This document has not been cited yet.

1. Abrantes, I. ; Ferreira, A.F. ; Silva, A. ; Costa, M. Sustainable aviation fuels and imminent technologies - CO2 emissions evolution towards 2050. 2021 J Clean Prod. 313 -
   Paper not yet in RePEc: Add citation now
   
2. Alhikami, A.F. ; Wang, W.-C. Experimental study of the spray ignition characteristics of hydro-processed renewable jet and petroleum jet fuels in a constant volume combustion chamber. 2021 Fuel. 283 -
   Paper not yet in RePEc: Add citation now
   
3. Andrews, G. ; Bradley, D. Determination of burning velocities: a critical review. 1972 Combust Flame. 18 133-153
   Paper not yet in RePEc: Add citation now
   

4. Askari, O. ; Vien, K. ; Wang, Z. ; Sirio, M. ; Metghalchi, H. Exhaust gas recirculation effects on flame structure and laminar burning speeds of H2/CO/air flames at high pressures and temperatures. 2016 Appl Energy. 179 451-462

5. Bertolino, A. ; Stagni, A. ; Cuoci, A. ; Faravelli, T. ; Parente, A. ; Frassoldati, A. Prediction of flammable range for pure fuels and mixtures using detailed kinetics. 2019 Combust Flame. 207 120-133
   Paper not yet in RePEc: Add citation now
   
6. Bockhorn, H. Soot Formation and combustion. 1994 Springer Chem Phys. -
   Paper not yet in RePEc: Add citation now
   
7. Bradley, D. ; Lawes, M. ; Liu, K. ; Verhelst, S. ; Woolley, R. Laminar burning velocities of lean hydrogen–air mixtures at pressures up to 1.0 MPa. 2007 Combust Flame. 149 162-172
   Paper not yet in RePEc: Add citation now
   
8. Burke, M.P. ; Chen, Z. ; Ju, Y. ; Dryer, F.L. Effect of cylindrical confinement on the determination of laminar flame speeds using outwardly propagating flames. 2009 Combust Flame. 156 771-779
   Paper not yet in RePEc: Add citation now
   
9. Chaichan, M.T. Measurements of laminar burning velocities and Markstein length for LPG–hydrogen– air mixtures. 2013 Int J Eng Res Dev. 9 -
   Paper not yet in RePEc: Add citation now
   

10. Chen, R.-X. ; Wang, W.-C. The production of renewable aviation fuel from waste cooking oil. Part I: bio-alkane conversion through hydro-processing of oil. 2019 Renew Energy. 135 819-835

11. Chen, Y.-K. ; Lin, C.-H. ; Wang, W.-C. The conversion of biomass into renewable jet fuel. 2020 Energy. 201 -

12. Chen, Z. On the accuracy of laminar flame speeds measured from outwardly propagating spherical flames: methane/air at normal temperature and pressure. 2015 Combust Flame. 162 2442-2453
    Paper not yet in RePEc: Add citation now
    

13. Choi, B.C. ; Park, J.S. ; Ghoniem, A.F. Characteristics of outwardly propagating spherical flames of R134a (C2H2F4)/CH4/O2/N2 mixtures in a constant volume combustion chamber. 2016 Energy. 95 517-527

14. Choi, J.-H. ; Lee, W.-J. ; Park, S.-K. ; Kim, J. ; Choi, B.C. Experimental study on the flame propagation behaviors of R245fa (C3H3F5)/CH4/O2/N2 mixtures in a constant volume combustion chamber. 2019 Exp Therm Fluid Sci. 101 276-282
    Paper not yet in RePEc: Add citation now
    
15. Chu, H. ; Xiang, L. ; Meng, S. ; Dong, W. ; Gu, M. ; Li, Z. Effects of N2 dilution on laminar burning velocity, combustion characteristics and NOx emissions of rich CH4–air premixed flames. 2021 Fuel. 284 -
    Paper not yet in RePEc: Add citation now
    
