FEMA P 1019 2014
$43.55
FEMA P-1019, Emergency Power Systems for Critical Facilities: A Best Practices Approach to Improving Reliability
| Published By | Publication Date | Number of Pages |
| FEMA | 2014 | 170 |
None
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | FEMA 1019 Cover |
| 2 | Blank Page |
| 3 | 00_FEMAP-1019-TitlePage_Final |
| 5 | 01_FEMAP-1019-Preface_Final |
| 7 | 02_FEMAP-1019-TableofContents_Final |
| 11 | 03_FEMAP-1019-ListofFigures_Final |
| 14 | Blank Page |
| 15 | 04_FEMAP-1019-ListofTables_Final |
| 16 | Blank Page |
| 18 | 05_FEMAP-1019-Chapter_1_Final 1.1 Purpose |
| 19 | 1.2 Emergency Power from a Code Perspective 1.2.1 Emergency System 1.2.2 Legally Required Standby System |
| 20 | 1.2.3 Optional Standby System 1.2.4 Critical Operations Power System 1.3 Planning for Facility Resilience |
| 21 | 1.4 Target Audience |
| 22 | 1.5 Report Organization |
| 23 | 1.6 How to Use this Document |
| 26 | Blank Page |
| 27 | 06_FEMAP-1019-Chapter_2_Final 2.1 Overview of Utility Power Transmission and Distribution Systems 2.1.1 Failures of Transmission Systems |
| 29 | 2.2 Winter Storms |
| 30 | 2.2.1 Effects of Winter Storms on Power Lines |
| 32 | 2.2.2 Effects of Winter Storms on Building Systems 2.2.3 Case Study – Winter Storms of 2007 |
| 33 | 2.3 High Winds |
| 35 | 2.3.1 Effects of High Winds on Power Lines 2.3.2 Effects of High Winds on Building Systems |
| 36 | 2.3.3 Case Study – 2011 Tornadoes in the Southeastern United States |
| 38 | 2.3.4 Case Study – Derecho Winds – June 2012 |
| 39 | 2.4 Flooding |
| 40 | 2.4.1 Effects of Flooding on Power Lines |
| 42 | 2.4.2 Effects of Flooding on Building Systems 2.4.3 Case Studies |
| 44 | 2.5 Earthquakes |
| 45 | 2.5.1 Effects of Earthquakes on Power Lines and Sub-stations |
| 46 | 2.5.2 Effects of Earthquakes on Building Systems |
| 50 | 2.5.3 Case Study – 1994 Northridge Earthquake |
| 51 | 2.6 Other Events |
| 52 | 2.6.1 Case Study – Solar Storms of 1989 and 2012 2.6.2 Case Study – Northeast Blackout of 2003 |
| 54 | 07_FEMAP-1019-Chapter_3_Final 3.1 Critical Facilities |
| 56 | 3.1.1 Determining if a Facility is Critical 3.2 Emergency Preparedness and Business Continuity Planning 3.2.1 PS-Prep |
| 60 | 3.2.2 Issues to be Considered in the Disaster Preparedness Plan |
| 62 | Blank Page |
| 64 | 08_FEMAP-1019-Chapter_4_Final 4.1 Requirements for Emergency Power Specified by Building Codes and Standards |
| 65 | 4.2 Emergency Power Requirements |
| 67 | 4.3 Assessing Emergency Power Needs in Detail |
| 68 | 4.3.1 Life-Safety Equipment |
| 74 | 4.3.2 Fire Pumps |
| 75 | 4.3.2.1 Emergency Power Recommendations for Fire Pumps |
| 76 | 4.3.3 Lighting 4.3.3.1 Emergency Power Recommendations for Lighting |
| 77 | 4.3.4 Mechanical Equipment 4.3.4.1 Heating |
| 78 | 4.3.4.2 Air Conditioning |
| 80 | 4.3.4.3 Plumbing Systems |
| 82 | 4.3.4.4 Food Preparation and Preservation |
| 83 | 4.3.5 Other Building Systems |
| 85 | 09_FEMAP-1019-Chapter_5_Final 5.1 Emergency Power Sources 5.1.1 Stored Energy Devices |
| 86 | 5.1.1.1 Battery-Powered Systems |
| 87 | 5.1.1.2 Flywheel Systems 5.1.2 Emergency and Standby Generators |
| 88 | 5.1.2.1 Generators and Engines |
| 89 | 5.1.2.2 Fuel Selection and Delivery |
| 92 | 5.1.2.3 Generator Synchronizing |
| 93 | 5.1.2.4 Load Shedding 5.1.2.5 Battery Starting Systems |
| 94 | 5.2 Emergency Power Distribution |
