RUBEN SANTIAGO LORENZO
PROFESOR AYUDANTE DOCTOR
INGENIERÍA ELÉCTRICA, ELECTRÓNICA, CONTROL, TELEMÁTICA Y QUÍMICA APLICADA A LA INGENIERÍA
ESCUELA TÉCN.SUP INGENIEROS INDUSTRIALES
(+34) 91398-7961
Academic Information
.
Research activity
.
Professional experience
.
Teaching
Asignaturas de Grado:
- 68014137 - PROYECTO FIN DE GRADO (I.ELÉCTRICA)
- 68901128 - FUNDAMENTOS QUÍMICOS DE LA INGENIERÍA (I.MECÁNICA / I.TECNOLOGÍAS INDUSTRIALES / I.ENERGÍA)
- 68034039 - PROYECTO FIN DE GRADO (I.MECÁNICA)
- 6890401- - INGENIERÍA DEL MEDIO AMBIENTE (PLAN 2012)
- 68043015 - INGENIERÍA QUÍMICA
- 61904017 - RIESGOS MEDIOAMBIENTALES EN LA INDUSTRIA
- 68044150 - INGENIERÍA DEL MEDIO AMBIENTE (PLAN 2024)
Asignaturas de Master:
- 28801231 - INGENIERÍA AMBIENTAL AVANZADA. (PLAN 2009)
- 2220711- - PRACTICUM EXTERNO
- 28010419 - INGENIERÍA AMBIENTAL AVANZADA. (PLAN 2024)
- 28806057 - QUÍMICA INDUSTRIAL Y MEDIO AMBIENTE
Research
RESEARCH GROUPS
- I4Labs Industria Conectada y Tecnologías Educativas para la Ingeniería + info
N.º of recognized sections of research activity
1Publications
- PUBLICATIONS IN MAGAZINES SCHOLAR
-
PUBLICATIONS AT CONFERENCES
1. Rubén Santiago, B. Saénz de Miera, M. González-Miquel, E. J. González, M.Rodríguez, and I. Díaz. Anticipating APIs solubility in natural eutectic solvents: Lidocaine and caffeine case studies. Journal of Molecular Liquids (2023). 387, 122727. (IF: 6.0 Rank: 4/35 – D1 Physics).
2. C. Moya, Rubén Santiago, D. Hospital-Benito, J. Lemus, and J. Palomar. Design of biogas upgrading processes based on ionic liquids. Chemical Engineering Journal (2022). 428, 132103 (IF: 13.3 Rank: 4/143 – D1 Chemical Engineering)
3. Rubén Santiago; E. Hernández; C. Moya; S. Vela; P. Navarro; J. Palomar. Fatty alcohol/water reaction-separation platform to produce propylene carbonate from captured CO2 using a hydrophobic ionic liquid. Separation and Purification Technology (2021). 275, pp. 119143. (IF: 7.3 Rank: 16/143 – Q1 Chemical Engineering)
4. J. Lemus; Rubén Santiago; D. Hospital-Benito; T. Welton; J. Hallet; J. Palomar. Process analysis of ionic liquid-based blends as H2S absorbents: Searching for thermodynamic/kinetic synergies. ACS Sustainable Chemistry & Engineering. (2021). 9(5), pp. 2080-2088. (IF: 8.2 Rank: 8/143 – D1 Chemical Engineering)
5. Rubén Santiago; C. Moya; J. Palomar. Siloxanes capture by ionic liquids: Solvent selection and process evaluation. Chemical Engineering Journal. (2020). 401, pp. 126078. (IF: 13.3 Rank: 4/143 – D1 Chemical Engineering)
6. Rubén Santiago; J. Lemus; A.X. Outomuro; J. Bedia; J. Palomar. Assessment of ionic liquids as H2S physical absorbents by thermodynamic and kinetic analysis based on process simulation. Separation and Purification Technology. (2020). 233, pp. 116050. (IF: 7.3 Rank: 16/143 – Q1 Chemical Engineering)
7. J. E. Sosa; Rubén Santiago; D. Hospital-Benito; M. Costa Gomes; J. MM Araujo; A. B. Pereiro; J. Palomar. Process Evaluation of Fluorinated Ionic Liquids as F-Gas Absorbents. Environmental Science & Technology. (2020). 54(19), pp. 12784-94 (IF: 9.1 Rank: 6/53 – Q1 Environ. Eng.)
8. Rubén Santiago; S. Mossin; J. Bedia; R. Fehrmann; J. Palomar. Methanol-Promoted Oxidation of Nitrogen Oxide (NOx) by Encapsulated Ionic Liquids (ENILs). Environmental Science & Technology. (2019). 53-20, pp. 11969-78. (IF: 7.9 Rank: 6/53 – Q1 Environ. Eng.)
