TY - JOUR PB - Elsevier Ltd SN - 09601481 EP - 362 AV - none N1 - cited By 18 SP - 349 TI - Syngas from palm oil mill effluent (POME) steam reforming over lanthanum cobaltite: Effects of net-basicity Y1 - 2020/// A1 - Cheng, Y.W. A1 - Chong, C.C. A1 - Lee, S.P. A1 - Lim, J.W. A1 - Wu, T.Y. A1 - Cheng, C.K. JF - Renewable Energy UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85074469269&doi=10.1016%2fj.renene.2019.10.040&partnerID=40&md5=3e93cc845ca531ed165a226203329bb6 VL - 148 N2 - Steam reforming (SR) of palm oil mill effluent (POME) over net-basic LaCoO3 was optimised for syngas production (FSyngas) and degradation efficacies (XP) by tuning temperature (T), POME flow rate (VË?POME), catalyst weight (Wcat), and particle size (dcat). Net-basicity of LaCoO3 facilitated the adsorption of Lewis acid CO2, thereby assisted carbon removal via reverse Boudouard reaction. POME SR over LaCoO3 was promoted by using (i) higher T (endothermicity), (ii) greater VË?POME (larger partial pressure at constant weight-hourly-space-velocity and total feed rate), (iii) larger Wcat (longer residence time for POME vapour), and (iv) smaller dcat (higher surface area to volume ratio). Nevertheless, the catalytic activity of LaCoO3 declined with (i) severe coking and sintering deactivation (Tâ?¥973 K), (ii) carbon-encapsulation (VË?POME = 0.10 mL/min), (iii) agglomeration (Wcat>0.3 g), and (iv) pore occlusion (dcat<74 μm). Hence, the optimum conditions of POME SR over LaCoO3 were T = 873 K, VË?POME = 0.09 mL/min, Wcat = 0.3 g, and dcat = 74â??105 μm. The optimised process able to produce syngas at a rate of 86.60 μmol/min whilst degrading POME to a less polluted liquid condensate (COD = 435 mg/L and BOD5 = 62 mg/L). © 2019 Elsevier Ltd ID - scholars13313 KW - Carbon; Catalyst activity; Effluents; Lanthanum; Lanthanum compounds; Palm oil; Particle size; Sintering; Synthesis gas; Synthesis gas manufacture KW - Lanthanum cobaltite; Liquid condensates; Optimum conditions; Palm oil mill effluents; Syn-gas generation; Syngas production; Tuning temperature; Valorisation KW - Steam reforming KW - adsorption; catalysis; catalyst; chemical reaction; concentration (composition); effluent; inorganic compound; temperature effect; wastewater; wastewater treatment ER -