Man

Jesus Manuel Casas de Prada

Académico

UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

Valparaiso, Chile

Líneas de Investigación


Ingeniería de Procesos y Productos Metalúrgicos; Metalurgia Extractiva, Modelación y simulación computacional

Educación

  •  Cinencias de La Ingenieria, Mencion Quimica, UNIVERSIDAD DE CHILE. Chile, 1991
  •  Chemical Engineering Sciences, UNIVERSIDAD DE CHILE. Chile, 1996
  •  Chemical Engineer, UNIVERSIDAD DE CHILE. Chile, 1991

Experiencia Académica

  •   Profesor Part Time

    UNIVERSIDAD ADOLFO IBANEZ

    Ingeniería

    SANTIAGO, Chile

    2015 - 2016

  •   Academico Full Time

    UNIVERSIDAD DE CHILE

    Ciencias Físicas y Matemáticas

    SANTIAGO, Chile

    1991 - 2002

  •   Academico Part Time

    UNIVERSIDAD DE CHILE

    cCencias Físicas y Matemáticas

    SANTIAGO, Chile

    2003 - 2012

Experiencia Profesional

  •   Academico

    Universidad de Chile

    Chile

    1991 - 2011

  •   Consultant in Process Metallurgy Part Time

    Process Consulting

    SANTIAGO, Chile

    2005 - A la fecha

Premios y Distinciones

  •   Jesus Casas

    MINISTERIO DE MINERIA

    Chile, 2013

    Persona Chilena Competente en Recursos y Reservas Minerales, Área de Metalurgia Extractiva. Comisión Calificadora de Competencias en Recursos y Reservas Mineras


 

Article (28)

Drowning-out crystallization of sodium molybdate in aqueous-ethanol solutions
Speciation in the Fe(III)-Cl(I)-H2O System at 298.15 K, 313.15 K, and 333.15 K (25 degrees C, 40 degrees C, and 60 degrees C)
Crystallization of sodium perrhenate from NaReO4-H2O-C2H5OH solutions at 298 K
Rhenium cementation on zinc in aqueous acidic solutions
SEPARATION OF MOLYBDENUM SPECIES BY ELECTRODIALYSIS
Effect of solution impurities on morphology and composition of copper electrodeposits obtained in membrane based cell
The use of electrodialysis for metal separation and water recovery from CuSO4-H2SO4-Fe solutions
Modelling the effect of temperature and time on the performance of a copper electrowinning cell based on reactive electrodialysis
Processing of a ferric anolyte produced by a copper electrowinning cell based on reactive electro dialysis
Modelling a copper electrowinning cell based on reactive electrodialysis
Solubility of sodium-jarosite and solution speciation in the system Fe(III)-Na-H2SO4-H2O at 70 degrees C
Dissolution of metallic copper in aqueous sulphuric acid - Ferric sulphate solutions
Temperature dependence of the speciation of copper and iron in acidic electrolytes
The use of electrohydrolysis for the recovery of sulphuric acid from copper-containing solutions
Electrowinning of copper in a lab-scale squirrel-cage cell with anion membrane
Performance of three chemical models on the high-temperature aqueous Al 2(SO 4) 3-MgSO 4-H 2SO 4-H 2O system
Speciation of the Fe(II)-Fe(III)-H2SO4-H2O system at 25 and 50 degrees C
Advances in the treatment of CuSO4-H2SO4-As-Sb-H2O solutions by electrodialysis
Antimony solubility and speciation in aqueous sulphuric acid solutions at 298 K
Aspects of the development of a copper electrowinning cell based on reactive electrodialysis
The effectiveness of membrane systems for the separation of anolyte and catholyte in a lab-scale copper electrowinning cell based on reactive electrodialysis
Agglomeration and leaching of copper tailings in a fixed bed for laboratory scale: effect of the moisture in the agglomeration
Agglomeration and leaching of copper tailings in a fixed bed for laboratory scale: Effect of the moisture in the agglomeration Aglomeración y lixiviación en lecho fijo de colas de proceso de flotación de cobre a escala de laboratorio: Efecto del contenido de humedad en la aglomeración
Aqueous speciation of arsenic in sulfuric acid and cupric sulfate solutions
Two-dimensional dynamic model of a copper sulphide ore bed
On the electrodialysis of aqueous H2SO4-CuSO4 electrolytes with metallic impurities
Aqueous speciation of sulfuric acid-cupric sulfate solutions
Bioleaching model of a copper-sulfide ore bed in heap and dump configurations

Patent (2)

Proceso y sistema para lixiviación solar en pilas de minerales utilizando colectores solares de concentración basado en lentes fresnel con seguimiento solar
Procedimiento hidrometalúrgico autógeno para la producción de metales y materiales combinando lixiviación y regeneración del oxidante a través de celdas electrolíticas con membranas
30
Jesus Casas

Académico

Metallurgical and Materials Engineering

UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

Valparaiso, Chile

17
Luis Cifuentes

Profesor Titular

Ingeniería de Minas

Universidad de Chile

Santiago, Chile

3
Tomás Vargas

Profesor Asociado

Ingeniería Química, Biotecnología y materiales

UNIVERSIDAD DE CHILE (UCH), FACULTAD CS.FISICAS Y MATEMATICAS , DPTO INGENIERIA QUIMICA

Santiago, Chile

1
Pía Hernández

Académico

Ingeniería Química y Procesos de Minerales

UNIVERSIDAD DE ANTOFAGASTA

Antofagasta, Chile

1
Maria Taboada

Profesor Titular

Facultad de Ingeniería

UNIVERSIDAD DE ANTOFAGASTA

Antofagasta, Chile

1
Mario Grageda

Director

Ingeniería química y procesos de minerales

UNIVERSIDAD DE ANTOFAGASTA

Antofagasta, Chile

1
Nathalie Jamett

Investigadora Postdoctoral

Centro Lithium I+D+i

Universidad Católica del Norte

Antofagasta, Chile