How Exhaust Emissions Drive Diesel Engine Fuel Efficiency · 2014-03-11 · How Exhaust Emissions...
Transcript of How Exhaust Emissions Drive Diesel Engine Fuel Efficiency · 2014-03-11 · How Exhaust Emissions...
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01MunteanGeorge.ppt
How Exhaust Emissions Drive Diesel Engine Fuel Efficiency
George MunteanPacific Northwest National Laboratory
30.08.04
DEER 2004Session 1 – Emerging Diesel Technology
Diesel Aftertreatment
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Once it has “emerged”…
…NOx aftertreatment has the potential to improve diesel engine fuel economy over
current state-of-the-art
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01MunteanGeorge.ppt
AftertreatmentFuel Economy
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Table of ContentsChapter 1: NOx adsorbers fuel penalty
NOx chemistryHC slipOxygen depletion
Chapter 2: Lean NOx fuel penaltyNOx chemistrySelectivityActivity
Chapter 3: Particulate filters fuel penaltyBackpressureRegeneration (Enthalpy)
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NOx Adsorber Fuel PenaltiesAssuming
Hydrogen to carbon ratio in the fuel = 1.85 [mole/mole]NOx Rate = 2.5 [gm NO2/bHp/hr]Air to Fuel Ratio = 25:1 [lbm/lbm]bsfc = 0.350 [lb/bHp/hr]lean:rich adsorption cycle = 30:1 [sec/sec]
Yields a fuel penalty ofadsorber NOx chemistry = 0.405%O2 consumption using exhaust reductant = 2.408%HC slip = 0.088%total = 2.9%
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NOx Adsorber ChemistryAdsorption
2 NO + O2 → 2 NO2
2 NO2 + MO + ½ O2 → M(NO3)2
overall2 NO + 3/2 O2 + MO → M(NO3)2
Desorption with COM(NO3)2 + 3 CO + 3/2 O2 → MO + 2 NO + 3 CO2
Reduction with CO2 NO + 2 CO → N2 + 2 CO2
∴ five moles of CO are required to desorb and reduce two moles of NO
∴∴∴
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NOx Adsorber Chemistry (cont.)Adsorption
2 NO + 3/2 O2 + MO → M(NO3)2
Desorption with CH1.85
M(NO3)2 + 1.02564 CH1.85 →MO + 2 NO + 1.02564 CO2 + 0.94872 H20
Desorption and reduction with CH1.85
M(NO3)2 + 1.7094 CH1.85 →MO + N2 + 1.7094 CO2 + 1.5812 H20
∴ 0.8547 moles of CH1.85 are required to convert one mole of NO
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NOx Chemistry Fuel PenaltyNOX ≡ NOx reduction rate [gm NO2/bHp/hr]
= {NOX /46} [mole NO2/bHp/hr] environment
= {NOX /46} [mole NO/bHp/hr] engine exhaust
stoichiometry → {NOX *0.8547/46} [mole CH1.85 /bHp/hr]= {NOX *13.85*0.8547/46} [gm CH1.85 /bHp/hr]= {NOX *13.85*0.8547/46/454} [lb CH1.85 /bHp/hr]
∴ NOx chemistry fuel penalty (as a percentage): {0.0567*NOX / BSFC } [%]
∴ Example: To remove 2.5 gm of NOx at 0.350 bsfc:0.0567*2.5/0.350 = 0.405%
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0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0 1 2 3 4NOx Reduction [gm/bHp/hr]
% fu
el p
enal
ty
0.250.270.290.310.330.350.370.390.410.430.450.470.49
NOx Chemistry Is Minor Factorbsfc [lbm/bHp/hr]
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HC Slip Fuel PenaltyNMHC ≡ Non-Methane Hydrocarbon reduction rate
NMHC [gm CH1.85/bHp/hr] = {NMHC /454} [lbm CH1.85/bHp/hr]
HC slip fuel penalty (as a percentage) is simply the ratio:{100*NMHC /454/ BSFC } [%]
∴ Example: Assuming 2007HD NMHC level of 0.14g/bHp/hr and 0.350 bsfc:
fuel penalty = 100*0.14/454/0.350 = 0.088%
Note: 0.088% assumes that no tailpipe HC are methane and that no stored (on the catalyst) HC are oxidized during the lean operating period
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Oxygen Consumption Fuel PenaltyStoichiometric Oxidation of CH1.85
O2 + 0.68376 CH1.85 → 0.68376 CO2 + 0.63248 H20
∴ stoichiometry = 0.68376 [mole CH1.85/mole O2]
