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@ARTICLE{AR-CMGC-23-33, author = {Hariadi, M.H. and van der Schrier, G. and Steeneveld, G-J. and Nur Ratri, D. and Sopaheluwakan, A. and Tank, A.K. and Aldrian, E. and Gunawan, D. and Moine, M.-P. and Bellucci, A. and Senan, R. and Tourigny, E. and Putrasahan, D. and Linarka, U.A. }, title = {Evaluation of extreme precipitation over Southeast Asia in the Coupled Model Intercomparison Project Phase 5 regional climate model results and HighResMIP global climate models}, year = {2023}, number = {3}, volume = {43}, pages = {1639-1659}, doi = {10.1002/joc.7938}, journal = {International Journal of Climatology}}

@ARTICLE{AR-CMGC-23-30, author = {Terray, L. }, title = {A Storyline Approach to the June 2021 Northwestern North American Heatwave}, year = {2023}, number = {5}, volume = {50}, pages = {e2022GL101640}, doi = {10.1029/2022GL101640}, journal = {Geophysical Research Letters}}

@ARTICLE{AR-CFD-23-14, author = {Mocquard, C. and Laera, D. and Dombard, J. and Poinsot, T. }, title = {A two-step chemical scheme for auto-igniting and propagating kerosene flames at reheat conditions}, year = {2023}, volume = {248}, pages = {112558}, doi = {10.1016/j.combustflame.2022.112558}, journal = {Combustion and Flame}, abstract = {A methodology to build reduced schemes able to capture the main flame features and combustion mode in a sequential burner is proposed. This is here applied to derive a two-step scheme for kerosene flames at reheat conditions typical of aircraft engines for Large Eddy Simulations applications. It comprises 6 species (kerosene, , , , , ) and two reactions where only two kinetic constants are adjusted: the pre-exponential constant of the reactions are changed as a function of the progress variable and equivalence ratio in order to match both auto-ignition times and premixed flame speeds in rich conditions. Vitiation levels are taken into account through the equivalence ratio characterizing the oxidizer stream composition in the reheat combustor. The novel two-step scheme is validated against semi-detailed chemistry for 1D laminar kerosene/vitiated air flames with decreasing inlet velocity (thereby decreasing reactant residence time) changing from auto-igniting flames at high inlet velocities to propagating flames flashing back at low inlet velocities. The scheme is proved to capture auto-igniting as well as propagating flames found in afterburner conditions at very low computational cost and with a precision comparable to complex chemical schemes.}}

@ARTICLE{AR-CMGC-23-10, author = {Taranu, I.S. and Somot, S. and Alias, A. and Boé, J. and Delire, C. }, title = {Mechanisms behind large-scale inconsistencies between regional and global climate model-based projections over Europe}, year = {2023}, doi = {10.1007/s00382-022-06540-6}, journal = {Climate Dynamics}}

@ARTICLE{AR-CMGC-23-9, author = {Boé, J. and Mass, A. and Deman, J. }, title = {A simple hybrid statistical–dynamical downscaling method for emulating regional climate models over Western Europe. Evaluation, application, and role of added value?}, year = {2023}, doi = {10.1007/s00382-022-06552-2}, journal = {Climate Dynamics}}