Uso da Lógica Fuzzy na avaliação da viabilidade do ciclo de vida do biodiesel

Maranduba, Henrique Leonardo; Ribeiro, Elivaldo Lozer Fracalossi; Souza, Joabe Vieira Andrade; Cruz, Rosenira Serpa da; Oliveira, Francisco Bruno Souza; Neto, José Adolfo de Almeida

doi:10.18225/lalca.v1i1.3070

Cited by 3 publications

(5 citation statements)

References 15 publications

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“…The Fuzzy Logic was applied through a Multicriteria Fuzzy Controller (MFC), composed of a Fuzzi er, Fuzzy Inference System (FIS), and Defuzzi er modules. The MFC was based on the multicriteria controller proposed by Maranduba et al (2017), adding adaptations necessary to make the controller able to evaluate future input values.…”

Section: Fuzzy Logicmentioning

confidence: 99%

“…So, the synergy between cLCA and Fuzzy Logic comes up with the great potential to build a scienti cally robust and reliable tool for decision-makers from the public or private sector to decide about a product, technology, or scenario considering the degree of relevance on a sustainability scale predetermined to each study case (Maranduba et al 2017).…”

Section: Introductionmentioning

confidence: 99%

“…technologies not yet in use (Clavreul et al 2013). When the goal of a study is to assess the sustainability, performance, or even the viability of a product's life cycle (be in the current or future scenario), the subjectivity in the results arises as a limiting factor, generating unclear conclusions (McManus and Taylor 2015;Maranduba et al 2017;Igos et al 2019).…”

Section: Introductionmentioning

confidence: 99%

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Proposition and Application of Multi-Criteria Analysis With Fuzzy Logic Approach and Consequential Life Cycle Assessment to Support Decision Making

Maranduba

Cruz

Rodrigues

et al. 2022

Preprint

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Purpose Use the consequential life cycle assessment (cLCA) tool to support decision-makers in product and service sustainability analyses. Methods Approach using a multicriteria fuzzy controller (MFC) associated with the cLCA to assist in the sustainability assessment, including different perspectives (environmental, exergetic, and economic), allowing more objectivity and confidence in interpreting results. The case used in this study to test the purpose uses a cradle-to-grave approach with a system expansion boundary (avoided burdens) of transporting one ton of cargo by one kilometer, with diesel B, using four ReCipe Midpoint categories (H) and the Cumulative Exergy Demand – CExD in the impact assessment. Three representative variables were chosen to test the integrated approach, two LCIA categories (CC and CExD) and an economic variable (Price). Results This work presented an approach that integrates cLCA and Fuzzy Logic, solving the limitations mentioned and providing a decision-making tool that can receive inputs from any Triple Bottom Line dimension (environmental, social, and economic) and generate objective results. When used autonomously, the cLCIA presents results with trade-offs, categories with positive (CC, FE, and ALO), negative (CExD), or neutral impacts (NLT). When combined with Fuzzy Logic, the results bring surfaces, and response areas that allow decision-makers to visualize the limits and trends of the best scenarios, facilitating consensus and managing conflicts. Conclusions The association of fuzzy controller LCA tools enabled more direct and objective results and findings to support decision-making, integrating different sustainability perspectives. Specifically, in the case study of biofuels, the approach allows decision-makers to assess future scenarios about their composition to reconcile compliance with international environmental agreements with local socio-economic needs.

