logo Insalogo Insa

Ligia BARNA

Ligia BARNA
Professor
SOPHYE
+33 (0) 5 61 55 97 88
INSA de Toulouse
135 avenue de Rangueil
31077 Toulouse cedex 4 - FRANCE
ligia.barna @ insa-toulouse.fr

 

CV

Chemical Engineering degree
Ph.D. and post-doctoral degree (HDR) in Process engineering and environment, University Lyon I

 

 

Research Topics

Current professional interest and research activity in chemical engineering especially in relation with environmental goals, eco-design of bio-chemical processes, impact and risk assessment and pollutant emission modelling. 

 

Sustainable bio-chemical technologies through environmental assessment and eco-design approaches:

- Development of integrated modelling platforms for predictive and parameterized LCA dedicated to eco-design of bio-chemical processes. Platforms couple specialized and homemade IT tools for 

Process Modelling & Simulation - LCA - Efficient Multi-Objective Optimization  

 

Methodological developments, new models and IT tools in Sustainability science: 

- Building a new Life Cycle Assessment method (dynamic LCA) by including time dimension in value chains’ representation and dynamic functioning of processes; 

- Thermodynamics-based assessment methods (Emergy, Exergy) - development and application in the field of industrial processes.  

 

Environmental impact and risk assessment of materials: 

Application of thermodynamic, geochemical and mass transfer modelling to assess the environmental behaviour of materials under various environmental conditions - modelling of pollutants emission from materials, wastes and soils, and of the impact of pollutant release on water sources.

 

TEACHING

Teaching activity in the department of Process Engineering and Environment, INSA Toulouse.

Teaching areas:
-chemical engineering
-environmental assessment tools (LCA) and eco-design of processes.

 

 

Recent Publications

 https://scholar.google.fr/scholar?as_sdt=0,5&q=tiruta-barna&hl=fr

 

 

Selected recent publications

L TIRUTA-BARNA, E BENETTO, A conceptual framework and interpretation of emergy algebra., Ecol. Engineering. (53) 2013, 290-298

Y. MERY, L. TIRUTA-BARNA, E. BENETTO, I. BAUDIN, An integrated Process Modeling-Life Cycle Assessment approach for process evaluation and eco-design, Int J of LCA, 18,(5)  (2013), 1062-1070

E Igos, A Dalle, L Tiruta-Barna, E Benetto, I Baudin, Y Mery, Life cycle assessment of water treatment: what is the contribution of infrastructure and operation at unit process level? Journal of Cleaner Production 65 (2014) 424-431  

Maria Lupsea, Ligia Tiruta-Barna, Nicoleta Schiopu, Ute Schoknecht, Modelling inorganic and organic biocide leaching from CBA-amine (Copper–Boron–Azole) treated wood based on characterisation leaching tests, Science of the Total Environment 461–462 (2013) 645–654

D Arbault, B Rugani, A Marvuglia, L Tiruta-Barna, E Benetto, Accounting for the emergy value of life cycle inventory systems: insights from recent methodological advances, Journal of Environmental Accounting and Management, JEAM 1 (2013) 103–117

D Arbault, B Rugani, L Tiruta-Barna, E Benetto, Emergy Evaluation of Water Treatment Processes, Ecological Engineering 60 (2013) 172– 182

Méry Y., Tiruta-Barna L., Baudin I., Benetto E., Igos E., Formalization of a technical procedure for process ecodesign dedicated to drinking water treatment plants, J. Cleaner Prod. 68, 2014, 16–24

D ARBAULT, B RUGANI, A MARVUGLIA, E BENETTO, L TIRUTA-BARNA, Emergy evaluation using the calculation software SCALE: case study, added value and potential improvements, Science of the Total Environment 472 (2014) 608–619

D ARBAULT, B RUGANI, L TIRUTA-BARNA, E BENETTO, A semantic study of the Emergy Sustainability Index in the hybrid lifecycle-emergy framework, Ecological Indicators, 43, 2014, 252-261

D ARBAULT, B RUGANI, L TIRUTA-BARNA, E BENETTO, A first global and spatially-explicit emergy database of rivers and streams based on high-resolution GIS-maps, Ecological Modelling 281 (2014) 52–64

Ahmadi A., Tiruta-Barna L., A Process Modelling–Life Cycle Assessment–MultiObjective Optimization (PM-LCA-MOO) tool for the eco-design of conventional treatment processes of potable water, Journal of Cleaner Production, 100 (2015) 116-125

A B Bisinella de Faria, M. Spérandio, A. Ahmadi, L. Tiruta-Barna, Evaluation of new alternatives in wastewater treatment plants based on Dynamic Modelling and Life Cycle Assessment (DM-LCA), Water Research 84 (2015) 99-111

L Tiruta-Barna, Y Pigné, T. Navarrete Gutiérrez, E. Benetto, Framework and computational tool for the consideration of time dependency in Life Cycle Inventory: proof of concept. Journal of Cleaner Production, 116 (2016) 198-206

Ahamdi A., Tiruta-Barna L., Capitanescu F., Benetto E., Marvuglia A., An archive-based multi-objective evolutionary algorithm with adaptive search space partitioning to deal with expensive optimization problems: Application to process eco-design. Computers and Chemical Engineering, 87, 2016, 95-110

A Ahmadi, L Tiruta-Barna, E Benetto, F Capitanescu, A Marvuglia, On the importance of integrating alternative renewable energy resources and their life cycle networks in the eco-design of conventional drinking water plants. Journal of Cleaner Production, 135, 2016, 872–883

A H Shimako, L Tiruta-Barna, Y Pigné, E Benetto, T Navarrete Gutiérrez, P Guiraud, A Ahmadi, Environmental assessment of bioenergy production from microalgae based systems, Journal of Cleaner Production, 139, 2016, 51-60

Bisinella de Faria, A.B., Ahmadi, A., Tiruta-Barna, L., Spérandio, M., Feasibility of rigorous multi-objective optimization of wastewater management and treatment plants. Chemical Engineering Research and Design, 115, 2016, 394-406

A H Shimako, L Tiruta-Barna, A Ahmadi, Operational integration of time dependent toxicity impact category in dynamic LCA, Science of the Total Environment, 2017

 

 

Example of research projects 

ANR international, DyPLCA - Environmental assessment of Dynamic Processes – considering time dependency in Life Cycle Assessment). 2014-2018

Région-Université Fédérale Toulouse, ECOMEM - Ecoconception des membranes pour le traitement de l’eau. 2015-2018.

3BCar, ECOTRANSFORM - Evaluation environnementale et Ecoconception de procédés immatures de transformation de bio-ressources. 2017-2018

FNR Luxembourg, OASIS - optimization based integrated process modelling – LCA. Application to potable water production. C13/SR/5871061 FNR, 2013-2016

H2020,  2G BIOPIC Second Generation BIoethanol sustainable production based on Organosolv Process at atmospherIc Conditions.  2015-2019

ANR, EVALEAU Evaluation des performances environnementales et économiques intégrées de procédés de production d’eau potable, 2009-2013