Lean oxidation of CH1.85
(0.2095 O2 + 0.7905 N2) + phi CH1.85 → (0.2095 – 5.85/4*phi) O2
+ 0.7905 N2 + phi CO2 + (1.85/2) phi H20
∴ exhaust oxygen concentration:{(0.2095 – 1.4625*phi)/(1.0 + 0.4625*phi)} [mole O2 /mole exh]
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O2 Consumption Fuel Penalty (cont.)AFR ≡ Air to Fuel Ratio [lbm air/lbm CH1.85]
= {28.96/phi /13.85} [gm air/gm CH1.85]
ExO2 ≡ O2 concentration in the exhaust [mole O2 /mole exh]= {(0.2095*AFR –3.0581)/(AFR +0.9670)} [mole O2 /mole exh]
Please note the following relationship for exhaust flow rate:(exhaust flow rate)/(fresh air flow rate) = {1.0 + 1.0/AFR} [lb /lb]
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O2 Consumption Fuel Penalty (cont.)Putting it all together…
[mole CH1.85 / mole exhaust] →{ExO2 * 0.68376}
[gm CH1.85 /gm exhaust] →{ExO2 * 0.68376*13.85/28.8} see note
[lbm CH1.85 /lbm intake air] →{ExO2 * 0.68376*13.85/28.8*(1.0 +
1.0/AFR)}[lbm CH1.85 /lbm engine fueling] →
{ExO2 * 0.68376*13.85/28.8*(AFR + 1.0)}
Note: exhaust gas molecular weight was assumed to be 28.8
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O2 Consumption Fuel Penalty (cont.)…yields the oxygen depletion fuel penalty:
[lbm CH1.85 / lbm engine fueling] →{(0.2095*AFR –3.058)/(AFR +0.967)*0.684*13.85/28.8*(AFR +
1)}or approximately…
[lbm CH1.85 / lbm engine fueling] →{(0.2095*AFR –3.058)*0.684*13.85/28.8}
Finally, accounting for rich-lean cycling:{(6.89*AFR - 100)/(lean:rich)} [%]
∴ Example: To remove exhaust O2 at 25 AFR and 30:1 lean rich yields a fuel penalty of: (6.89*25 -100)/30 = 2.41%
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Oxygen Consumption Fuel PenaltyThree approaches:
– reduce exhaust flow to the catalyst w/bypass• analysis done but not included (available on request)
– increase adsorption/regeneration time ratios– operate the engine at low air/fuel ratios
• throttle the engine (decrease air)• increase EGR rates (decrease air)• destroy efficiency (increase fuel)
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Oxygen Consumption Fuel PenaltyThree approaches:
– reduce exhaust flow to the catalyst w/bypass• analysis done but not included (available on request)
– increase adsorption/regeneration time ratios– operate the engine at low air/fuel ratios
• throttle the engine (decrease air)• increase EGR rates (decrease air)• destroy efficiency (increase fuel)
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02468
10121416
15 20 25 30 35Air to Fuel Ratio [lb/lb]
Cyc
le A
vg F
uel P
enal
ty [%
]
1020304050
Oxygen Depletionlean/rich [sec/sec]
adsorbercapacity
Enginemanagement
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02468
10121416
1 1.5 2 2.5 3rich/lean bsfc ratio [-]
Cyc
le A
vg F
uel P
enal
ty [%
]
1020304050
In-Cylinder Enrichmentlean/rich [sec/sec]
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Adsorber Fuel Penalty Equationpenalty [%] =
{100*(0.000567)*NOX / BSFC } + {100*NMHC /454/ BSFC } + {(0.206*AFR –3.058)/(AFR +0.967) *
0.684*13.85/28.8*(AFR + 1.0) / (lean:rich)}
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Conclusion #1With maturity NOx Adsorbers will allow engine retune
2.5 gm NOx → 2.9% fuel penalty5.0 gm NOx → 3.3% fuel penalty
Note: this argument is not unlike the case some are making for urea-SCR (primarily in Europe)
Key science need – better understanding of the desorption/regeneration phenomenon
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0.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
90 95 100 105 110 115
NO
x[g
m N
O2/b
HP/
hr]
Normalized Fuel Consumption [%]
Adsorber tradeoff curve
A Classic NOx & BSFC Curve
Aftertreatment will save fuel!
