synergies between process energy efficiency and relief … · synergies between process energy...
TRANSCRIPT
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Synergies between process energy efficiency and relief loads
Mary Kay O’Connor Process Safety Center2008 Symposium
Rob Brendel
Jacobs Consultancy Inc. (Chicago)Petroleum, Chemicals & Energy Practice
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1. Background & motivation
2. Design approach to address concurrently energy efficiency and required relief loads
3. Case studies of dual benefits:– Pump with excess discharge pressure– Cooling upstream of product separator– Three-product distillation column
4. Conclusions
Recent moves to improve efficiency and reduce relief loads
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1. Background and motivation
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Recent moves to improve efficiency and reduce relief loads
Energy:– Expand production without additional utilities Reduce the
largest variable cost of production– Reduce CO2 emissions
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Recent moves to improve efficiency and reduce relief loads
Energy:– Expand production without additional utilities Reduce the
largest variable cost of production– Reduce CO2 emissions
Relief Load:
Expand production without additional flare capacity
Reduce risks
Eliminate relief to atmosphere
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Similarities in work processes
The work process toreduce energy/utility consumptionis similar to that used to reduce
loads to the relief system:
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Similarities in work processes
Survey the entire system as a whole Identify major consumers (of energy or flare capacity) Eliminate unnecessary consumption Reduce demands of largest consumers
The work process toreduce energy/utility consumptionis similar to that used to reduce
loads to the relief system:
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2. Efficiency and relief loads: Design approach to address both
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Reducing the energy consumed in a process may also reduce the required
relief load if:
Efficiency and relief loads: Design approach to address both
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Efficiency and relief loads: Design approach to address both
The normal energy balance is changed
The energy source responsible for the relief load is the one reduced
Reducing the energy consumed in a process may also reduce the required
relief load if:
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Efficiency and relief loads: Design approach to address both
The normal energy balance is changed
The energy source responsible for the relief load is the one reduced
As we will see, these are necessary but not sufficient
Reducing the energy consumed in a process may also reduce the required
relief load if:
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3. Case Studies
These examples were developed to illustrate the synergies that can be discovered when applying this integrated approach.
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3. Case Studies
These examples were developed to illustrate the synergies that can be discovered when applying this integrated approach.
Example 1: Pump with excess discharge pressure
Example 2: Cooling upstream of product separator
Example 3: Distillation column with upper reboiler added
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Example 1: Pump with excess discharge pressure
ENERGY
Feed control valve is less than50% open
Indicates pump power consumption could be reduced
To Flare
M
Charge pump
Feed controlvalve
Feed heatexchanger
Flare knock-out drum
Single-speed motor
Relief valve
Feed flow controller
Feed furnace
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Example 1: Pump with excess discharge pressure
ENERGY
Feed control valve is less than50% open
Indicates pump power consumption could be reduced
RELIEF LOAD
Charge pump can develop headlarger than exchanger MAWP
Blocked outlet at exchanger resultsin large liquid release through RVat pump discharge.
To Flare
M
Charge pump
Feed controlvalve
Feed heatexchanger
Flare knock-out drum
Single-speed motor
Relief valve
Feed flow controller
Feed furnace
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Example 1: Pump with excess discharge pressure
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0 100 200 300 400 500 600 700 800Flow, gpm
Hea
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Example 1: Pump with excess discharge pressure
POTENTIAL SOLUTION
Install variable-speed driver oncharge pump
Flow controller adjusts pump speed
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Example 1: Pump with excess discharge pressure
POTENTIAL SOLUTION
Install variable-speed driver oncharge pump
Flow controller adjusts pump speed
ENERGY BENEFITS
Pressure loss across feed controlvalve has been eliminated
Reduced normal electricity demand
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Example 1: Pump with excess discharge pressure
POTENTIAL SOLUTION
Install variable-speed driver oncharge pump
Flow controller adjusts pump speed
ENERGY BENEFITS
Pressure loss across feed controlvalve has been eliminated
Reduced normal electricitydemand
RELIEF LOAD BENEFITS
None: Blocked-outlet relief load isunchanged
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Flow rate during relief
