01883nam a2200289 a 450000100080000000500110000800800410001910000180006024501230007826002380020150000440043952008270048365000130131065000140132365000230133765000280136065000200138865000210140870000190142970000170144870000170146570000250148270000210150770000200152870000240154870000210157221485892022-11-22       2022    bl uuuu     u00u1 u    #d1 aMENDES, T. D.  aSelection of fungal strains for the bioconversion of biodiesel crude glycerol into citric acid.h[electronic resource]  aIn: SIMPÓSIO NACIONAL DE BIOPROCESSOS, 23.; SIMPÓSIO DE HIDRÓLISE ENZIMÁTICA DE BIOMASSAS, 14,; SEMINÁRIO BRASILEIRO DE TECNOLOGIA ENZIMÁTICA, 14., 2022, Búzios. São Paulo: Associação Brasileira de Engenharia Químicac2022  a23º SINAFERM; 14º SHEB; 14º ENZITEC.  aCitric acid (CA) is one of the most valuable organic acids in the market as it can be used in diverse biotechnological applications, such as in the food industry, as flavoring agent and as food preservative, besides cosmetics, pharmaceuticals, and cleaning sectors. This acid can be produced by a biotechnological route and the most common producing microorganisms are filamentous fungi and yeasts (Amato, Becci and Beolchini, 2020). Considering that the Brazilian biodiesel production in 2021 was 6.76 million m3, and that 10 kg of crude glycerol are generated for each 100 kg of biodiesel produced, a large amount of that byproduct is available in the market. Then, the objective of this work was to screen filamentous fungi capable of producing citric acid from biodiesel crude glycerol (BCG) on submerged fermentation.  aCleaning  aCosmetics  aFood preservatives  aPharmaceutical industry  aÁcido Cítrico  aÁcido Orgânico1 aPACHECO, T. F.1 aBRAGA, S. C.1 aNAKAI, D. K.1 aMIDORIKAWA, G. E. O.1 aGONCALVES, S. B.1 aSALUM, T. F. C.1 aFAVARO, L. C. de L.1 aDAMASO, M. C. T.