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Conclusion #2Given that O2 depletion is the biggest piece of the fuel penalty and the strong relationship with Air-to-Fuel ratio,
{(6.89*AFR - 100)/(lean:rich)} [%]NOx Adsorbers will have a relatively larger fuel penalty under lighter load operating conditions.
2.4% penalty at 25:1 AFR10.5% penalty at 60:1 AFR20% penalty at 100:1 AFR
Which implies one of two strategies:(massive) EGR rates for AFR reductiondual mode w/HCCI-like combustion at light loads
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EGR Effect on Oxygen Concentration
0.00
0.50
1.00
15 25 35 45 55 65 75 85fresh A/F
EGR
rate
(by
mas
s)
16% O217% O218% O219% O220% O2
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HCCI(like) Combustion and NOx Adsorbers
02468
10121416
0 1000 2000 3000 4000 5000Engine Speed [RPM]
BM
EP [b
ar]
FTP75
Exhaust system enrichment
In-cylinder enrichment
HCCI mode
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OverviewNOx Adsorbers
NOx chemistryHC slipOxygen depletion
Lean NOx
NOx chemistrySelectivityActivity
Particulate FiltersBackpressureRegeneration (Enthalpy)
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HC Lean NOx Fuel PenaltiesAssuming
Hydrogen to carbon ratio in the fuel = 1.85 [mole/mole]NOx Rate = 2.5 [gm NO2/bHp/hr]Air to Fuel Ratio = 25:1 [lbm/lbm]bsfc = 0.350 [lbm/bHp/hr]C:N (typical optimum for lean NOx) = 6 [m CH1.85/m NO]
Yields fuel penalties ofIdeal lean NOx chemistry = 0.162%Actual lean NOx chemistry = 2.84%Current system selectivity = 2.85%
Note: Higher C:N yields better reduction but with diminishing returns
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Ideal Lean NOx ChemistryIdeal NOx reduction with CH1.85
NO + 0.3419 CH1.85 → ½ N2 + 0.3419 CO2 + 0.3162 H20 ∴ 0.3419 moles of CH1.85 are required to convert one mole of NO
From ideal lean NOx chemistry= NOX [gm NO2/bHp/hr]
stoichiometry → {NOX *0.3419/46} [mole CH1.85 /bHp/hr]= {NOX *13.85*0.3419/46/454} [lb CH1.85 /bHp/hr]
∴ Ideal fuel penalty (as a percentage): {100*13.85*0.3419/46/454*NOX / BSFC } [%]
∴ Example: To remove 2.5 gm of NOx at 0.350 bsfc:100*0.000227*2.5/0.350 = 0.162%
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Real Lean NOx ChemistryC:N ≡ carbon to NOx molar ratio - unit conversion
C:N [moles CH1.85/moles NO] → {C:N *13.85/46} [gm HC/gm NO2]
SELECTIVITY: lean NOx reduction competes with direct oxidationNO + (5.85/4*C:N – 1/2) O2 + (C:N ) CH1.85 →
½ N2 + C:N CO2 + (C:N*1.85/2) H20
∴ Selectivity = {100*0.3419/C:N } [%]
∴ Fuel penalty (as a percentage):{100*13.85/46/454*C:N *NOX /BSFC}
[%]
∴ Example: To remove 2.5 gm of NOx at 0.350 bsfc with a C:N of 6: 0.06632*6*2.5/0.350= 2.84%(w/selectivity of: 100*0.3419/6 = 5.70%)
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Real Lean NOx Chemistry (cont.)ACTIVITY: lean NOx reduction is not yet 100% efficient
NO + (5.85/4*C:N – act /2) O2 + (C:N ) CH1.85 →(1-act) NO + (act /2) N2 + C:N CO2 + (C:N*1.85/2) H20
∴ Activity impacts selectivity. Selectivity = {100*act *0.3419/C:N } [%]
∴ Example: To remove NOx at 50% efficiency with a C:N of 6 yields a selectivity of {100*0.5*0.3419/6} = 2.85%
Note: I’m being somewhat loose with my definition of selectivity and activity.
