, Closing the Loop -An EU Action Plan for the Circular Economy, 2015.
, INDUSTRIAL SYMBIOSIS: Literature and Taxonomy, vol.25, pp.313-337, 2000.
, Groeiboek Duurzame Bedrijventerreinen, Technisch, Economisch, Juridisch and Ruimtelijk Bekeken, Vanden Broele, 2005.
, Resource Efficiency of Processing Plants, pp.441-469, 2018.
Redefining Industrial Symbiosis, Journal of Industrial Ecology, vol.16, pp.28-37, 2012. ,
Industrial ecology and industrial ecosystems, Journal of Cleaner Production, vol.3, pp.47-53, 1995. ,
Planning and Uncovering Industrial Symbiosis: Comparing the Rotterdam andÖstergötland regions, Business Strategy and the Environment, vol.20, pp.428-440, 2011. ,
, A Heuristic Approach to Cultivate Symbiosis in Industrial Clusters Led by Process Industry, pp.579-588, 2017.
Quantitative tools for cultivating symbiosis in industrial parks; a literature review, Applied Energy, vol.155, pp.599-612, 2015. ,
, National Industrial Symbiosis Programme (NISP), 2018.
E-Symbiosis: Technology-enabled support for Industrial Symbiosis targeting Small and Medium Enterprises and innovation, Journal of Cleaner Production, vol.98, pp.336-352, 2015. ,
Designing Industrial Symbiosis Platforms -from Platform Ecosystems to Industrial Ecosystems, PACIS 2018 Proceedings, 2018. ,
Barriers to Industrial Symbiosis: Insights from the Use of a Maturity Grid, Journal of Industrial Ecology, vol.19, pp.141-153, 2014. ,
Simulation and evaluation on the eco-industrial system of Changchun economic and technological development zone, China, Environmental Monitoring and Assessment, vol.139, pp.339-349, 2008. ,
A brief introduction to grey systems theory, Proceedings of 2011 IEEE International Conference on Grey Systems and Intelligent Services, pp.1-9, 2011. ,
New progress of Grey System Theory in the new millennium, Grey Systems: Theory and Application, vol.6, pp.2-31, 2016. ,
, Reference documents under the IPPC Directive and the IED, 2016.
Eco-Profiles and Environmental Product Declarations of the European Plastics Manufacturers, 2011. ,
Energy Efficiency and Integration in the Refining and Petrochemical Industries, 2016. ,
, Enhanced energy and resource Efficiency and Performance in process industry Operations via onsite and cross-sectorial, Symbiosis -SPIRE, 2018.
, Virtual Sector Profiles for Innovation Sharing in Process Industry -Sector 01: Chemicals, in: Sustainable Design and Manufacturing, pp.569-578, 2017.
3 -Sector Blueprints and Virtual Marketplaces, Public Summary, 2017. ,
, , 2019.
, EPOS, D2.1 -Sectorial and Cross-Sectorial KPIs, Public Summary, 2017.
Targeting for energy efficiency and improved energy collaboration between different companies using total site analysis (TSA), Energy, vol.36, pp.4609-4615, 2011. ,
The Chemical Process Industries, 1956. ,
Methodology for streams definition and graphical representation in Total Site Analysis, 29th International Conference on Efficiency ,
The pinch design method for heat exchanger networks, Chemical Engineering Science, vol.38, pp.745-763, 1983. ,
Electrical flexibility in chemical industry: Technical possibilities, valorisation paths and ecological benefits ,
Optimized production of hydrogen in an eco-park network accounting for life-cycle emissions and profit, International Journal of Hydrogen Energy, vol.37, pp.5347-5359, 2012. ,
Game theory approach to the analysis of inter-plant water integration in an eco-industrial park, Journal of Cleaner Production, vol.17, pp.1611-1619, 2009. ,
Refinery Hydrogen Management: Cost Analysis of Chemically-Integrated Facilities, Industrial & Engineering Chemistry Research, vol.35, pp.2378-2388, 1996. ,
, Chambre de Commerce et d'Industrie Occitanie, Classification des flux en Ecologie Industrielle et Territoriale, 2017.
2: Statistical Classification of Economic Activities in the European Community, p.455049151, 2008. ,
, Data Cleaning: Problems and Current Approaches, vol.23, pp.3-13, 2000.
, Process data validation and reconciliation experts, 2018.
, , 2018.
Methodology for Efficient Use of Thermal Energy in the Chemical and Petrochemical Industry, 2018. ,
, Critical Evaluations in Business and Management, 2005.
The thermal efficiency of steam engines. report of the committee appointed to the council upon the subject of the definition of a standard or standards of thermal efficiency for steam engines: With an introductory note. (including appendixes and plate at back of volume), Minutes of the Proceedings of the Institution of Civil Engineers, vol.134, pp.278-312, 1898. ,
Total site targets for fuel, co-generation, emissions, and cooling, Computers & Chemical Engineering, vol.17, pp.101-109, 1993. ,
Best Available Techniques (BAT) Reference Document for the Refining of Mineral Oil and Gas, JRC Science and Policy Reports EUR 27140 EN, 2015. ,
Complexity index indicates refinery capability, value, Oil and Gas Journal, vol.94, pp.74-80, 1996. ,
Manufacturing Energy Use and Greenhouse Gas Emissions Analysis, 2012. ,
, IPIECA, Petroleum Refinery Waste Management and Minimization, 2014.
Allocation of energy use in petroleum refineries to petroleum products, The International Journal of Life Cycle Assessment, vol.9, pp.34-44, 2004. ,
, Journal of Industrial Ecology, vol.16, pp.689-698, 2012.
A heat integration method with location-dependent heat distribution losses, of 13 International Symposium on Process Systems Engineering, vol.44, pp.1195-1200, 2018. ,
Energy integration of industrial sites with heat exchange restrictions, Computers & Chemical Engineering, vol.37, pp.104-118, 2012. ,
Reuse of waste catalysts from petrochemical industries for cement substitution, Cement and Concrete Research, vol.30, pp.1773-1783, 2000. ,
, Directive 2012/27/EU of the European Parliament and of the Council of 25 October 2012 on energy efficiency, 2012.
, ELEGANCY, 2018.