| 96 | 5.3 Optional Standby Generators 5.3.1 Providing Reliable Vehicle Access |
| 97 | 5.3.2 Creating a Location 5.3.3 Installing Connections |
| 98 | 5.3.4 Ensuring Availability 5.4 Electrical Control and Coordination |
| 99 | 5.4.1 System Protection and Control |
| 100 | 5.4.2 Selectivity and Coordination |
| 102 | 10_FEMAP-1019-Chapter_6_Final 6.1 Holistic Approach to Design 6.1.1 Determining Emergency Power Load Requirements |
| 103 | 6.1.2 Emergency Power System Design |
| 104 | 6.1.3 Holistic Design Tools and Culture 6.2 Identification of Emergency Power Needs and Emergency Power Sources |
| 105 | 6.3 Fire Protection, Mechanical, and Electrical Design Considerations that Affect Emergency Power Systems 6.3.1 Fire Protection and Mechanical Engineering 6.3.1.1 Fire Suppression |
| 106 | 6.3.1.2 Heating and Ventilation |
| 107 | 6.3.1.3 Air Conditioning |
| 108 | 6.3.2 Electrical Engineering 6.3.2.1 Lighting |
| 109 | 6.3.2.2 Controls 6.4 Design Considerations Regarding the Layout, Location, and Protection of Emergency Power Systems |
| 110 | 6.4.1 Design Considerations for Reducing Flood Risks |
| 113 | 6.4.2 Design Considerations for Reducing Risks from High Wind Events 6.4.2.1 Protecting Interior Installations |
| 114 | 6.4.2.2 Protecting Exterior Installations |
| 115 | 6.4.3 Recommendations for Placement where Earthquake Hazards are Present |
| 116 | 6.5 Code Design Requirements for Emergency Power Systems to Resist Severe Natural Hazards |
| 120 | 11_FEMAP-1019-Chapter_7_Final 7.1 Considerations for Determining Optional Standby and Emergency Power Demands in Existing Facilities |
| 121 | 7.1.1 Identifying Electrical Sources that Supply Critical Loads |
| 122 | 7.1.2 Reconfiguring Electrical Distribution |
| 124 | 7.1.3 Providing Optional Standby Power through the Electrical Service |
| 126 | 7.2 Protecting Optional Standby Power Systems from Natural Hazards |
| 128 | Blank Page |
| 129 | 12_FEMAP-1019-Appendix_A_Final A.1 History of Building Codes |
| 130 | A.2 Emergency Power Requirements of the International Building Code |
| 131 | A.2.1 IBC Emergency Power Requirements by Occupancy Classification |
| 134 | A.2.2 Emergency Power Duration Requirements A.3 Fire Pump Requirements |
| 135 | A.4 Critical Healthcare Facility Power Distribution Requirements |
| 138 | Blank Page |
| 139 | 13_FEMAP-1019-Appendix_B_Final B.1 Redundant Utility Source Delivery |
| 142 | B.2 N+1 Redundancy Strategy |
| 144 | Blank Page |
| 145 | 14_FEMAP-1019-Appendix_C_Final C.1 Generator Load Requirements |
| 148 | C.2 Continuous Generator Load |
| 149 | C.3 Maximum Allowable Voltage Dip C.4 Maximum Allowable Frequency Dip |
| 150 | C.5 Caution on Oversizing Generators |
| 151 | 15_FEMAP-1019-Appendix_D_Final |
| 156 | Blank Page |
| 157 | 16_FEMAP-1019-Appendix_E_Final E.1 Example 1 – New Facility |
| 158 | E.1.1 Emergency Power Functions Determination E.1.1.1 Normal Operations |
| 159 | E.1.1.2 Operations as a Host Shelter E.1.2 Proposed Solution |
| 160 | E.2 Example 2 – Existing Facility E.2.1 Analysis: Emergency Power Functions Determination |
| 161 | E.2.2 Proposed Solution |
| 163 | 17_FEMAP-1019-References_Final |
| 168 | Blank Page |
| 169 | 18_FEMAP-1019-ProjectParticipants_Final Redwood City, California 94065 Ayse Hortacsu (Project Manager) Redwood City, California 94065 Project Technical Committee |
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