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ConclusionLean NOx catalysis is the ‘Holy Grail’ for diesel engines
minimal complexitylow impact on engine designpotentially low costpotential for high durability and reliability
Like absorbers, if lean NOx catalysis can be made to work they WILL ultimately prove to be a fuel SAVINGS device.
However!
Key science - We need (HC) lean NOx to be (nearly) as selective and active as urea-SCR.
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OverviewNOx Adsorbers
NOx chemistryHC slipOxygen depletion
Lean NOx
NOx chemistrySelectivityActivity
Particulate FiltersBackpressureRegeneration (Enthalpy)
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Particulate Filter Fuel PenaltiesAssuming
BMEP = 100 [psi]Backpressure = 1 [psi]Air to Fuel Ratio = 25:1 [lbm/lbm]bsfc = 0.350 [lbm/bHp/hr]Temp rise in exhaust (dT) = 100 [deg F]Regeneration duty cycle (DC) = 10%
Yields fuel penalties ofBackpressure fuel penalty = 1.0%Cycle avgerage regeneration penalty = 0.34%Total penalty = 1.34%
Note: These penalties are highly duty-cycle dependent!
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17 8 20 30 40 50 60 80 20010 00
20
30
405060
80
200
300
400500600
800
2000
3000
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100
1000
Cyl
inde
r Pre
ssur
e [p
sia]
Cylinder Volume [in3]
Backpressure
BMEP is directly impacted by
backpressure
exhaust strokepressure = work
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BackpressureAssuming
BMEP = 100 [psi]Backpressure = 1 [psi]
From simple reasoningone psi backpressure removes one psi of useful work from the piston which must be recovered from increased fueling:
approx. fuel penalty = {100*backpressure/bmep} [%]
∴ Example: One psi backpressure at 100 psi bmep:{100*1.0/100} = 1.0%
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EnthalpyAssuming
Diesel fuel heating value (higher) = 18500 [Btu/lbm]Cp = 0.2412 [Btu/lbm/F]Duty Cycle (DC) = 10 [%]
From dH = Cp dT18500 [Btu/lbm supl. fuel] = 0.2412 [Btu/lbm exhaust/deg F] *
dT [deg F] * (AFR + 1) [lbm exh/lbm fueling] * (1/efficiency) [lbm fueling/lbm supl. Fuel]
∴ fuel penalty during regen is…{(1+AFR)*0.2412*dT/18500*DC} [%]
∴ Example: Penalty for 100deg F rise at 25 AFR:(1+25)*0.2412*100/18500*10 = 0.34%
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01MunteanGeorge.ppt
DPF penalty w/10% duty cycle
0123456789
10
0 200 400 600 800temperature increase [deg F]
Cyc
le A
vg F
uel P
enal
ty [%
]
15203050100
air/fuel [lbm/lbm]
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01MunteanGeorge.ppt
ConclusionDPFs are unlikely to ever enhance a total system efficiency.Engine retune for efficiency will likely reduce DPF burden. Best one can hope for is to minimize the penalty.
Soot filter penalties are difficult to estimate• # active regens required is entirely duty-cycle dependant• backpressure is linked to regen history and flowrates• soot oxidation characteristics are poorly understood
Key science – soot oxidation characterization, prediction and enhancement.
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01MunteanGeorge.ppt
Once it has “emerged”…
…NOx aftertreatment has the potential to improve diesel engine fuel economy over
current state-of-the-art
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01MunteanGeorge.ppt
And if you don’t believe it…
…consider where we have come in the last 25 years with TWC on gasoline engines!
Would you have believed that 30 years ago?