@inproceedings{
 title = {Large Eddy Simulation of Boundary Layer Transition Induced by DBD Plasma Actuators},
 type = {inproceedings},
 year = {2018},
 id = {055800a8-47cb-351a-b8aa-3ee72ea07eae},
 created = {2021-07-11T22:06:03.557Z},
 accessed = {2021-07-11},
 file_attached = {false},
 profile_id = {6476e386-2170-33cc-8f65-4c12ee0052f0},
 group_id = {5a9f751c-3662-3c8e-b55d-a8b85890ce20},
 last_modified = {2021-07-11T22:06:03.557Z},
 read = {false},
 starred = {false},
 authored = {false},
 confirmed = {false},
 hidden = {false},
 citation_key = {parent:scitech:2018},
 private_publication = {false},
 abstract = {Nomenclature Roman symbols C k = particule charge of kth species, C E = electric field vector, r , V/m n s = number of species (including charged species) N k = species number density, m 3 P k = species partial pressure, Pa P = pressure of mixture, Pa s k = sign of the charge of species k (either C1 for the positive species or 1 for the negative species) T = temperature of mixture, K t = time, s U = flow speed, m/s V n = velocity of the neutrals, m/s x i = Cartesian coordinates, m x; y; z = Cartesian coordinates, m Greek symbols 0 = permittivity of free space, m 3 kg 1 s 4 A 2 r = relative permittivity = conductivity, S/m = electric field potential, V c = net charge density, C m 3 k = mobility of kth species, m 2 /(V s) Subscripts w = at the wall 1 = free stream},
 bibtype = {inproceedings},
 author = {Parent, Bernard and Shneider, Mikhail N and Macheret, Sergey O},
 doi = {10.2514/6.2018-0444},
 booktitle = {AIAA Aerospace Sciences Meeting}
}

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