16. Denman, B.M. ; Munzar, J.D. ; Bergthorson, J.M. An experimental and numerical study of the laminar flame speed of jet fuel surrogate blends. 2012 En : Turbo expo: power for land, sea, and air. :
    Paper not yet in RePEc: Add citation now
    
17. Esfandabadi, Z.S. ; Ranjbari, M. ; Scagnelli, S.D. The imbalance of food and biofuel markets amid Ukraine-Russia crisis: a systems thinking perspective. 2022 :
    Paper not yet in RePEc: Add citation now
    
18. Faghih, M. ; Chen, Z. The constant-volume propagating spherical flame method for laminar flame speed measurement. 2016 Sci Bull. 61 1296-1310
    Paper not yet in RePEc: Add citation now
    
19. Fernando Rueda, M. ; Miguel Toledo, V. ; Georgiy, P. ; Juan Abugaber, F. ; Guillermo Jarquín, L. ; Celerino Reséndiz, R. ; José'Angel Ortega, H. Numerical analysis of the natural gas combustion products. 2012 Energy Power Eng. 2012 -
    Paper not yet in RePEc: Add citation now
    
20. Hajialimohammadi, A. ; Ahmadisoleymani, S. ; Abdullah, A. ; Asgari, O. ; Rezai, F. Design and manufacturing of a constant volume test combustion chamber for jet and flame visualization of CNG direct injection. 2012 Appl Mech Mater. 217–219 2539-2545
    Paper not yet in RePEc: Add citation now
    
21. Halim, E. ; Lee, C.P. ; Wang, W.C. ; Lin, J.K. ; Lin, Y.C. Production of hydro‐processed renewable jet fuel over SAPO‐11‐based catalyst. 2021 Int J Energy Res. 46 1059-1076
    Paper not yet in RePEc: Add citation now
    
22. Han, W. ; Dai, P. ; Gou, X. ; Chen, Z. A review of laminar flame speeds of hydrogen and syngas measured from propagating spherical flames. 2020 Appl. Energy Combust. Sci.. 1 -
    Paper not yet in RePEc: Add citation now
    

23. Han, Z. ; Zhu, Z. ; Yu, W. ; Liang, K. ; Zuo, Z. ; Xia, Q. ; Zeng, D. On the equivalent effect of initial temperature and pressure coupling on the flame speed of methane premixed combustion under dilution. 2020 Energy. 207 -

24. Heyne, J. ; Rauch, B. ; Le Clercq, P. ; Colket, M. Sustainable aviation fuel prescreening tools and procedures. 2021 Fuel. 290 -
    Paper not yet in RePEc: Add citation now
    

25. Holechek, J.L. ; Geli, H.M.E. ; Sawalhah, M.N. ; Valdez, R. A global assessment: can renewable energy replace fossil fuels by 2050?. 2022 Sustainability. 14 -

26. Howarth, T. ; Aspden, A. An empirical characteristic scaling model for freely-propagating lean premixed hydrogen flames. 2022 Combust Flame. 237 -
    Paper not yet in RePEc: Add citation now
    
27. Hsieh, H.-C. ; Chen, X.-X. ; Alhikami, A.F. ; Wang, W.-C. A study of the sooting behavior of hydro-processed renewable jet and petroleum jet fuels in a laminar counter-flow flame. 2021 Fuel. 291 -
    Paper not yet in RePEc: Add citation now
    
28. Hu, E. ; Huang, Z. ; He, J. ; Miao, H. Experimental and numerical study on laminar burning velocities and flame instabilities of hydrogen–air mixtures at elevated pressures and temperatures. 2009 Int J Hydrogen Energy. 34 8741-8755
    Paper not yet in RePEc: Add citation now
    
29. Huang, L. ; Huang, S. ; Mao, Y. ; Wang, B. ; Zhu, Q. ; Jiang, R. An experimental study on the laminar burning velocities of RP-3 kerosene and its surrogate fuel at elevated pressures and temperatures. 2023 Fuel. 331 -
    Paper not yet in RePEc: Add citation now
    
30. Hui, X. ; Sung, C.-J. Laminar flame speeds of transportation-relevant hydrocarbons and jet fuels at elevated temperatures and pressures. 2013 Fuel. 109 191-200
    Paper not yet in RePEc: Add citation now
    
31. Jeon, J. ; Lee, J.T. ; Kwon, S.I. ; Park, S. Combustion performance, flame, and soot characteristics of gasoline–diesel pre-blended fuel in an optical compression-ignition engine. 2016 Energy Convers Manag. 116 174-183
    Paper not yet in RePEc: Add citation now
    
32. Kelley, A.P. ; Law, C.K. Nonlinear effects in the extraction of laminar flame speeds from expanding spherical flames. 2009 Combust Flame. 156 1844-1851
    Paper not yet in RePEc: Add citation now
    
33. Kick, T. ; Kathrotia, T. ; Braun-Unkhoff, M. ; Riedel, U. An experimental and modeling study of laminar flame speeds of alternative aviation fuels. 2011 En : Turbo expo: power for land, sea, and air. :
    Paper not yet in RePEc: Add citation now
    
34. Kim, H.J. ; Van, K. ; Lee, D.K. ; Yoo, C.S. ; Park, J. ; Chung, S.H. Laminar flame speed, Markstein length, and cellular instability for spherically propagating methane/ethylene–air premixed flames. 2020 Combust Flame. 214 464-474
    Paper not yet in RePEc: Add citation now
    
35. Krisman, A. ; Meagher, P. ; Zhao, X. ; Park, J.-W. ; Lu, T. ; Chen, J.H. A direct numerical simulation of Jet A flame kernel quenching. 2021 Combust Flame. 225 349-363
    Paper not yet in RePEc: Add citation now
    
36. Kumar, K. ; Sung, C.-J. ; Hui, X. Laminar flame speeds and extinction limits of conventional and alternative jet fuels. 2011 Fuel. 90 1004-1011
    Paper not yet in RePEc: Add citation now
    
37. Lamoureux, N. ; Djebaıli-Chaumeix, N. ; Paillard, C.E. Laminar flame velocity determination for H2–air–He–CO2 mixtures using the spherical bomb method. 2003 Exp Therm Fluid Sci. 27 385-393
    Paper not yet in RePEc: Add citation now
    
38. Le Dortz, R. ; Strozzi, C. ; Sotton, J. ; Bellenoue, M. Evaluation of the surrogates capacity to reproduce the laminar burning velocities and the sensitivity to stretching of a commercial kerosene under constant volume combustion conditions. 2021 Fuel. 287 -
    Paper not yet in RePEc: Add citation now
    
39. Li, X. ; Hu, E. ; Lu, X. ; Huang, S. ; Huang, Z. Experimental and kinetic study on laminar flame speeds of hexene isomers and n-hexane. 2019 Fuel. 243 533-540
    Paper not yet in RePEc: Add citation now
    
40. Liao, S.Y. ; Jiang, D.M. ; Cheng, Q. Determination of laminar burning velocities for natural gas. 2004 Fuel. 83 1247-1250
    Paper not yet in RePEc: Add citation now
    
41. Liao, Y.H. ; Roberts, W.L. Laminar flame speeds of gasoline surrogates measured with the flat flame method. 2016 Energy Fuels. -
    Paper not yet in RePEc: Add citation now
    
42. Lin, C.-H. ; Chen, Y.-K. ; Wang, W.-C. The production of bio-jet fuel from palm oil derived alkanes. 2020 Fuel. 260 -
    Paper not yet in RePEc: Add citation now
    

43. Lin, J.-K. ; Abi Nurazaq, W. ; Wang, W.-C. The properties of sustainable aviation fuel I: spray characteristics. 2023 Energy. 283 -

44. Liu, Y. ; Gu, W. ; Wang, J. ; Ma, H. ; Dong, N. ; Zeng, W. Laminar burning velocity of microalgae oil/RP-3 premixed flame at elevated initial temperature and pressure. 2022 Fuel. 309 -
    Paper not yet in RePEc: Add citation now
    
45. Liu, Y. ; Gu, W. ; Wang, J. ; Rao, D. ; Chen, X. ; Ma, H. ; Zeng, W. Study on the laminar burning velocity of ethanol/RP-3 aviation kerosene premixed flame. 2022 Combust Flame. 238 -
    Paper not yet in RePEc: Add citation now
    
46. Liu, Y. ; Luo, R. ; Sun, Z. ; Zeng, W. ; Chen, B. ; Chung, S.S. Experimental study on the Markstein length and laminar burning velocity of CH4/RP-3 mixture. 2017 J Mech Sci Technol. 31 5527-5537
    Paper not yet in RePEc: Add citation now
    
47. Munzar, J. ; Akih-Kumgeh, B. ; Denman, B. ; Zia, A. ; Bergthorson, J. An experimental and reduced modeling study of the laminar flame speed of jet fuel surrogate components. 2013 Fuel. 113 586-597
    Paper not yet in RePEc: Add citation now
    
48. Narayanaswamy, K. ; Blanquart, G. ; Pitsch, H. A consistent chemical mechanism for oxidation of substituted aromatic species. 2010 Combust Flame. 157 1879-1898
    Paper not yet in RePEc: Add citation now
    
49. Raviteja, S. ; Ramakrishna, P.A. ; Ramesh, A. Laminar burning speeds of nitromethane-gasoline blends at elevated temperatures and pressures. 2019 J Energy Resour Technol. 141 -
    Paper not yet in RePEc: Add citation now
    
50. Samiran, N.A. ; Ng, J.-H. ; Jaafar, M.N.M. ; Valera-Medina, A. ; Chong, C.T. Swirl stability and emission characteristics of CO-enriched syngas/air flame in a premixed swirl burner. 2017 Process Saf Environ Protect. 112 315-326
    Paper not yet in RePEc: Add citation now
    
51. Shrestha, K.P. ; Eckart, S. ; Drost, S. ; Fritsche, C. ; Schießl, R. ; Seidel, L. ; Maas, U. ; Krause, H. ; Mauss, F. A comprehensive kinetic modeling of oxymethylene ethers (OMEn, n=1–3) oxidation - laminar flame speed and ignition delay time measurements. 2022 Combust Flame. 246 -
    Paper not yet in RePEc: Add citation now
    
52. Shrestha, K.P. ; Lhuillier, C. ; Barbosa, A.A. ; Brequigny, P. ; Contino, F. ; Mounaïm-Rousselle, C. ; Seidel, L. ; Mauss, F. An experimental and modeling study of ammonia with enriched oxygen content and ammonia/hydrogen laminar flame speed at elevated pressure and temperature. 2021 Proc Combust Inst. 38 2163-2174
    Paper not yet in RePEc: Add citation now
    
53. Speight, J.G. Handbook of industrial hydrocarbon processes. 2019 Gulf Professional Publishing:
    Paper not yet in RePEc: Add citation now
    
54. Tahtouh, T. ; Halter, F. ; Mounaïm-Rousselle, C. Measurement of laminar burning speeds and Markstein lengths using a novel methodology. 2009 Combust Flame. 156 1735-1743
    Paper not yet in RePEc: Add citation now
    
55. Talukder, N. ; Lee, K.Y. Laminar flame speeds and Markstein lengths of methyl decanoate-air premixed flames at elevated pressures and temperatures. 2018 Fuel. 234 1346-1353
    Paper not yet in RePEc: Add citation now
    
56. Tang, C. ; Huang, Z. ; Jin, C. ; He, J. ; Wang, J. ; Wang, X. ; Miao, H. Laminar burning velocities and combustion characteristics of propane–hydrogen–air premixed flames. 2008 Int J Hydrogen Energy. 33 4906-4914
    Paper not yet in RePEc: Add citation now
    
