethylene Tubing Failure" 152 4.3.2 "Benzene Pipe Rupture" 154 4.3.3 "Spill from Methyl Ethyl Ketone Tank" 155 4.3.4 "Indoor Puncture of MEK Tote" 158 4.3.5 "Elevated Release" 161 4.4 Worked Examples (oil refineries) 164 4.4.1 "Gasoline Release from a Sight Glass" 164 4.4.2 "Overfilling a Gasoline Storage Tank" 168 4.4.3 "Overfilling a Propane Bullet" 170 4.4.4 "Hydrogen Release from a Sight Glass" 172 4.5 Worked Examples (Unusual Cases) 174 4.5.1 "Indoor Acid Spill - Ventilation Model" 174 4.5.2 "Release of Ammonia" 179 4.6 Worked Examples ('Out of Scope' Cases) 180 4.6.1 "Release of Gas from an Offshore Platform Separator" 180 4.6.2 "Dust Ignition" 183 4.7 Worked Examples of the Benefits of Plant Modifications and Design Changes 186 4.7.1 "Ignition by Hot Surfaces" 186 4.7.2 Release Prevention 189 4.7.3 Duration of Exposure 189 4.7.4 Benefit of Improved Ventilation of Indoor Releases - Continuation of "Indoor Acid Spill" Example 192 5 SOFTWARE ILLUSTRATION 194 5.1 Explanation and Instructions for Software Tool 194 5.2 Opening the Software Tool 194 5.3 General Inputs and Outputs 195 5.4 Level 1 Inputs 196 5.5 Level 2 Analyses 198 5.6 Level 3 Analyses 200 5.7 Explosion Probability 200 5.8 Illustrations of Software Use 201 5.8.1 "Vapor Cloud Explosion Hazard Assessment of a Storage Site" (example from Section 4.2.1) 201 5.8.2 "Open Field Release of Propane" (example from Section 4.2.2) 204 APPENDIX A. CHEMICAL PROPERTY DATA 207 APPENDIX B. OTHER MODELS FOR CONSIDERATION 213 | ||
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| 650 | 4 | |a Probabilities -- Mathematical models | |
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| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:30:52Z |
| institution | BVB |
| isbn | 9781118870341 9781118230534 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029024530 |
| oclc_num | 868225824 |
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| physical | 1 online resource (246 pages) |
| psigel | ZDB-30-PQE ZDB-38-ESG |
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| spelling | CCPS. Verfasser aut Guidelines for Determining the Probability of Ignition of a Released Flammable Mass 1st ed Somerset Wiley 2014 © 2014 1 online resource (246 pages) txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources petrochemical plants) 152 4.3.1 "Ethylene Tubing Failure" 152 4.3.2 "Benzene Pipe Rupture" 154 4.3.3 "Spill from Methyl Ethyl Ketone Tank" 155 4.3.4 "Indoor Puncture of MEK Tote" 158 4.3.5 "Elevated Release" 161 4.4 Worked Examples (oil refineries) 164 4.4.1 "Gasoline Release from a Sight Glass" 164 4.4.2 "Overfilling a Gasoline Storage Tank" 168 4.4.3 "Overfilling a Propane Bullet" 170 4.4.4 "Hydrogen Release from a Sight Glass" 172 4.5 Worked Examples (Unusual Cases) 174 4.5.1 "Indoor Acid Spill - Ventilation Model" 174 4.5.2 "Release of Ammonia" 179 4.6 Worked Examples ('Out of Scope' Cases) 180 4.6.1 "Release of Gas from an Offshore Platform Separator" 180 4.6.2 "Dust Ignition" 183 4.7 Worked Examples of the Benefits of Plant Modifications and Design Changes 186 4.7.1 "Ignition by Hot Surfaces" 186 4.7.2 Release Prevention 189 4.7.3 Duration of Exposure 189 4.7.4 Benefit of Improved Ventilation of Indoor Releases - Continuation of "Indoor Acid Spill" Example 192 5 SOFTWARE ILLUSTRATION 194 5.1 Explanation and Instructions for Software Tool 194 5.2 Opening the Software Tool 194 5.3 General Inputs and Outputs 195 5.4 Level 1 Inputs 196 5.5 Level 2 Analyses 198 5.6 Level 3 Analyses 200 5.7 Explosion Probability 200 5.8 Illustrations of Software Use 201 5.8.1 "Vapor Cloud Explosion Hazard Assessment of a Storage Site" (example from Section 4.2.1) 201 5.8.2 "Open Field Release of Propane" (example from Section 4.2.2) 204 APPENDIX A. CHEMICAL PROPERTY DATA 207 APPENDIX B. OTHER MODELS FOR CONSIDERATION 213 Mathematisches Modell Chemical processes -- Safety measures -- Mathematical models Chemicals -- Fires and fire prevention -- Mathematical models Flammable materials -- Fires and fire prevention -- Mathematical models Probabilities -- Mathematical models Erscheint auch als Druck-Ausgabe CCPS. Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| spellingShingle | CCPS Guidelines for Determining the Probability of Ignition of a Released Flammable Mass Mathematisches Modell Chemical processes -- Safety measures -- Mathematical models Chemicals -- Fires and fire prevention -- Mathematical models Flammable materials -- Fires and fire prevention -- Mathematical models Probabilities -- Mathematical models |
| title | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_auth | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_exact_search | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_full | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_fullStr | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_full_unstemmed | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_short | Guidelines for Determining the Probability of Ignition of a Released Flammable Mass |
| title_sort | guidelines for determining the probability of ignition of a released flammable mass |
| topic | Mathematisches Modell Chemical processes -- Safety measures -- Mathematical models Chemicals -- Fires and fire prevention -- Mathematical models Flammable materials -- Fires and fire prevention -- Mathematical models Probabilities -- Mathematical models |
| topic_facet | Mathematisches Modell Chemical processes -- Safety measures -- Mathematical models Chemicals -- Fires and fire prevention -- Mathematical models Flammable materials -- Fires and fire prevention -- Mathematical models Probabilities -- Mathematical models |
| work_keys_str_mv | AT ccps guidelinesfordeterminingtheprobabilityofignitionofareleasedflammablemass |