modelling of biodiesel sprays · 2017-10-09 · modelling of biodiesel sprays ruslana kolodnytska...
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Modelling of Biodiesel Sprays
Ruslana Kolodnytska
Zhytomyr State Technological University, Ukraine
“We should be using nature's inexhaustible sources of energy. I hope we don't have to
wait until oil and coal run out before we tackle that.” (Edison, 1931)
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Diesel and Biodiesel Spray
C. Crua et all, ICLASS 2012.
Dual frame at nozzle exit (dt = 400 ns)
Diesel fuel Biodiesel
Biodiesel The initial jet formation at 40 MPA into atmospheric pressure
T.T. Shoba et all ILASS 2011
The initial jet formation at 100 MPA into atmospheric pressure
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Diesel Spray Modelling
Stip
S
• Roizman model (2007)
,83
2
2
ggf
gD
d
vdtdSv
dtdSC
rdtSd
−⎟⎠
⎞⎜⎝
⎛ −−=ρ
ρ
)/(2,035,0 ττ gSeЭAl Sa−
=5,05,0SSb Bl τ=
• Lishevsky model
• Sazhin model (2005)
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Diesel Spray Penetration Modelling, СOFM – model (Brighton University)
2 2 2( ) 1( ) ( )2f n inj D g
d mu A u t C A t udt
ρ ρ β= −
0( ) exp( )ODt ttε ετ+
= −
Kolodnytska et all, 2008
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Biodiesel content and structure
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Modelling of Biodiesel Property
Rapeseed oil: ZSTU, Ukraine, 2006
d max
d s
dmax
H - is the space droplet coefficient Hg d max
2 ρσ =
Surface tension modelling
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Modelling of Property by Using the Structure
[ ]( )MppP l νσ
−=4/1
[P] - parachor (temperature independent parameters)
4
1
4/1⎥⎦
⎤⎢⎣
⎡= ∑
=
n
iiim yσσ
)15(723.0)15()( −−= TCT BB ρρ
• Density modelling, (Lapuerta, 2010 )
250.718 280.899851.4711.214BDB
Nρ
+= +
+
• Surface tension modelling
Surface tension of mixture
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Shadowgraphic micrographs of biodiesel (RME) sprays
15 mm (0.3 mm off-axis)
C. Crua et all, ICLASS 2012.
10 mm (0.3 mm off-axis)
Images recorded at 10 and 15 mm from the orifice at 40 MPA (atmospheric pressure)
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SMD Diameter for Biodiesel Spray • SMD=0.002103 µf +0.00033 σ ( Allen, 1998, model 1) • SMD= 3.08νf 0.385(σρf)0.737ρg
0.06 ΔP-0.54 Elcotb model • dm = Ed d0 (ρg /ρfWej)– 0.266 M 0.0733 Lishevsky model • SMD= 23 d0 0.35 ΔP-0.54ρg
0.06 lν 0.1 ( new model 1)
• SMD= 0.001 lν
0.29 ( new model 2)
lν = µf 2/(σρf) - new length parameter
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SMD Dimeters of Diferent Biodiesel (methyl ester of vegetable oils)
S MD diameter, mic ron
8.00
10.00
12.00
14.00
16.00
18.00
20.00
coconut M
E
soya МЕ
canola ME
peanut МЕ
peanut1 M
E
palm ME
rapeseed M
E
rapeseed1 ME
Vegetable oil methyl es ters (МЕ )
model (1)
new model (2)
experiment
Kolodnytska, 2006
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Fuel Eggers Parameters
Parameters of fuel Formulae Rapeseed oil Coconut oil Biodiesel Diesel Density, kg/m3 ρ f 913 915 877 826 Dynamic viscosity, Pa s µf = νfρ f 80.9 × 10-3
31.59 × 10-3 7.02 × 10-3 3.16 × 10 -3
Surface tension, N/m σ 33.2 × 10-3 34.8× 10-3 30.7 × 10-3 27.1 × 10 -3 Length Eggers parameter, µm
lν = µf 2/(σρ f) 216 31.34 1.83 0.446
Time Eggers parameter, µs
tν= µf 3/(σ2ρ f) 526 28.45 0.419 0.052
Length Time ρf – fuel density , σ – fuel surface tension, µ f – fuel dynamic viscosity
New parameters
tν= µf /(σ2ρf )
lν = µf 2/(σρf)
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Droplet size distributions for biodiesel and diesel sprays
(a) 10 mm from nozzle exit at 100 MPa (b) 15 mm from nozzle exit at 100 MPa
C. Crua et all, ICLASS 2012
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Vaporization history of biodiesel and diesel drops
L. Zhang, S.-C. Kong (2010). Combustion and Flame
a) biodiesel drops at different ambient temperatures and 1 bar ambient pressure
b) diesel–biodiesel blends at 912 K ambient temperature and 1 bar ambient pressure
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Vapour distributions of diesel fuel and biodiesel sprays
Diesel fuel vapour
Diesel Biodiesel vapour vapour
Biodiesel fuel vapour
Biodiesel blend B20 (20% biod.)
(t=1.4 ms, Tamb=900 K, Pamb=37.58 bar) Zhang Lei, http://lib.dr.iastate.edu/etd/10268
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Conclusions 1. In order to apply spray model to biodiesel it is
necessary to use model’s parameters based on fuel property. It seems promising to develop a hybrid model based on the Wave breakup model and COFM model.
2. The new formula for SMD diameter based on fuel property has been proposed. Biodiesel property has been modelled by using biodiesel structure and liquid bridge experiments.
3. The biodisel droplets has a longer heating time than the diesel droplets due to its low volatility.
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Future research
• To apply a quasi-discrete model for biodiesel droplet avaporation
CTBAPv +
−=)ln(
( ) ( )[ ]456.0354.0 195.10108.7 rrc TTRTL −+−= ω
cr T
TT = is reduced temperature
is reduced temperature at normal boiling temperature ),( cbr PTf=ω
brTis acentric factor
Antoine equation:
Pitzer equation: