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In Honor of Nobel Laureate Dr. Avram Hershko
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SIPS 2024 takes place from October 20 - 24, 2024 at the Out of the Blue Resort in Crete, Greece

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More than 500 abstracts submitted from over 50 countries


Featuring many Nobel Laureates and other Distinguished Guests

ADVANCED PROGRAM

Orals | Summit Plenaries | Round Tables | Posters | Authors Index


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Oral Presentations


SESSION:
IronMonPM4-R9
Leite International Symposium (10th Intl. Symp. on Advanced Sustainable Iron & Steel Making)
Mon. 21 Oct. 2024 / Room: Ariadni C
Session Chairs: Dimas Coura; Dhanraj Patil; Student Monitors: TBA

17:30: [IronMonPM413] OS
GENERATION OF ELECTRIC POWER FROM MOBILE PROCESS USING MAIZE WASTE AND BAMBOO BIOMASS
Dimas Coura1; Paulo Assis2; Elisângela Leal2; Luiz Leite2
1IFMG Campus Ouro, Branco, Conselheiro Lafaiete, Brazil; 2Federal University of Ouro Preto, Ouro Preto, Brazil
Paper ID: 115 [Abstract]

The steel industry is responsible for 5% of total energy consumption and contributes 6% of CO2 emissions worldwide [1]. Brazil produces around 30% of the world's charcoal and a large part of this is used to produce pig iron, ferroalloys and silicon metal. There is a large proportion of artisanal production in the country and pressure for sustainable production systems has led to the development of new clean technologies with higher yields [2]. There are a total of 21 types of carbonization furnaces, of which there are 172 patents with various improvements to the carbonization process [3].

Residues from rice, maize, soy, wheat and other crops such as bambo have high energy potential, and these sources can contribute to increasing electricity generation [4]. The carbonization process has evolved, as has furnace productivity, and making full use of the energy contained in biomass has reached technological limits [5]. With finite natural resources and an industry that is intensive for the development of society, it is necessary to develop alternatives in the direction of the circular economy [6].

This article carries out an analysis of the availability of maize waste and bamboo biomass in Brazil, as well as a review of the optimized carbonization process, where there is use of the gases generated and co-products from the pyrolysis process. The article also evaluates a charcoal generation process that can be adapted to the conditions of biomass availability in the regions of Brazil.

References:
[1] ZHAO, J. et al. Review of green and low-carbon ironmaking technology. Ironmaking and Steelmaking, v. 47, n. 3, p. 296-306, 2020.
[2] SANTOS, S. DE F. DE O. M.; HATAKEYAMA, K. Sustainable charcoal production process in terms of environmental, economic, social and cultural aspects. Production, v. 22, n. 2, p. 309-321, 2012.
[3] PYSHYEV, S. et al. State of the art in the production of charcoal: A review. Chemistry & Chemical Technology, v. 15, n. 1, p. 61-73, 2021.
[4] ROCHA, M. S. R. DOS S.; ALMEIDA, R. M. R. G.; DA CRUZ, A. J. G. Evaluation of the energy potential of agro-industrial waste from different Brazilian regions.. Engevista, v. 19, n. 1, p. 217, 2017.
[5] Latorre, Lopes F.; Mendes, Fabiano; Soares, Lis; Sampaio, Ronaldo. Continuous Carbonization - Carboval and energy cogeneration, p. 180-191. In: 47th Seminar on Reduction of Ores and Raw Materials, São Paulo, 2017. ISSN: 2594-357X, DOI 10.5151/2594-357X-30643.
[6] Machado, Silva F.; Rito, Duclou R.; Soares, Nunes L.; Sampaio, Santos R.; Mendes, Fabiano. Carboval as a vector for intensifying the concept of the circular economy in the steel industry, p. 33-43. In: 32nd Meeting of Producers and Consumers of Industrial Gases, São Paulo, 2017. ISSN: 2594-3626, DOI 10.5151/2594-3626-30630.


18:50 THEME BUFFET DINNER & SHOW - Secret Garden (outdoor)



SESSION:
IronTuePM2-R9
Leite International Symposium (10th Intl. Symp. on Advanced Sustainable Iron & Steel Making)
Tue. 22 Oct. 2024 / Room: Ariadni C
Session Chairs: Davi Santos; Luiz Leite; Student Monitors: TBA

15:05: [IronTuePM207] OS Keynote
4E ANALYSIS OF THE THERMAL POWER PLANT OF A COKE INTEGRATED STEELMAKING PROCESS
Dimas Coura1; Paulo Assis2; Elisângela Leal2; Luiz Leite2
1IFMG Campus Ouro, Branco, Conselheiro Lafaiete, Brazil; 2Federal University of Ouro Preto, Ouro Preto, Brazil
Paper ID: 370 [Abstract]

The steelmaking industry is of fundamental importance in the energy context of Brazil, being characterized as one of the major consumers of electricity in the country. To be competitive in the global market, the steelmaking industry needs to show an excellent strategic plan. This plan includes efficient energy planning, seeking to make better use of resources, low environmental impacts and operating costs [1]. The thermoelectric power plants of coke integrated steelmaking industry demonstrate great economic potential, since they make use of the waste gases from the process [2]. The aim of this work is to analyze, from the environomic viewpoint, the thermoelectric power plant, observing the influence of hydrogen addition. The generation of hydrogen is by water electrolysis, driven by photovoltaic power. The methodology comprises of using a computational model created with Scilab [3]. For model validation, the actual data from the thermal power plant is used. Thermoeconomic modeling aims to obtain a system of cost equations that mathematically represents the cost formation process in the plant [4]. The computer simulations use seven scenarios of possible fuel mixtures, using the BFG, LDG, COG, and H2. The results indicate that up to 30% of hydrogen with BFG is possible to obtain energy and exergy efficiency equivalent to scenario zero that most represents the operation of the thermoelectric plant and still reduce the fuel cost [5]. The importance of energy management in an organization is highlighted in terms of potential financial gains and cost reductions. Scenario 0 based the real operating model showed lower exergetic efficiency 23.87%.

References:
[1] FIGAJ, R. Performance assessment of a renewable micro-scale trigeneration system based on biomass steam cycle, wind turbine, photovoltaic field. Renewable Energy, vol 177, Pages 193-208, 2021.
[2] CALISE, F; VANOLI, R; VICIDOMINI, M. The state of art of conventional and nonconventional heat engines. Chapter 2. Salinity Gradient Heat Engines. Woodhead Publishing Series in Energy. Pages 33-81, 2022.
[3] ZHANG, H; DONG, J; WEI, C; CAO, C; ZHANG, Z. Future trend of terminal energy conservation in steelmaking plant: Integration of molten slag heat recovery-combustible gas preparation from waste plastics and CO2 emission reduction. Energy, Vol 239, Part E, 2022.
[4] VICHI, F M; MANSOR, M T C. Energy, environment and economy: Brazil in the world context. Química Nova, São Paulo. Vol 32(3), pp. 757-767, 2009.
[5] ALDABÓ, R. Solar Energy. São Paulo: Artliber Publisher, 2002. (in portuguese)


15:45 COFFEE BREAK/POSTERS/EXHIBITION - Ballroom Foyer