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0 100 200 300 400 500 600 700 800Flow, gpm
Hea
d, ft
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Dis
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ge p
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Systemcurve
Exchangerrelieving pressure
Normalflow rate
Pump curve
Relievingflow rate
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Example 1: Pump with excess discharge pressure
ALTERNATE SOLUTION
Reduce pump impeller sizeTo Flare
M
Charge pump
Feed controlvalve
Feed heatexchanger
Flare knock-out drum
Single-speed motor
Relief valve
Feed flow controller
Feed furnace
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Pump with smaller impeller
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1000
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0 100 200 300 400 500 600 700 800Flow, gpm
Hea
d, ft
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150
200
250
300
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Dis
char
ge p
ress
ure,
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Systemcurve
Exchangerrelieving pressure
Large impellerSmall impeller
Normalflow rate
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Example 1: Pump with excess discharge pressure
ALTERNATE SOLUTION
Reduce pump impeller size
ENERGY BENEFITS
Reduced normal electricity demand
To Flare
M
Charge pump
Feed controlvalve
Feed heatexchanger
Flare knock-out drum
Single-speed motor
Relief valve
Feed flow controller
Feed furnace
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Example 1: Pump with excess discharge pressure
ALTERNATE SOLUTION
Reduce pump impeller size
ENERGY BENEFITS
Reduced normal electricity demand
RELIEF LOAD BENEFITS
Reduced pump head results in smaller relief load for blocked-inexchanger
To Flare
M
Charge pump
Feed controlvalve
Feed heatexchanger
Flare knock-out drum
Single-speed motor
Relief valve
Feed flow controller
Feed furnace
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Pump with smaller impeller
0
200
400
600
800
1000
1200
1400
1600
0 100 200 300 400 500 600 700 800Flow, gpm
Hea
d, ft
0
50
100
150
200
250
300
350
400
450
Dis
char
ge p
ress
ure,
psi
g
Systemcurve
Exchangerrelieving pressure
Large impellerSmall impeller
Normalflow rate
Relievingflow rate
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Example 1: Pump with excess discharge pressure
ALTERNATE SOLUTION
Reduce pump impeller size
ENERGY BENEFITS
Reduced normal electricity demand
RELIEF LOAD BENEFITS
Reduced pump head results in smaller relief load for blocked-inexchanger
PROCESS FLEXIBILITY LOST
Reduced maximum throughput
To Flare
M
Charge pump
Feed controlvalve
Feed heatexchanger
Flare knock-out drum
Single-speed motor
Relief valve
Feed flow controller
Feed furnace
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Example 1: Conclusion
Remember this from earlier?
The normal energy balance is changed
The energy source responsible for the relief load is the one reduced
Reducing the energy consumed in a process may also reduce the required relief load if:
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Example 1: Conclusion
Remember this from earlier?
The normal energy balance is changed
The energy source responsible for the relief load is the one reduced
Example 1 showed that these are not sufficient. Investigation is still required to test relief benefits.
Reducing the energy consumed in a process may also reduce the required relief load if:
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Example 2: Cooling upstream of product separator
ENERGYIntention is to reduce overall energyconsumption in this process
Cooling water
Fuel gas
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Example 2: Cooling upstream of product separator
ENERGYIntention is to reduce overall energyconsumption in this process
Cooling water
Fuel gas
RELIEF LOADSeparator has lowest MAWP in thecircuit
Several scenarios result in largevapor load to flare, among themloss of cooling water
Flare maximum case is coolingwater failure
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Example 2: Cooling upstream of product separator
POTENTIAL SOLUTION
Add air cooler upstream of water cooler
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Example 2: Cooling upstream of product separator
POTENTIAL SOLUTION
Add air cooler upstream of water cooler
ENERGY BENEFITS
Reduced cooling water demand
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Example 2: Cooling upstream of product separator
POTENTIAL SOLUTION
Add air cooler upstream of water cooler
ENERGY BENEFITS
Reduced cooling water demand
RELIEF LOAD BENEFITS
Reduced relief load upon coolingwater failure
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Example 2: Cooling upstream of product separator
ALTERNATE SOLUTION
Enhance feed/effluent heat exchange capacity
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Example 2: Cooling upstream of product separator
ALTERNATE SOLUTION
Enhance feed/effluent heat exchange capacity
ENERGY BENEFITS
Reduced cooling water demand and reduced fuel gas demand
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Example 2: Cooling upstream of product separator
ALTERNATE SOLUTION
Enhance feed/effluent heat exchange capacity
ENERGY BENEFITS
Reduced cooling water demand and reduced fuel gas demand
RELIEF LOAD BENEFITS
Reduction in relief load forcooling water failure case
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Example 2: Conclusion
Example 2 showed that benefits may vary among potential solutions.
