NEW MEXICO ENGINEERING RESEARCH INSTITUTE HALON OPTIONS TECHNICAL WORKING CONFERENCE David A. Ansul Fire P rotection rotection May 4,1994
SYSTEM DESIGN AND APPLICATION A PPLICATION ion ion In order to help understand the design design process, a typical typical example example hazard hazard is covered in this this section. There may be different design design approaches that that can be taken for any given hazard. The example is only intended to show show what has to to be done to complete the design and hydraulic calculations. Followingis an outline outline of the example example hazard. Each item is listed lis ted in the numerical numerical order in which it should should be performed. performed.
31
HAZARD ANALYSIS HAZARD TYPE
Describe Type of Hazard Being Protected HAZA RD INTEGRITY SURVEY
Unenclosable Openings, HVAC Considerations HAZARD ATMOSPHERE
Occupied, Non-Occupied, Explosion Proof TYPE OF FIRE
Class A,
B, C or D
VENTILATION CONSIDERATIONS
Ventilation Systems - Shutdown, Dampered ELECTRICAL CONSIDERATION
Power Sources Shutdown TEMPERATURE RANGES
Determine Minimum and MaximumTemperatures Agent Cylinders System VOLUME REDUCTIONS
Moveable, Non-Moveable
OTHER FACTORS HandicappedP ersonnel Response Time of Fire Service Reserve System Cylinder and Accessory Location Discharge Test Authority Having J urisdiction
ANSUL,
SECTION XI UL EX4510
Example No. 1
-
12-1-93 Page
Control Room
Control rooms are found in all types of industry, housing transformers, motors. switch gear and other types of elec tronic devices necessary for energizing the various types of equipment.
ITEM NO. 2 - Design Calculation Sheet. Fill out the culation sheet with information required to determine total quantity of agentand percentof INERGEN agent c o n centration.
Protection of control rooms can be accomplished by treating it as a flood hazard in accordance with requirements of NFPA 2001, "Standard for Clean Agent F ire Extinguishing Systems."
ITEM NO. 3 - Preliminary Drawing. Complete a drawing or sketch as accurate as possible to determine pipe lengths and number of fittings. Locate and number all node points and nozzles.
The design of the INERGEN systemshould be in accordance with NFPA 2001, which states, "thedesign concentration must be achieved within 1 minute. It is important that an effective agent concentration not only be achieved, but shall be maintained for a sufficient period of time to allow effective emergency action by trained personnel. "
NO. 4- Flow Calculation Input Form. With the information on pipe lengths, fittings, node and nozzles, fill in the input form.
Personnel safety is the first concern. The INE RGEN sys tem should incorporate a discharge alarm andlor pre discharge alarm to warn personnel of a discharge. A time delay device is not needed due to the life supporting characteristics of INER GEN agent.
ITEM NO. 6 of Material. This should be generated to show the complete list of all required hardware.
ITEM NO. 5 -Computer Print Out. The computer print. out will compute discharge time. pipe sizes. union orifice size, and nozzle orifice sizes.
ITEM NO. 7 -Application Drawing. This application drawing is an example of the type of drawing which is generated from Ansul Application Engineering Department. This drawing is normally used to secure approval from the local authority.
Electrical power and ventilation must be shut down prior to system actuation. Common duct may require dampering to prevent INERGEN agent loss. Smoke detection
is
recommended.
The authority having jurisdiction may have additional re quirements.
HAZARD A control room having dimensions of 30 I t. It . high.
x
20
x
10
No unclosable openings. Ventilation to be shut down at system actuation.
ITEM NO. 1 -Sketch of Hazard. Do an accurate sketch of the hazard area and measure all solid, permanent objects.
33
SECTION UL EX -4510
Example No. 1 L
SKETCH OF HAZARD
I
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12-1-93
XI
Page
Control Room Item No. 1
SECTION XI 12-1-93 Page 11-4
Example
No.
DESIGN CALCULATION SHEET INERGEN DESIGN CALCUL ATION WORKSHEET
DATE 12/9/93 NUMBER: Example 1 CUSTOMER: Ansul Fire P rotection
VOLUME CALCULATIONS: Area Name: Length Width Height Area (sq. Volume (cu.
