# | Document title | Authors | Year | Source | Cited by |
1 | Methodology for combined use of data envelopment analysis and life cycle assessment applied to food waste management | Cristóbal J., Limleamthong P., Limleamthong P., Manfredi S., Guillén-Gosálbez G., Guillén-Gosálbez G. | 2016 | Journal of Cleaner Production 135,pp. 158-168 | 44 |
2 | Multi-criteria screening of chemicals considering thermodynamic and life cycle assessment metrics via data envelopment analysis: Application to CO2 capture | Limleamthong P., Limleamthong P., Gonzalez-Miquel M., Papadokonstantakis S., Papadopoulos A.I., Seferlis P., Seferlis P., Guillén-Gosálbez G., Guillén-Gosálbez G. | 2016 | Green Chemistry 18(24),pp. 6468-6481 | 31 |
3 | Rigorous analysis of Pareto fronts in sustainability studies based on bilevel optimization: Application to the redesign of the UK electricity mix | Limleamthong P., Guillén-Gosálbez G., Guillén-Gosálbez G. | 2017 | Journal of Cleaner Production 164,pp. 1602-1613 | 26 |
4 | Sustainability Evaluation of Alternative Routes for Fine Chemicals Production in an Early Stage of Process Design Adopting Process Simulation along with Data Envelopment Analysis | Mio A., Limleamthong P., Guillén-Gosálbez G., Fermeglia M. | 2018 | Industrial and Engineering Chemistry Research 57(23),pp. 7946-7960 | 15 |
5 | Mixed-Integer Programming Approach for Dimensionality Reduction in Data Envelopment Analysis: Application to the Sustainability Assessment of Technologies and Solvents | Limleamthong P., Guillén-Gosálbez G. | 2018 | Industrial and Engineering Chemistry Research 57(30),pp. 9866-9878 | 11 |
6 | Temporal sustainability efficiency analysis of urban areas via Data Envelopment Analysis and the hypervolume indicator: Application to London boroughs | Pozo C., Limleamthong P., Guo Y., Green T., Shah N., Acha S., Sawas A., Wu C., Wu C., Siegert M., Guillén-Gosálbez G. | 2019 | Journal of Cleaner Production 239 | 10 |
7 | Pyrolysis and gasification integrated process of empty fruit bunch for multi-biofuels production: Technical and economic analyses | Detchusananard T., Wuttipisan N., Limleamthong P., Prasertcharoensuk P., Maréchal F., Arpornwichanop A. | 2022 | Energy Conversion and Management 258 | 6 |
8 | Combined Use of Bilevel Programming and Multi-objective Optimization for Rigorous Analysis of Pareto Fronts in Sustainability Studies: Application to the Redesign of the UK Electricity Mix | Limleamthong P., Guillén-Gosálbez G. | 2018 | Computer Aided Chemical Engineering 43,pp. 1099-1104 | 4 |
9 | Systematic multiobjective life cycle optimization tools applied to the design of sustainable chemical processes | Guillén-Gosálbez G., González-Garay A., Limleamthong P., Galán-Martín Á., Pozo C. | 2019 | Sustainable Nanoscale Engineering: From Materials Design to Chemical Processing ,pp. 435-449 | 1 |
10 | Screening of Solvents for CO2 Capture considering Sustainability Criteria via Data Envelopment Analysis | Limleamthong P., Limleamthong P., González-Miquel M., Papadokonstantakis S., Papadopoulos A., Seferlis P., Seferlis P., Guillén-Gosálbez G., Guillén-Gosálbez G. | 2017 | Computer Aided Chemical Engineering 40,pp. 2011-2016 | 0 |
11 | Composting time minimization of mature vermicompost using desirability and response surface methodology approach | Tippawan P., Jienkulsawad P., Jienkulsawad P., Limleamthong P., Arpornwichanop A. | 2022 | Computers and Chemical Engineering 167 | 0 |