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Example 3: Three-product distillation column
ENERGYFuel gas short; make-up with purchased natural gas
Excess medium-pressure steam; let-down to LPS; LPS is vented
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
MPS
M
Cooling water
Column feed
Heavy liquid product
Vapor product
Light liquid product
Fuel gas
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Example 3: Three-product distillation column
ENERGYFuel gas short; make-up with purchased natural gas
Excess medium-pressure steam; let-down to LPS; LPS is vented
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
MPS
M
Cooling water
Column feed
Heavy liquid product
Vapor product
Light liquid product
Fuel gas
RELIEF LOADFlare system loaded during powerfailure event
Large power failure relief loadfrom this column
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Example 3: Three-product distillation column
POTENTIAL SOLUTIONConvert bottoms pump driver to motor
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
MPS
M
Cooling water
Column feed
Heavy liquid product
Vapor product
Light liquid product
Fuel gas
M
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Example 3: Three-product distillation column
POTENTIAL SOLUTIONConvert bottoms pump driver to motor
RELIEFReduces power-failure relief load since reboiler will trip off
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
MPS
M
Cooling water
Column feed
Heavy liquid product
Vapor product
Light liquid product
Fuel gas
M
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Example 3: Three-product distillation column
POTENTIAL SOLUTIONConvert bottoms pump driver to motor
RELIEFReduces power-failure relief load since reboiler will trip off
ENERGYReduces consumption of MPSteam,which means more is vented
Increases consumption of electricity
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
MPS
M
Cooling water
Column feed
Heavy liquid product
Vapor product
Light liquid product
Fuel gas
M
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Example 3: Three-product distillation column
POTENTIAL SOLUTIONConvert bottoms pump driver to motor
RELIEFReduces power-failure relief load since reboiler will trip off
ENERGYReduces consumption of MPSteam --which means more is vented
Increases consumption of electricity
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
MPS
M
Cooling water
Column feed
Heavy liquid product
Vapor product
Light liquid product
Fuel gas
M
This solution is rejected.
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Example 3: Three-product distillation column
ALTERNATE SOLUTIONAdd upper reboiler
MPSteam condensate
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
Upper Reboiler
MPS
Condensate MPS
M
Cooling water
Vapor product
Light liquid product
Heavy liquid product
Column feed
Fuel gas
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Example 3: Three-product distillation column
ALTERNATE SOLUTIONAdd upper reboiler
MPSteam condensate
ENERGYReduces fuel gas consumptionwhile increasing MPSteamconsumption
Reduces venting of MPSteam
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
Upper Reboiler
MPS
Condensate MPS
M
Cooling water
Vapor product
Light liquid product
Heavy liquid product
Column feed
Fuel gas
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Example 3: Three-product distillation column
ALTERNATE SOLUTIONAdd upper reboiler
MPSteam condensate
ENERGYReduces fuel gas consumptionwhile increasing MPSteamconsumption
Reduces venting of MPSteam
RELIEF LOADUpper reboiler pinches out duringrelief
Power failure relief load decreases
Feed-bottoms
exchanger
Distillation column
Bottoms pump
Overhead pump
Condenser
Reboiler
To Flare
Accumulator
Upper Reboiler
MPS
Condensate MPS
M
Cooling water
Vapor product
Light liquid product
Heavy liquid product
Column feed
Fuel gas
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Example 3: Three-product distillation column
Process parameter Furnace reboiled only
Furnace and upper steam-reboiled
Reflux / Feed, mol/mol 0.48 0.57
Condenser duty, MMBtu/hr 30.2 33.8
Furnace reboiler duty, MMBtu/hr 36.6 31.0
Steam reboiler duty, MMBtu/hr 0 9.6
Total reboiler duty, MMBtu/hr 36.6 40.6
Fuel costs for the reboiler, k$/yr 3,840 3,260
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Example 3: Three-product distillation column
Relief parameter Furnace reboiled only
Furnace and upper steam-reboiled
Power failure relief load, lb/hr 182,000 136,000
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Example 3: Conclusion
Remember this from earlier?
Example 3 showed that the reverse formulation is also true:
Reducing the required relief load in a process may also improve the energy efficiency.
Reducing the energy consumed in a process may also reduce the required relief load.
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Efficiency and relief loads: Design approach
Energy efficiency and required relief loads can be improved by the same changes to a process.
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Efficiency and relief loads: Design approach
Energy efficiency and required relief loads can be improved by the same changes to a process.
The dual benefits are not automatic; good engineering investigation is required to identify and evaluate potential solutions.
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Synergies between process energy efficiency and relief loads
Q & (perhaps) A
Rob Brendel
Jacobs Consultancy Inc. (Chicago)Petroleum, Chemicals & Energy Practice