OH + OH

Gaz phase reaction (type: Bimolecular reactions)  


     
 
Atkinson, R. et al (2004)    T(K) = 200-350   
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Channels
OH + OH → O + H2O
T(K): 200-350
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2010-11-23
k( )
cm3s-1
Details
9.19e+23 OH + OH → O + H2O
T(K) = 200-350
α = 6.20E-14
β = 2.62E+0
γ = -9.45E+2
F 0 = 1.2
g = 125
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Bibliography
Authors: Atkinson, R. et al
Volume,Page: 4,1461-1738
Year: 2004
DOI: DOI
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Bedjanian, Y et al (1999)    T(K) = 233-360   
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Channels
OH + OH → O + H2O
T(K): 233-360
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2010-05-31
k( )
cm3s-1
Details
9.36e-4 OH + OH → O + H2O
T(K) = 233-360
α = 7.10E-13
β = 0.00E+0
γ = -2.10E+2
F 0 = 1.3
g = 0
Type uncert: lognormal
Method: Measurements
Reference
Origin: Bibliography
Authors: Bedjanian, Y et al
Volume,Page: 103, 7017
Year: 1999
DOI: DOI
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Sun, H. et al (2004)    T(K) = 220-320   
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Channels
OH + OH → O + H2O
T(K): 220-320
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2010-06-01
k( )
cm3s-1
Details
6.32e+6 OH + OH → O + H2O
T(K) = 220-320
α = 2.70E-13
β = 0.00E+0
γ = -4.46E+2
F 0 = 1.3
g = 0
Type uncert: lognormal
Method: Measurements
Description: Discharge flow/mass spectrometer/resonance fluorescence method
Reference
Origin: Bibliography
Authors: Sun, H. et al
Volume,Page: 399,33-38
Year: 2004
DOI: DOI
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Sander, S.P. et al (2011)    T(K) = 200-500   
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Channels
OH + OH → O + H2O
T(K): 200-500
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2012-08-01
k( )
cm3s-1
Details
1.80e-12 OH + OH → O + H2O
T(K) = 200-500
α = 1.80E-12
β = 0.00E+0
γ = 0.00E+0
F 0 = 1.25
g = 50
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Bibliography
Authors: Sander, S.P. et al
Volume,Page: 10-6
Year: 2011
DOI: -
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Baulch, D. L. et al (2005)    T(K) = 250-2400   
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Channels
OH + OH → O + H2O
T(K): 250-2400
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2012-08-02
k( )
cm3s-1
Details
0.00e+0 OH + OH → O + H2O
T(K) = 250-2400
α = 5.49E-14
β = 2.42E+0
γ = 9.70E+2
F 0 = 1.12
g = 0
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Bibliography
Authors: Baulch, D. L. et al
Volume,Page: 34, 757-1397
Year: 2005
DOI: DOI
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Other database : OSU    T(K) = 10-280   
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Channels
OH + OH → O + H2O
T(K): 10-280
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2009-03-27
k( )
cm3s-1
Details
2.30e-16 OH + OH → O + H2O
T(K) = 10-280
α = 1.65E-12
β = 1.14E+0
γ = 5.00E+1
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
Reference
Origin: Other database : OSU
Authors:
Volume,Page:
Year:
DOI: -
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Hebrard, E. et al (2009)    T(K) = 50-200   
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Channels
OH + OH → O + H2O
T(K): 50-200
Formula: Modified Arrhenius equation
Δ rH0 = -29.432
Δ rH298 = -29.951
2012-07-27
k( )
cm3s-1
Details
1.23e+24 OH + OH → O + H2O
T(K) = 50-200
α = 6.34E-14
β = 2.60E+0
γ = -9.47E+2
F 0 = 1.4
g = 240
Type uncert: lognormal
Method: Reviews and Evaluations
Description: Taken from Atkinson et al. [2004]. Used in Hébrard et al. [2009]
Reference
Origin: Bibliography
Authors: Hebrard, E. et al
Volume,Page: 113,11227-11237
Year: 2009
DOI: DOI
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Other database : NIST    T(K) = 10-800   
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Channels
OH + OH → H + O2H
T(K): 10-800
Formula: Modified Arrhenius equation
Δ rH0 = 193.942
Δ rH298 = 192.994
2014-03-05
k( )
cm3s-1
Details
0.00e+0 OH + OH → H + O2H
T(K) = 10-800
α = 1.82E-40
β = 0.00E+0
γ = 0.00E+0
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
Description: Reactions used in the high temperature network for ISM applications by Harada et al. (2010). Value listed in the NIST.
Reference
Origin: Other database : NIST
Authors: Hack, W. et al
Volume,Page: 83,212-217
Year: 1979
DOI: -
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