DEBOTTLENECKING METALLURGICAL AND SULPHUR-BURNING SULPHURIC ACID PLANTS: CAPACITY INCREASE AND...
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Transcript of DEBOTTLENECKING METALLURGICAL AND SULPHUR-BURNING SULPHURIC ACID PLANTS: CAPACITY INCREASE AND...
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 1
Andrés Mahecha-Botero, Ph.D., P.Eng., Process Engineer C. Guy Cooper, P. Eng., Director Sulfuric Acid
Igor Aksenov, P.Eng., Process Engineer Kim Nikolaisen, Ph.D., Process Engineer
October 18-22, 2015Fortaleza, Brasil
NORAM Engineering and Constructors Ltd., Vancouver, Canada
DEBOTTLENECKING METALLURGICAL AND SULPHUR-BURNING SULPHURIC ACID PLANTS: CAPACITY INCREASE
AND REDUCTION OF EMISSIONS
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 2
OUTLINE
1. Introduction
2. General Acid Plant Debottlenecking Concepts
• Unplug the arteries• Performance enhancement• Energy recovery• Emissions reductions
3. Conclusions
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 3
NORAM Engineering
Based in Vancouver
Founded in 1988
Approximately 200 employees
Focus on Technology
Own BC Research Laboratories
Own Axton Fabrication Shop
Alliance with Tenova Minerals (formerly Bateman Engineering N.V.)
Own NORAM International AB (Sweden)
Alliance with Turboscrubber (Osprey/FTL)
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 4
• Australia
• Belgium
• Brazil
• Canada
• Chile
• China
• Czech Republic
• France
• Finland
• Germany
• India
• Kazakhstan
• Mexico
• Morocco
• Peru
• Portugal
• Russia
• Tunisia
• Venezuela
• UK
• USA
Our ClientsABSA/FertinalAgriumAgrogenASARCO Bateman EngineeringBayerBHP CopperCargillCellulose du MarocChemeticsChevronClimax MolybdenumCodelcoComincoConocoPhillipsDuke EnergyDuPontFirst Chemical CorpGeorgia PacificHuntsman ChemicalsInnophos International PaperKennecott Utah CopperMagma CopperMarsulexMexicana de CobreMonsantoMosaic
Met Mex Penoles
Mexichem
Newmont Gold
Nexen Chemicals
OCP Maroc
Paradeep Phosphates Ltd.
Pequiven, PDVSA
Port Kembla Copper
Phelps Dodge
PCS PhosphatesPotlatch Corp.RhodiaQajamarquilla, Refineria de ZincQuimigalRubiconSherritt InternationalTexas BrineTianjiUniroyalVale IncoWestlakeWeyerhaeserXstrata
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 5 5
Stainless Steel Converter with Internal Exchanger
Stainless Steel Converter with Internal Exchanger
RFTM SFTM Preheat Exchanger
RFTM SFTM Gas to Gas Heat Exchanger
Acid Towers
Acid Coolers
Tel: (604) 681-2030 • Fax: (604) 683-9164 • [email protected]
www.noram-eng.com
HPTM Saddle Packing
SMARTTM Acid Distributor
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 6
(2) GENERAL ACID PLANT DEBOTTLENECKING CONCEPTS
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 7
Analogy:Unplug the Arteries
Can we just speed up the flow?
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 8
Reduction of Pressure Drop
Strategies include the use of:
• Low pressure drop Catalyst • and larger diameter “dust protection catalyst”
• Air f i l ter and sulfur f i l ter
• Equipment in parallel
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 9
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Radial-Flow Gas Heat Exchangers
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 10
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Radial-Flow Gas Heat Exchangers
•Symmetric heat transfer•Extended l i fe•Improved heat transfer•Compact design•Low pressure drop•Metal temperature control•Reduced condensation & fouling
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 11
In Conventional Cold Exchangers
Sulfate Fouling
Corrosion of Tubes
Upper Tubes
Bottom Tubesheet
Top Tubesheet
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Radial-Flow Gas Heat Exchangers with Hot Sweep
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 12
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Radial-Flow Gas Heat Exchangers with Hot Sweep
From Bed 3450°C, 850°F
To IPT180°C, 350°F
To Hot Exchanger315°C, 600°F
From IPT80°C, 175°F
T=260°F =130°C
T=510°F =265°C
Conventional Hot Sweep to Prevent Sulfate
Formation
Hot Sweep
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 13
Simplot Pocatello New Cold Exchanger with Hot Sweep
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 14
Cold Reheat Pressure Drop
JR Simplot Company Don Plant 400 SA Cold Reheat Exchanger Pressure Drop
0
5
10
15
20
25
30
35
40
45
50
3/20/03 6/28/03 10/6/03 1/14/04 4/23/04 8/1/04 11/9/04 2/17/05 5/28/05 9/5/05
Pres
sure
Dro
p ("
H2O
)
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 15
NORAM DesignMuch lower number of tubes
• 2,800 vs. 5,400
Much lower overall weight
• 300,000 lbs vs 500,000 lbs
Shell diameter much smaller
• 16 ft vs. 20 ft
Per the salesman: It will do the same heat transfer as the current unit, won’t scale, won’t corrode, and last twice as long!!
