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Facility Closure Management for Industrial Facilities

Facility Closure Management for Industrial Facilities

SRI provides comprehensive solutions for Facility Closure Management to industrial clients closing a unit, part or entire facility. An active facility operates under variety of permits from Federal, State and City. These includes, but not limited to Resource Conservation and Recovery Act (RCRA), the Clean Water Act (CWA), Clean Air Act (CAA), and Permit-By Role (PBR). Upon facility closure some of these regulations continue to impact the facility and currently include formal procedures for RCRA closure, compliance with the CWA and modifications to existing permits under the CAA to remove the point source of emission.

Facility Closure Management tasks requires a company with vast experience in equipment decommissioning and dismantling. SRI has a working relationship with number of agencies in California and is expert in meeting your budget and schedule for facility closure.

Companies such as Boeing and Kobe Precision, Inc. rely on experienced companies such as SRI to close their facility properly to eliminate liabilities associated with facility closure projects. The regulations governing a deactivated unit or facility can be complicated and have a tremendous impact on your company’s bottom line. Contact SRI and ask how we can help you manage your way through the maze of regulation to design and implement an appropriate solution.

Our multi-disciplined staff has the expertise and experience to plan and implement the following tasks associated with facility decommissioning, dismantlement and closure:

Waste Water Neutralization Calculations_U S

1. Caustic Addition – (pH is too low and must be raised)
Instructions: Enter values in blue boxes. Spreadsheet calculates values in yellow boxes
Inputs
Calculations

gmp

WW Flow Rate, Qww =

gal/day

Moles/L of OH needed =

moles/L

Incoming pH, pHin =

NaOH rate needed =

moles/day

Desired pH, pHout =

Caustic solution rate =

lb/day

Caustic sol’n % NaOH =

Caustic solution rate =

gal/day

Caustic sol’n density, ρ =

lb/gal

Daily cost of caustic =

$/day

Caustic solution cost =

$/lb

Wastewater Neutralization Calculations – U.S. units
1. Caustic Addition – (pH is too low and must be raised)
Instructions: Enter values in blue boxes. Spreadsheet calculates values in yellow boxes
Inputs

gmp

WW Flow Rate, Qww =

gal/day

Incoming pH, pHin =

Desired pH, pHout =

Caustic sol’n % NaOH =

Caustic sol’n density, ρ =

lb/gal

Caustic solution cost =

$/lb

Calculations

Moles/L of OH needed =

moles/L

NaOH rate needed =

moles/day

Caustic solution rate =

lb/day

Caustic solution rate =

gal/day

Daily cost of caustic =

$/day

Wastewater Neutralization Calculations – U.S. units
2. Acid Addition – (pH is too high and must be lowered)
Instructions: Enter values in blue boxes. Spreadsheet calculates values in yellow boxes
Inputs
Calculations

gmp

WW Flow Rate, Qww =

gal/day

Moles/L of H+ needed =

moles/L

Incoming pH, pHin =

H2SO4 rate needed =

moles/day

Desired pH, pHout =

Acid solution rate =

lb/day

Acid sol’n % H2SO4 =

Acid solution rate =

gal/day

Acid sol’n density, ρ =

lb/gal

Daily cost of acid =

$/day

Acid solution cost =

$/lb

Wastewater Neutralization Calculations – U.S. units
2. Acid Addition – (pH is too high and must be lowered)
Instructions: Enter values in blue boxes. Spreadsheet calculates values in yellow boxes
Inputs

gmp

WW Flow Rate, Qww =

gal/day

Incoming pH, pHin =

Desired pH, pHout =

Acid sol’n % H2SO4 =

Acid sol’n density, ρ =

lb/gal

Acid solution cost =

$/lb

Calculations

Moles/L of H+ needed =

moles/L

H2SO4 rate needed =

moles/day

Acid solution rate =

lb/day

Acid solution rate =

gal/day

Daily cost of acid =

$/day