9. Rubén Santiago; J. Lemus; D. Hospital-Benito; C. Moya; J. Bedia; N. Alonso-Morales; J. J. Rodríguez; J. Palomar. CO2 Capture by Supported Ionic Liquid Phase: Highlighting the Role of the Particle Size. ACS Sustainable Chemistry & Engineering. (2019). 7-15, pp.13089-13097. (IF: 7.6 Rank: 8/143 – D1 Chemical Engineering)
10. Rubén Santiago; J. Lemus; C. Moya; D. Moreno; N. Alonso-Morales; J. Palomar. Encapsulated Ionic Liquids to Enable the Practical Application of Amino Acid-Based Ionic Liquids in CO2 Capture. ACS Sustainable Chemistry & Engineering. (2018). 6-11, pp. 14178-14187. (IF: 7.6 Rank: 8/143 – D1 Chemical Engineering)
11. Rubén Santiago; J. Lemus; D. Moreno; C. Moya; M. Larriba; N. Alonso-Morales; M. Á. Gilarranz; J. J. Rodríguez; J. Palomar. From kinetics to equilibrium control in CO2 capture columns using Encapsulated Ionic Liquids (ENILs). Chemical Engineering Journal. (2018). 348, pp. 661-668. (IF: 10.7 Rank: 4/143 – D1 Chemical Engineering)
12. Rubén Santiago; J. Bedia; D. Moreno; C. Moya; J. de Riva; M. Larriba; J. Palomar. Acetylene absorption by ionic liquids: A multiscale analysis based on molecular and process simulation. Separation and Purification Technology. (2018). 204, pp. 38-48. (IF: 5.8 Rank: 16/143 – Q1 Chemical Engineering)
-
PUBLICATIONS IN MAGAZINES
Publicaciones como autor principal:
1. Rubén Santiago et. al. "Multiscale methodology for ionic liquids evaluation influorinated gases absorption" (Oral Presentation), 9th International Congress on Ionic Liquids, Lyon (Francia), (2023).2. Rubén Santiago et. al. “Siloxanes capture by Ionic Liquids: Solvent Selection andProcess Evaluation” (Oral Presentation), 6th Iberoam. Meeting on Ionic Liquids, Santiago (Chile), (2021).
3. Rubén Santiago et. al. “SILP performance in fixed bed for CO2 capture:Highlighting the role of the particle size” (Oral Presentation), 1st Iberoam. Conference of Chemical Engineering, Santander (Spain), (2019).
4. Rubén Santiago et. al. “Methanol Promoted Oxidation of Nitrogen Oxide (NOx)using Encapsulated Ionic Liquids (ENILs) in Moisture Conditions” (Oral Presentation), 8th International Congress on Ionic Liquids, Beijing (China), (2019).
5. Rubén Santiago et. al. “Enterprise ionic liquids database (ILUAM) for use in AspenONE programs suite with COSMO-based property methods” (Poster Presentation), 8th International Congress on Ionic Liquids, Beijing (China), (2019).
6. Rubén Santiago et. al. “Encapsulated Ionic Liquids for enhancing the kinetics ofthe CO2 physical absorption by Ionic Liquids” (Oral Presentation), 23rd International Congress of Chemical and Process Engineering, Prague (Czech Republic), (2018).
7. Rubén Santiago et. al. “ILUAM Database: Evaluation of Ionic Liquids as Acetylene Absorbents” (Oral Presentation), 23rd International Congress of Chemical and Process Engineering, Prague (Czech Republic), (2018).
8. Rubén Santiago et. al. “Encapsulated Ionic Liquids for enhancing the kinetics of the CO2 physical absorption by Ionic Liquids” (Oral Presentation), World Congress on Carbon, Madrid (Spain), (2018).
9. Rubén Santiago et. al. “Gas phase hydrogenation of benzene on ionic liquids supported on activated carbon” (Poster Presentation), World Congress on Carbon, Madrid (Spain), (2018).
10. Rubén Santiago et. al. “Using Multiscale Methodology for Evaluating the Potential Advantages of Ionic Liquids as Absorbents: Acetylene Case” (Oral Presentation), 10th World Congress of Chemical Engineering, Barcelona (Spain), (2017).
11. Rubén Santiago et. al. “Ionic liquids application to acetylene absorption: A technical evaluation” (Poster Presentation), Iberoam. Meeting on Ionic Liquids, Santos (Brasil), (2016).
Other activities
Summer coursesSpecific information about summer courses
Patents, intellectual property, knowledge transfer1. P. Navarro; E. Hernández; S. Vela; C. Moya; Rubén Santiago; D. Hospital-Benito; J. Lemus, and J. Palomar (2020). Procedimiento para fijación de dióxido de carbono en un sistema bifásico orgánico/agua (P202031121), Universidad Autónoma de Madrid.
2. P. Navarro; E. Hernández; S. Vela; C. Moya; Rubén Santiago; D. Hospital-Benito; J. Lemus, and J. Palomar (2020). Procedimiento para fijación de dióxido de carbono en fase acuosa (P202031120), Universidad Autónoma de Madrid.