Ana-Maria Iosif scite author profile

Ana-Maria Iosif

5Publications

35Citation Statements Received

1Citation Statement Given

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ArcelorMittal (France)

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Physicochemical modelling of the classical steelmaking route for life cycle inventory analysis

Iosif

Hanrot

Birat

et al. 2010

Int J Life Cycle Assess

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Goal, scope and background Integrating environmental issues into the traditional product design process, for powerful eco-efficiency, is now one of the major priorities for steelmakers. Life cycle assessment (LCA) is currently undertaken as the most holistic approach for assessing environmental impact and selecting new technologies to reduce emissions for steel industry. However, in order to identify new ways for environmental friendly production of steel, it is essential to carry out the process Life cycle inventory (LCI) which is the core part of LCA. According to LCA practitioners, the quality and the availability of data are the main important limiting factors when applying this methodology for new steelmaking processes without large industrial application. In this paper, we propose a new approach of LCIA of steelmaking, based on the simulation of traditional processes which guarantees the quality of data, the mass and the energy balances. This approach is validated for an existing integrated plant and will be used to assess the inventory for breakthrough steelmaking technologies. MethodsThe proposed methodological framework combines physicochemical modelling approach with LCA thinking, in order to carry out the LCI of steelmaking process. Using Aspen Plus commercial flow-sheeting software, physicochemical models have been developed for each steelmaking unit: coke plant, sinter plant, blast furnace, basic oxygen furnace and hot-rolling. The association of the five separately developed modules builds the complete flow sheet of the integrated steelmaking plant. Based on chemical reactions, thermodynamics laws and mathematical equations, the model calculates the mass of each pollutant released by the process, the masses and the chemical compositions of products and by-products simultaneously. For a better understanding of this approach, a brief description of the module developed for coke-making plant is given in the current paper. Results Thanks to the developed model, the LCI of an existing European integrated steelmaking plant has been calculated and inserted into GaBi software for environmental impacts assessment. In order to check the maturity of the developed approach, simulations of the model have been carried out for virtual cases describing an integrated steelmaking plant, characterised by the best available technology. Comparisons between inventories calculated with the model for "virtual" cases and for existing European plant showed good consistency of results and allowed us to validate the proposed approach. Discussions The new approach proposed for LCI calculation offers some important benefits that cannot be obtained when the inventory is carried out in the traditional way. First of all, the model allows us to control the mass and energy balances, something that is basically impossible to assure when only data from industry and/or literature are used. Secondly, calculating emissions based on physicochemical and mathematical considerations gives a strong credibility to the inventory. Predictive mode...

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Process integrated modelling for steelmaking Life Cycle Inventory analysis

Iosif¹,

Hanrot²,

Ablitzer³

2008

Environmental Impact Assessment Review

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Simplified physico-chemical modeling for the Classical Iron and Steelmaking Route and ULCOS Breakthrough Processes Life Cycle Inventory

Mirgaux¹,

Ablitzer²,

Iosif³

2009

Rev. Met. Paris

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How physical modelling can improve Life Cycle Inventory accuracy and allow predictive LCA: an application to the steel industry

Mirgaux¹,

Ablitzer²,

Iosif³

2009

Rev. Met. Paris

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Recycling of Water and Valuables in Steel Production

Ante¹,

Brücher²,

Kiessling‐Romanus³

et al. 2019

Chemie Ingenieur Technik

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Steel production without water is impossible. Given the increasing water scarcity, SMS group is making great efforts to develop its ecoplants products and processes that are characterized by low energy and water consumption and recycling of valuables. The innovations presented here include process‐integrated solutions like the rotating descaler Piroscale® MAT and the ETL evaporator as well as end‐of‐pipe solutions such as the reclamation of valuables using the Ciroval® process or the recycling of water from cooling circuit blowdown, as implemented in the WEISS project.

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Ana-Maria Iosif

Physicochemical modelling of the classical steelmaking route for life cycle inventory analysis

Process integrated modelling for steelmaking Life Cycle Inventory analysis

Simplified physico-chemical modeling for the Classical Iron and Steelmaking Route and ULCOS Breakthrough Processes Life Cycle Inventory

How physical modelling can improve Life Cycle Inventory accuracy and allow predictive LCA: an application to the steel industry

Recycling of Water and Valuables in Steel Production

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