D.40.11 - Sprinklers

The following models are available:

D.40.11.021a | Fire Sprinkler Water Piping - Horizontal Mains and Branches - Old Style Victaulic - Thin Wall Steel - No bracing, SDC A or B, PIPING FRAGILITY

Costing based upon 1000 ft segments of pipe, horizontal main and branches
Construction Quality: Normal
Seismic Installation Conditions: SDC A or B (no seismic design)
Notes: One failure is expected per 1000 feet of pipe. Allowance included for MEP modifications for repair.

Suggested Block Size: 1000 LF

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.022a | Fire Sprinkler Water Piping - Horizontal Mains and Branches - Old Style Victaulic - Thin Wall Steel - No bracing, SDC C, PIPING FRAGILITY

Costing based upon 1000 ft segments of pipe, horizontal main and branches
Construction Quality: Normal
Seismic Installation Conditions: SDC C (low seismic design)
Notes: One failure is expected per 1000 feet of pipe. Allowance included for MEP modifications for repair.

Suggested Block Size: 1000 LF

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.023a | Fire Sprinkler Water Piping - Horizontal Mains and Branches - Old Style Victaulic - Thin Wall Steel - Poorly designed bracing, SDC D, E, or F , PIPING FRAGILITY

Costing based upon 1000 ft segments of pipe, horizontal main and branches
Construction Quality: Normal
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 1000 feet of pipe. Allowance included for MEP modifications for repair.

Suggested Block Size: 1000 LF

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.024a | Fire Sprinkler Water Piping - Horizontal Mains and Branches - Old Style Victaulic - Thin Wall Steel - with designed bracing, SDC D, E, or F (OSHPD or sim), PIPING FRAGILITY

Costing based upon 1000 ft segments of pipe, horizontal main and branches
Construction Quality: Special Regulation (e.g. OSHPD) for sprinkler installations
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 1000 feet of pipe. Allowance included for MEP modifications for repair.

Suggested Block Size: 1000 LF

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.031a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into unbraced lay-in tile SOFT ceiling - 6 ft. long drop maximum, SDC A or B

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC A or B (no seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.032a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into unbraced lay-in tile SOFT ceiling - 6 ft. long drop maximum, SDC C

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC C (low seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.033a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into unbraced lay-in tile SOFT ceiling - 6 ft. long drop maximum, SDC D, E, or F

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.034a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into unbraced lay-in tile SOFT ceiling - 6 ft. long drop maximum, SDC D, E, or F (OSHPD or sim)

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Special Regulation (e.g. OSHPD) for sprinkler installations
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.041a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into unbraced lay-in tile HARD ceiling - 6 ft. long drop maximum, SDC A or B

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC A or B (no seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.042a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into unbraced lay-in tile HARD ceiling - 6 ft. long drop maximum, SDC C

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC C (low seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.053a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into braced lay-in tile SOFT ceiling - 6 ft. long drop maximum, SDC D, E, or F

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.054a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into braced lay-in tile SOFT ceiling - 6 ft. long drop maximum, SDC D, E, or F (OSHPD or sim)

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Special Regulation (e.g. OSHPD) for sprinkler installations
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.063a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into braced lay-in tile HARD ceiling - 6 ft. long drop maximum, SDC D, E, or F

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.064a | Fire Sprinkler Drop Standard Threaded Steel - Dropping into braced lay-in tile HARD ceiling - 6 ft. long drop maximum, SDC D, E, or F (OSHPD or sim)

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Special Regulation (e.g. OSHPD) for sprinkler installations
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.071a | Fire Sprinkler Drop Standard Threaded Steel - No Ceiling - 6 ft. long drop maximum, SDC A or B

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC A, B ( no seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.072a | Fire Sprinkler Drop Standard Threaded Steel - No Ceiling - 6 ft. long drop maximum, SDC C

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC C ( low seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.073a | Fire Sprinkler Drop Standard Threaded Steel - No Ceiling - 6 ft. long drop maximum, SDC D, E, or F

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Normal
Seismic Installation Conditions: SDC D,E,F (high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time


D.40.11.074a | Fire Sprinkler Drop Standard Threaded Steel - No Ceiling - 6 ft. long drop maximum, SDC D, E, or F (OSHPD or sim)

Costing per 100 units, Standard threaded steel drop, 6 ft. long drop maximum
Construction Quality: Special Regulation (e.g. OSHPD) for sprinkler installations
Seismic Installation Conditions: SDC D,E,F ( high seismic design)
Notes: One failure is expected per 100 units. Allowance included for MEP modifications for repair.

Suggested Block Size: 100 EA

The following repair consequences are available for this model:

Carbon

Cost

Energy

Time