57. Vukadinovic, V. ; Habisreuther, P. ; Zarzalis, N. Influence of pressure and temperature on laminar burning velocity and Markstein number of kerosene Jet A-1: experimental and numerical study. 2013 Fuel. 111 401-410
    Paper not yet in RePEc: Add citation now
    
58. Wang, H. ; Dames, E. ; Sirjean, B. ; Sheen, D. ; Tangko, R. ; Violi, A. ; Lai, J. ; Egolfopoulos, F. ; Davidson, D. ; Hanson, R. A high-temperature chemical kinetic model of n-alkane (up to n-dodecane), cyclohexane, and methyl-, ethyl-, n-propyl and n-butyl-cyclohexane oxidation at high temperatures. 2010 JetSurF version. 2 19-
    Paper not yet in RePEc: Add citation now
    
59. Wang, N. ; Huang, S. ; Zhang, Z. ; Li, T. ; Yi, P. ; Wu, D. ; Chen, G. Laminar burning characteristics of ammonia/hydrogen/air mixtures with laser ignition. 2021 Int J Hydrogen Energy. 46 31879-31893
    Paper not yet in RePEc: Add citation now
    
60. Wang, S. ; Elbaz, A.M. ; Wang, Z. ; Roberts, W.L. The effect of oxygen content on the turbulent flame speed of ammonia/oxygen/nitrogen expanding flames under elevated pressures. 2021 Combust Flame. 232 -
    Paper not yet in RePEc: Add citation now
    
61. Wang, W.-C. ; Alhikami, A.F. ; Yao, C.-E. The study of combustion characteristics for conventional and renewable Jet fuels at Low-to-intermediate temperatures in a rapid compression Machine. 2022 Fuel. 324 -
    Paper not yet in RePEc: Add citation now
    
62. Wang, Y. ; Makwana, A. ; Iyer, S. ; Linevsky, M. ; Santoro, R.J. ; Litzinger, T.A. ; O'Connor, J. Effect of fuel composition on soot and aromatic species distributions in laminar, co-flow flames. Part 1. Non-premixed fuel. 2018 Combust Flame. 189 443-455
    Paper not yet in RePEc: Add citation now
    
63. Wei, F. ; Wang, Y. ; Tian, H. ; Tian, J. ; Long, W. ; Dong, D. Visualization study on lean combustion characteristics of the premixed methanol by the jet ignition of an ignition chamber. 2022 Fuel. 308 -
    Paper not yet in RePEc: Add citation now
    
64. Wolk, B. ; DeFilippo, A. ; Chen, J.-Y. ; Dibble, R. ; Nishiyama, A. ; Ikeda, Y. Enhancement of flame development by microwave-assisted spark ignition in constant volume combustion chamber. 2013 Combust Flame. 160 1225-1234
    Paper not yet in RePEc: Add citation now
    
65. Wu, Y. ; Modica, V. ; Rossow, B. ; Grisch, F. Effects of pressure and preheating temperature on the laminar flame speed of methane/air and acetone/air mixtures. 2016 Fuel. 185 577-588
    Paper not yet in RePEc: Add citation now
    
66. Wu, Y. ; Modica, V. ; Yu, X. ; Grisch, F.d. r. Experimental investigation of laminar flame speed measurement for kerosene fuels: jet A-1, surrogate Fuel, and its pure components. 2018 Energy Fuels. 32 2332-2343
    Paper not yet in RePEc: Add citation now
    
67. Xie, M. ; Fu, J. ; Zhang, Y. ; Shu, J. ; Ma, Y. ; Liu, J. ; Zeng, D. Numerical analysis on the effects of CO2 dilution on the laminar burning velocity of premixed methane/air flame with elevated initial temperature and pressure. 2020 Fuel. 264 -
    Paper not yet in RePEc: Add citation now
    
68. Xing, G. ; Liu, S. ; Guan, Q. ; Li, W. Investigation on hydroisomerization and hydrocracking of C15–C18 n-alkanes utilizing a hollow tubular Ni-Mo/SAPO-11 catalyst with high selectivity of jet fuel. 2019 Catal Today. 330 109-116
    Paper not yet in RePEc: Add citation now
    
