Laureano Jiménez mostly deals with Multi-objective optimization, Life-cycle assessment, Mathematical optimization, Environmental impact assessment and Production. Laureano Jiménez has researched Multi-objective optimization in several fields, including Electricity generation, Nonlinear programming, Process engineering and Optimal design. Life-cycle assessment connects with themes related to Linear programming in his study.
As a part of the same scientific study, he usually deals with the Mathematical optimization, concentrating on Principal component analysis and frequently concerns with Dimensionality reduction, Metric and Hydrogen. His studies deal with areas such as Fossil fuel, Data envelopment analysis and Operations research as well as Production. His Minification research includes themes of Systems design and Pareto principle.
Laureano Jiménez spends much of his time researching Multi-objective optimization, Life-cycle assessment, Mathematical optimization, Process engineering and Environmental impact assessment. His work investigates the relationship between Multi-objective optimization and topics such as Water cooling that intersect with problems in Absorption refrigerator. Production covers Laureano Jiménez research in Life-cycle assessment.
His Production study combines topics from a wide range of disciplines, such as Biofuel, Metaheuristic and Operations research. His Mathematical optimization research is multidisciplinary, incorporating perspectives in Nonlinear programming and Dimensionality reduction. His study in Process engineering is interdisciplinary in nature, drawing from both Residue curve and Distillation.
Laureano Jiménez focuses on Life-cycle assessment, Mathematical optimization, Multi-objective optimization, Environmental economics and Heat exchanger. Laureano Jiménez performs integrative study on Life-cycle assessment and Environmental impact assessment. His research integrates issues of Simulation and Process in his study of Mathematical optimization.
The Multi-objective optimization study combines topics in areas such as Economic impact analysis, Pareto principle and Process engineering. His Environmental economics research is multidisciplinary, incorporating elements of Productivity, Systems design and Inefficiency. Operations research is closely connected to Meta heuristic in his research, which is encompassed under the umbrella topic of Heat exchanger.
His primary areas of study are Life-cycle assessment, Data envelopment analysis, Mathematical optimization, Production and Eco-efficiency. His Life-cycle assessment study frequently draws connections between adjacent fields such as Process engineering. His research in Data envelopment analysis intersects with topics in Electricity generation, Economic sector, Productivity and Environmental economics.
His work deals with themes such as Heat exchanger and Simulation, which intersect with Mathematical optimization. The concepts of his Simulation study are interwoven with issues in Work in process, Metaheuristic and Scale. His Production research incorporates elements of Optimization problem, Raw material and Biofuel.
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Design of environmentally conscious absorption cooling systems via multi-objective optimization and life cycle assessment
Berhane H. Gebreslassie;Gonzalo Guillén-Gosálbez;Laureano Jiménez;Dieter Boer.
Multiobjective Model for More Sustainable Fuel Supply Chains. A Case Study of the Sugar Cane Industry in Argentina
Fernando D. Mele;Andrew M. Kostin;Gonzalo Guillén-Gosálbez;Laureano Jiménez.
Application of life cycle assessment to the structural optimization of process flowsheets
Gonzalo Guillén-Gosálbez;José Antonio Caballero;Laureano Jiménez.
Multi-objective optimization of solar Rankine cycles coupled with reverse osmosis desalination considering economic and life cycle environmental concerns
R. Salcedo;E. Antipova;D. Boer;L. Jiménez.
Design and planning of infrastructures for bioethanol and sugar production under demand uncertainty
A.M. Kostin;G. Guillén-Gosálbez;F.D. Mele;M.J. Bagajewicz.
A thermo-hydraulic approach to conceptual design of an internally heat-integrated distillation column (i-HIDiC)
Mamdouh Gadalla;Laureano Jiménez;Z. Olujic;P. J. Jansens.
Computers & Chemical Engineering (2007)
Multi-objective optimization of environmentally conscious chemical supply chains under demand uncertainty
R. Ruiz-Femenia;G. Guillén-Gosálbez;L. Jiménez;J.A. Caballero.
Strategic planning with risk control of hydrogen supply chains for vehicle use under uncertainty in operating costs: A case study of Spain
Nagore Sabio;Mamdouh Gadalla;Gonzalo Guillén-Gosálbez;Laureano Jiménez.
Multi-objective optimization coupled with life cycle assessment for retrofitting buildings
Ekaterina Antipova;Dieter P. Boer;Gonzalo Guillén-Gosálbez;Luisa F. Cabeza.
The Production of Butyl Acetate and Methanol via Reactive and Extractive Distillation. I. Chemical Equilibrium, Kinetics, and Mass-Transfer Issues
Laureano Jiménez;and Alfonso Garvín;José Costa-López.
Industrial & Engineering Chemistry Research (2002)
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