Control Room 30.00
20.00 10.00
600. 00
volume Reductions: Structural Reductions (cu. Reduced Volume: (Volume Structural Reductions) Movable Object Reductions (cu. More Than 25% of Reduced Volume) Total Reduced Volume (Volume reductions)
6000. 00
ROOM MINIMUM AMBIENT TEMP.:
DESIGN CONCENTRATION: FLOODING FACTOR: (From Table) INITIAL INERGEN OUANTITY CALC.: Quantity 2876.26 (Total Reduced Volume x Flooding factor) or (Formula from Design Manual) ALTITUDE CORRECTION: Height Above or Below Sea Level: Factor: (From Design Manual Table) ACTUAL INERGEN Inergen
x
2559.87 (cu. Altitude Correction Factor)
35
1
-
Control Room Item No. 2
SECTION XI
ANSUL.
U L EX- 4510
Example No.
1
12- 1- 93 Page 11- 4. 1
- Control Room Item No.
DESIGN C A L C U L A T I O N
2559. 87
ACTUAL INERGEN QUANTITY (CU. (From Page 1) CYLINDER REQUIREMENTS: (INERGEN qty. cylinder capacity
TOTAL CYLINDER CAPA CITY:
CYLINDER SIZE SELECTED: INERGEN AGENT SUPPLIED: (Cylinder qty. x Cylinder
I
0.532 ACTUAL INERGEN FLOODING FACTOR:( [(INERGEN Agent Alt. Corre ction Factor) Total Reduced Volume]
(Design Conc.
be Between 37.5%
42.8% For Occupied Spaces)
80 Room Max. Ambient Temp.:[ 4 1.8% Design Concentration at Max. Temp:( ( Locate Actual INERGEN Conc. at Max. Temp. on Table, or Use DISCHARGE TIME: Normal Ambient Temperature: Design Concentralion Ambient Tem p.: Locate Actual INERGEN Conc. a t Amb. of Agent Discharge Time (Time from Table in Design Manual)
(Discharge Time ESTIMATED FLOW RATES: Estimated System Flow [(INERGEN Agent Supplied x Discharge Time Estimated Orifice Union Pipe Size:( (Refer to Pipe Sizing Chart)
2512
1
1 Nozzle (length 32 (Rounded to Next Highest Whole Number) width 32 (Rounded Next Highest Whole x
Estimated Nozzle Flow Rate:( (System Flow Rate Nozzle Quantity) Estimated Nozzle Pipe (Refer to Pipe Sizing Chart) 36
in Design Manual]
in Design Manual)
1. 02
90% of Agent Discharge Tim e
I
2512. 36 1
2
SECTION UL EX -4510
Example No. 1
PRELIMINARY DRAWING
-
XI
12-1-93 Page
Control Room Item No. 3
SECTION XI
ANSUL,
EX-4510
Example No. 1
12-1-93
Page 11- 6
- Control Room Item No. 4
FLOW CALCULATION INPUT FORM
.
.
.....,....