69. Xiouris, C. ; Ye, T. ; Jayachandran, J. ; Egolfopoulos, F.N. Laminar flame speeds under engine-relevant conditions: uncertainty quantification and minimization in spherically expanding flame experiments. 2016 Combust Flame. 163 270-283
    Paper not yet in RePEc: Add citation now
    
70. Xu, C. ; Liu, K. ; Song, Y. ; Cui, D. ; Li, X. ; Wang, Q. ; Oppong, F. Laminar burning characteristics of bio-aviation fuel candidate derived from lignocellulosic biomass. 2023 Fuel. 334 -
    Paper not yet in RePEc: Add citation now
    

71. Xu, C. ; Wang, H. ; Oppong, F. ; Li, X. ; Zhou, K. ; Zhou, W. ; Wu, S. ; Wang, C. Determination of laminar burning characteristics of a surrogate for a pyrolysis fuel using constant volume method. 2020 Energy. 190 -

72. Yang, Q. ; Liu, Z. ; Hou, X. ; He, X. ; Sjöberg, M. ; Vuilleumier, D. ; Liu, C. ; Liu, F. Measurements of laminar flame speeds and flame instability analysis of E30-air premixed flames at elevated temperatures and pressures. 2020 Fuel. 259 -
    Paper not yet in RePEc: Add citation now
    
73. Yang, X. ; Wu, Y. ; Zhang, Y. ; Zhang, H. ; Zhang, J. Reassessing the 2-D velocity boundary effect on the determination of extinction stretch rate and laminar flame speed using the counterflow flame configuration. 2021 Combust Flame. 234 -
    Paper not yet in RePEc: Add citation now
    

74. Yang, Z. ; Fei, C. ; Li, Y. ; Wang, D. ; Sun, C. Experimental study of the effect of physical and chemical properties of alcohols on the spray combustion characteristics of alcohol-diesel blended fuels. 2023 Energy. 263 -

75. Yin, L. ; Xu, W. ; Hu, Y. ; Jiang, Y. Experimental and theoretical investigation of ethyl methyl carbonate/air flames: laminar burning velocity and cellular instability at elevated pressures. 2023 Fuel. 346 -
    Paper not yet in RePEc: Add citation now
    

1. Sustainable aviation fuel – Comprehensive study on highly selective isomerization route towards HEFA based bioadditives. (2024). Biaecki, Tomasz ; Boberski, Przemysaw ; Skolniak, Marta ; Gowka, Marek ; Wojcik, Jan ; Gawron, Bartosz ; Suchocki, Tomasz.
   In: Renewable Energy.
   RePEc:eee:renene:v:220:y:2024:i:c:s0960148123016117.

   Full description at Econpapers || Download paper

2. Pathway to net zero: Reviewing sustainable aviation fuels, environmental impacts and pricing. (2024). Grimme, Wolfgang ; Braun, Matthias ; Oesingmann, Katrin.
   In: Journal of Air Transport Management.
   RePEc:eee:jaitra:v:117:y:2024:i:c:s0969699724000450.

   Full description at Econpapers || Download paper

3. Synthesis of cyclohexanone condensation products with high yield via ball mill process and the kinetic study of this process using “mean temperature method (MTM)”. (2024). Sheng, Xueru ; Hu, Huanchen ; Li, Ning ; Ping, Qingwei ; Wang, Bing ; Shi, Haiqiang ; Zhang, Jian ; Jia, Haiyuan ; Yang, Ning.
   In: Energy.
   RePEc:eee:energy:v:313:y:2024:i:c:s0360544224037666.

   Full description at Econpapers || Download paper

4. Mechanistic insights into Ga-modified hollow ZSM-5 catalyzed fast pyrolysis of cassava residue. (2024). Chen, Yong ; Shan, Rui ; Zhang, Jun ; Liu, Huiyu ; Yuan, Haoran.
   In: Energy.
   RePEc:eee:energy:v:295:y:2024:i:c:s0360544224008405.