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 16
Operation Post Installation
• The 400 Sulfuric acid plant operates on 2 year turnaround cycles.• From 2006-2008, no major increase in pressure drop
• Turnaround inspection only. No planned cleaning!JR Simplot Company Don Plant
400 SA Cold Reheat Exchanger Pressure Drop
0
5
10
15
20
25
30
35
40
45
50
3/24/06 7/2/06 10/10/06 1/18/07 4/28/07 8/6/07 11/14/07 2/22/08 6/1/08 9/9/08
Pres
sure
Dro
p ("
H2O
)
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 17
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Low Pressure Drop Acid Tower Packing
NORAM HP™ Saddle Packing
Benefits:• Low Pressure Drop• Quality Porcelain Ceramic• Strong, Few Chips
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 18
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Low Pressure Drop Acid Tower Packing.
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 19
Reduction of Pressure Drop (Cont’d)Strategies include the use of: • Acid distr ibutor above packing
(vs. Buried pipe distr ibutors and spray catcher packing)
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 20
Did we get the arteries unplugged?
Yes → Good
No → Performance enhancement
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 21
Increase of SO2 Gas Strength
• Increasing the concentration of SO 2 in the process gas is the most cost-effective way to increase plant capacity
• Example: change from 9 to 12 Vol% SO2 = 33% capacity increase change from 11 to 12 Vol% SO2 = 9% capacity increase
• Allows increased production, without signif icant changes to the main blower
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 22
Increase of SO2 Gas Strength (Cont’d)Factors that may l imit the maximum SO 2 concentration include:
• Temperature tolerance of the materials of construction
• Maximum temperature from outlet of converter bed #1. (1166°F)
• Formation of NO x
• Heat removal capacity
• Catalyst requirements
• O2 availabil i ty (max ~ 12 vol% SO 2 sulfur burning)
• Maximum SO 2 strength from the smelter
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 23
Stil l need more Performance Enhancement? (= more acid production)
Strategies include:
• Main blower location: move from “sucker” to “pusher” (ducting only, not blower)
• Furnace and Waste Heat Boiler Bypass
• Booster fan after the Interpass Absorption Tower
• Conversion from Double to Single Absorption with Tail gas scrubbing
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 24
NORAM Furnace By-Pass System
FB-1
Furnace Waste Heat Boiler
Conventional Sulfur Burning System
NORAM Furnace By-Pass System
Furnace Waste Heat Boiler
To Converter10.75%SO2
420°C(790°F)
To Converter10.75%SO2
420°C(790°F)
10.75%SO2
12.98%SO2
100% 96.8%
82.9% 77.0%
3.2%
Hot JugValve
Steam600 psig
254°C(490°F)
Steam600 psig
254°C(490°F) 406°C
(763°F)
396°C(745°F)
1093°C(2000°F)
1260°C(2300°F)
Furnace By-pass
Valve
Cold Jug Valve
(Damper)
Air 150°C (300°F)
Sulfur 135°C (275°F)
5.9%
17.1% 23.0%
Air 150°C (300°F)
Sulfur 135°C (275°F)
469°C (877°F)
1093°C (2000°F)
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 25
Energy Improvements and Equipment Upgrades
Strategies include:
• Main blower location relative to Drying Tower: • “pusher” max steam production due to more acid produced• “sucker” max steam per unit of acid produced
• Dew point analyzer
• Rotating equipment upgrades
• Blower motor VFD• Steam turbine upgrades (steam conditions, jets, gear box, impeller, all new)
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 26
Steam System Improvements
Strategies include:
• Recovery of heat from hot sulfuric acid:
• Preheating boiler feed water• Production of intermediate pressure steam
• Heat recovery from boiler blowdown systems
• Replacement of SO 3 coolers with steam equipment
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 27
Reduction of Emissions of Sulfur Dioxide
Review:
• Loading of the catalytic converter
• Catalyst activity, catalyst type, pressure effect on kinetics
• Design and mechanical conditions of catalytic converter and gas exchangers (gas bypass)
• Dedicated final tower pump tank to el iminate SO 2 str ipping in Final Absorption Tower
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 28
Reduction of Emissions of SO 3 and H2SO4:
Review:
• Design and mechanical conditions of the final absorption tower, incl. acid distr ibutor, tower packing, acid irr igation rates
• Operating conditions of the final absorption tower
• Gas bypassing
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 29
Reduction of Sulfuric Acid Mist or Sprays
Review:
• Design and sizing of the mist eliminators
• Mechanical conditions of the mist el iminators
• Add candles or use longer candles if extra space. Or candle-in-candle
• TurboScrubber system
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 30
ConclusionsDebottlenecking
Efficiency• Energy recovery and equipment design
Emission Reduction• Catalyst• Acid tower design• Gas bypassing• SO2 Tail gas scrubbing
• “Unplug arteries”• Reduce pressure drop (catalyst, gas-exchangers, packing, mist eliminators)• Increase heat exchanger capacity• “Performance enhancement”• Increase SO 2 gas strength• Furnace/WHB Bypass •“Pusher” vs. “sucker” • Booster fan
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DEBOTTLENECKING ACID PLANTS
Mahecha-Botero, Cooper, Aksenov, Nikolaisen, 2013 31
THANK YOU!