38
SECTION XI EX-4510
Example No. 1
COMPUTER PRINT OUT
-
12-1-93
Page
Control Room Item No. 5
- ORIFICE CAL CULATI ON INPUT
Pr epar ed by: ANSUL F I RE PROTECTI ON Locat i on: DALE EDLEECK. ANSUL I NERGEN FL OW CALCULATI ON vl . O U. L. LI STED EX4510 12/ 1/ 93 Date: 12- 08- 1993 DATA I NPUT FI LE NAME I S DATA I NPUT FI LE SEC
SEC
1 2
2 3 4
0. 0
5
1. 0
6
1. 0
3 4 5 6
LENGTH
1. 0 1. 0
0. 5 8 9
8 9
10
10
101
1. 0
0. 5 900. 0 48. 0
ELEV 0 0 0 0 0 0
THRU TEE
SI DE TEE
0 1
0 0
0 0
1 1
0
1
PI PE CODE
1. 00- 60T 1. 00- 80T 1. 00- 80T 1. 00- 80T
1 1 9 50
1. 25- 80T
3
1. 25- 40T
..:
,
39
CPLG
UNI ON
0
1
0 0 0 0 0 0
0 0
1 0
0 0
1 1
0
0
0
0 0 0
4
0
0
0
0 0 0 0
I NERGEN QTY EQL 501. 0 501. 0 502. 0 503. 0 504. 0 5 05. 0 508. 0 508. 0 0. 0 2840. 0
38 0 0 0
0 0 0 0 0 0
SECTION XI UL EX-4510 12-1.93 Page 11-7.1
Example No. 1
COMPUTER PRINT OUT
-
-
Control Room Item No. 5
ORIFICE CALCULA TION PRESSURE LOSS OUTPUT
P r e p a r e d by : ANSUL F I RE PROTECTI ON L o c a t i o n : DAL E E DL B ECK . ANSUL I NERGEN FL OW CALCULATI ON V1. O U. L. L I S TE D E X4 51 0 1 2 / 1 / 9 3 Da t e : 1 2- 08 - 1993
DA T A I NP UT F I L E NA ME I S J OB NUMBER 1 CUSTOMER NAME ANSUL F I RE PROTECTI ON ADDRESS 1 STREET MARI NETTE. WI 54143 REMARKS: CONTROL ROOM :
AGENT ST ORAGE CONDI TI ONS F T CYLI NDERS OF I NERGEN 8 - 355 T OT AL AGENT I N STORAGE I S 2840 FT STORAGE PRESSURE I S NOMI NAL 2200 P SI at 70 DEG F
PRE SSURE DROP CALCUL ATI ON SEC
LEN
EQL (FT)
EL T E E
ST ART P SI A
TERM PSI A 1003
2 3 4
1/ 2 1 1
40 T 80 T 80 T
0
38. 0 3. 4 2. 6
0 0 0
MFLD MFLD MFLD
1033
1 1
4 5
5 6 7
1 1 1
80 T 80 T
1
2. 6
0 0
1004
80 T
1
0
MFLD MFLD MFLD
8 9
1 10. 6 80 T 80 T 1 1 6. 9 OR I F I CE 0 . 5 82 I NCHE S
1 1
MFL D MFL D
6
7 8
,
NOMI NAL P I P E S I ZE
1
2 3
..
SEC
9
10
10
101
1
2. 6 2. 1
1
1 1/ 4
40 T
48
61. 8
3
1005 1004
464 464 927
1002 997
997 990
1391 1854 2318
990 979 972
912 563
3709
563
584
3709
1003 1005
3709
HI GHEST CALCULATE D PRESSURE DOWNSTREAM OF ORI F I CE I S 10 89 P SI A I NI T I AL P I P E L I NE T EMP ERAT URE I S 70 DEGREES
40
3709
ANSUL,
SECTION XI UL EX -4510 12-1-93 Page
Example No. 1
BILL
-
Control Room Item No. 6
OF MATERIALS
BILL OF
MATERIALS
Quote No.: Example 1 Customer Name: Ansul Fire Protection Customer Address: 1 Stanton Street Marinette. 54143
Dale: 9/93 Page: of Line: WMGEN
715- 735- 7411 715 - 732 - 3479
P roject: Design Manual Control Room
Contact Name:
PART DESCRIPTION 41 6447
842424 8731 870846 41
840309 846250 841942 841943 416265 416266 1
4 4 4 2
841549 879640 873091 879413
350 CU. FT MASTER CY LINDER ELECTRIC SOLENOID VALVE ACTUATOR LEVER RELEASE, HANDLE 8 PIN 1 NPT ORIFICE UNION HEADERVEMPLUG PNEUMATIC SWITCH DPST NAMEPLATE "MAIN" NAMEPLATE. "RESERVE WARNING PLATE INSIDE ALARM WARNING PLATE OUTSIDE ALARM CHECK VALVE THREADED BACK FRAME ASSEMBLY (4CYLINDER) CARRIAGE BOLT a NU T (DEL ROW CYLINDER
TOTAL WEIGHT: 3654 Ibs.
41
VALVE
I
42
I