   Full description at Econpapers || Download paper

5. The properties of sustainable aviation fuel II: Laminar flame speed. (2024). Wang, Wei-Cheng ; Nurazaq, Warit Abi ; Lin, Jhe-Kai.
   In: Energy.
   RePEc:eee:energy:v:294:y:2024:i:c:s0360544224007187.

   Full description at Econpapers || Download paper

6. Study on effects of ethylene or acetylene addition on the stability of ammonia laminar diffusion flame by optical diagnostics and chemical kinetics. (2024). Cheng, Peng ; Jiang, Mengqi ; Guo, Liang ; Zhang, Hao ; Zhu, Genan ; Yu, Changyou ; Yan, Yuying ; Zeng, Wenpeng ; Sun, Wanchen ; Lin, Shaodian.
   In: Applied Energy.
   RePEc:eee:appene:v:362:y:2024:i:c:s030626192400415x.

   Full description at Econpapers || Download paper

7. Biomass Polygeneration System for the Thermal Conversion of Softwood Waste into Hydrogen and Drop-In Biofuels. (2023). Mulone, Vincenzo ; Marcantonio, Vera ; Cordiner, Stefano ; Mele, Pietro ; Bartolucci, Lorenzo ; Lombardi, Francesco ; Bocci, Enrico ; de Maina, Emanuele ; Sorino, Davide.
   In: Energies.
   RePEc:gam:jeners:v:16:y:2023:i:3:p:1286-:d:1046518.

   Full description at Econpapers || Download paper

8. Solid waste biomass as a potential feedstock for producing sustainable aviation fuel: A systematic review. (2023). Mitkidou, Sophia ; Kokkinos, Nikolaos C ; Emmanouilidou, Elissavet ; Agapiou, Agapios.
   In: Renewable Energy.
   RePEc:eee:renene:v:206:y:2023:i:c:p:897-907.

   Full description at Econpapers || Download paper

9. Cumulative exergy analysis of lignocellulosic biomass to bio-jet fuel through aqueous-phase conversion with different lignin conversion pathways. (2023). Zhang, Qiongyin ; Xiao, Jun ; Hao, Jingwen.
   In: Energy.
   RePEc:eee:energy:v:265:y:2023:i:c:s0360544222031875.

   Full description at Econpapers || Download paper

10. Catalytic hydrocracking of inedible palm stearin for the production of drop-in aviation fuel and comparison with other inedible oils. (2022). Verma, Vikas ; Farooqui, Saleem Akhtar ; Anand, Mohit ; Mishra, Ankit ; Sinha, Anil Kumar.
    In: Renewable Energy.
    RePEc:eee:renene:v:199:y:2022:i:c:p:1440-1450.

    Full description at Econpapers || Download paper

11. Decarbonization of a tissue paper plant: Advanced numerical simulations to assess the replacement of fossil fuels with a biomass-derived syngas. (2022). Saccomano, Pietro ; Linari, Luca ; Giuntini, Lorenzo ; Tognotti, Leonardo ; Mainardi, Davide ; Galletti, Chiara ; Lamioni, Rachele.
    In: Renewable Energy.
    RePEc:eee:renene:v:198:y:2022:i:c:p:884-893.

    Full description at Econpapers || Download paper

12. Modeling the impact of sustainable aviation fuel properties on end-use performance and emissions in aircraft jet engines. (2022). Kroyan, Yuri ; Kaario, Ossi ; Wojcieszyk, Micha ; Larmi, Martti.
    In: Energy.
    RePEc:eee:energy:v:255:y:2022:i:c:s0360544222013731.

    Full description at Econpapers || Download paper

13. Exhaust gas recirculation effects on flame heat release rate distribution and dynamic characteristics in a micro gas turbine. (2022). Hu, Qiming ; Qiu, Penghua ; Liu, LI ; Wu, Guohua ; Xing, Chang ; Yang, Yujia ; Shen, Wenkai.
    In: Energy.
    RePEc:eee:energy:v:249:y:2022:i:c:s0360544222005837.

    Full description at Econpapers || Download paper

14. Transformation of residual fatty raw materials into third generation green diesel over a nickel catalyst supported on mineral palygorskite. (2021). Lycourghiotis, Sotiris ; Bourikas, Kyriakos ; Kordouli, Eleana ; Kordulis, Christos.
    In: Renewable Energy.
    RePEc:eee:renene:v:180:y:2021:i:c:p:773-786.

    Full description at Econpapers || Download paper

15. A stakeholders’ participatory approach to multi-criteria assessment of sustainable aviation fuels production pathways. (2021). Greening, Philip ; Maroto-Valer, Mercedes M ; Andresen, John M ; Ouenniche, Jamal ; Xu, Bing ; Kolosz, Ben W ; Ahmad, Salman.
    In: International Journal of Production Economics.
    RePEc:eee:proeco:v:238:y:2021:i:c:s0925527321001328.

    Full description at Econpapers || Download paper

16. Flame characteristics of propane-air-carbon dioxide blends at elevated temperatures and pressures. (2021). Wang, Ziyu ; Lu, Zhenyu ; Levendis, Yiannis A ; Yelishala, Sai C ; Metghalchi, Hameed.
    In: Energy.
    RePEc:eee:energy:v:228:y:2021:i:c:s0360544221008732.

    Full description at Econpapers || Download paper

17. A Systemic Design Approach Applied to Rice and Wine Value Chains. The Case of the InnovaEcoFood Project in Piedmont (Italy). (2020). Tamborrini, Paolo ; Fiore, Eleonora ; Stabellini, Barbara.
    In: Sustainability.
    RePEc:gam:jsusta:v:12:y:2020:i:21:p:9272-:d:441753.

    Full description at Econpapers || Download paper

18. Direct conversion of glyceride-based oil into renewable jet fuels. (2020). Wang, Wei-Cheng ; Lin, Cheng-Han.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:132:y:2020:i:c:s1364032120304007.

    Full description at Econpapers || Download paper

19. Hydrodeoxygenation of crude bio-oil with various metal catalysts in a continuous-flow reactor and evaluation of emulsion properties of upgraded bio-oil with petroleum fuel. (2020). Oh, Shin Young ; Choi, Joon Weon ; Lee, Jaehoon.
    In: Renewable Energy.
    RePEc:eee:renene:v:160:y:2020:i:c:p:1160-1167.

    Full description at Econpapers || Download paper

20. The production of renewable aviation fuel from waste cooking oil. Part II: Catalytic hydro-cracking/isomerization of hydro-processed alkanes into jet fuel range products. (2020). Chen, Yu-Kai ; Wang, Wei-Cheng ; Hsieh, Chung-Hung.
    In: Renewable Energy.
    RePEc:eee:renene:v:157:y:2020:i:c:p:731-740.

    Full description at Econpapers || Download paper

21. On the low-temperature plasma discharge in methane/air diffusion flames. (2020). Roy, Shrabanti ; Zare, Saeid ; Askari, Omid ; Lo, Hao Wei.
    In: Energy.
    RePEc:eee:energy:v:197:y:2020:i:c:s0360544220302929.

    Full description at Econpapers || Download paper

22. Assessment of uncertainties of laminar flame speed of premixed flames as determined using a Bunsen burner at varying pressures. (2018). Zhou, Y ; Bai, X S ; Alden, M ; Gao, J ; Gong, C ; Li, Z S.
    In: Applied Energy.
    RePEc:eee:appene:v:227:y:2018:i:c:p:149-158.

    Full description at Econpapers || Download paper

23. Cell formation effects on the burning speeds and flame front area of synthetic gas at high pressures and temperatures. (2017). Askari, Omid ; Elia, Mimmo ; Ferrari, Matthew ; Metghalchi, Hameed.
    In: Applied Energy.
    RePEc:eee:appene:v:189:y:2017:i:c:p:568-577.

    Full description at Econpapers || Download paper

Report date: 2025-10-05 06:49:22 || Missing content? Let us know