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Section: Fuzzy Logicmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Proposition and Application of Multi-Criteria Analysis With Fuzzy Logic Approach and Consequential Life Cycle Assessment to Support Decision Making

Maranduba

Cruz

Rodrigues

et al. 2022

Preprint

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“…Khatchatourian & Treter (2010) developed a methodology based on fuzzy logic for evaluation and classification of economic and financial performance of agricultural cooperatives. Maranduba et al (2016) used fuzzy logic to evaluate the viability of the life cycle of biodiesel produced in Brazil, considering two mixing scenarios: B7 (7% Biodiesel and 93% fossil diesel) and B10 (10% biodiesel and 90% of fossil diesel). Cardoso et al (2018), through Fuzzy logic, was able to characterize and successfully map the uncertainties of both rainfall and erosivity to the state of Bahia, Brazil.…”

Section: Cmentioning

confidence: 99%

Simulation of wheat yield by nitrogen and nonlinearity of environmental conditions

Trautmann

Silva

Binelo

et al. 2020

Rev. bras. eng. agríc. ambient.

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Fuzzy logic can simulate wheat productivity by assisting crop predictability. The objective of the study is the use of fuzzy logic to simulate wheat yield in the conditions of nitrogen use, together with the effects of air temperature and rainfall, in the main cereal succession systems in Southern Brazil. The study was conducted in the years 2014, 2015 and 2016, in Augusto Pestana, RS, Brazil. The experimental design was a randomized block design with four repetitions in a 4 x 3 factorial scheme for N-fertilizer doses (0, 30, 60, 120 kg ha-1) and nutrient supply forms [100% in phenological stage V3 (third expanded leaf); (70%/30%) in the phenological stage V3/V6 (third and sixth expanded leaf) and; fractionated (70%/30%) at the phenological stage V3/E (third expanded leaf and beginning of grain filling)], respectively, in the soybean/wheat and corn/wheat systems. The pertinence functions and the linguistic values established for the input and output variables are adequate for the use of fuzzy logic. Fuzzy logic simulates wheat grain yield efficiently in the conditions of nitrogen use with air temperature and rainfall in crop systems.

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“…Maranduba et al (2017), adding adaptations necessary to make the controller able to evaluate future input values.Due to the exponential ratio between the fuzzy controller and the universe of rules, and the rules directly affects the computational processing time, the Fuzzi er considered only three inputs (fuzzi cation): Climate Change -CC, as an environmental requirement from the COP-21 agreement, and generated by the cLCA; Cumulative Exergy Demand -CExD, as a relevant technical requirement for fuel viability, and caused too by the cLCA; and, Price at the Supplier -Price, indicators from the economic dimension. So, the MFC proposed and modeled considered three dimensions relevant to fuel sustainability/viability: environmental, technical (exergetic), and economical.…”

mentioning

confidence: 99%

Proposition and Application of Multi-criteria Analysis With Fuzzy Logic Approach and Consequential Life Cycle Assessment to Support Decision-making on Life Cycle Sustainability

Maranduba

Cruz

Rodrigues

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

The purpose of this study is to use a multicriteria fuzzy controller (MFC) associated with the cLCA to assist in the sustainability assessment, including different perspectives (environmental, exergetic, and economic), allowing more objectivity and confidence in interpreting results. The case used in this study to test the purpose uses a cradle-to-grave approach with a system expansion boundary (avoided burdens) of transporting one ton of cargo by one kilometer, with diesel B, using four ReCipe Midpoint categories (H) and the Cumulative Exergy Demand – CExD in the impact assessment. Three representative variables were chosen to test the integrated approach, two LCIA categories (CC and CExD) and one economic (Price). The results presented an approach that integrates cLCA and Fuzzy Logic, solving the limitations mentioned and providing a decision-making tool that can receive inputs from any Triple Bottom Line dimension and generate objective results. When used autonomously, the cLCIA presents results with trade-offs, categories with positive (CC, FE, and ALO), negative (CExD), or neutral impacts (NLT). When combined with Fuzzy Logic, the results bring surfaces, and response areas that allow decision-makers to visualize the limits and trends of the best scenarios, facilitating consensus and managing conflicts. The association of fuzzy controller LCA tools enabled more direct and objective results and findings to support decision-making, integrating different sustainability perspectives.

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Uso da Lógica Fuzzy na avaliação da viabilidade do ciclo de vida do biodiesel

Cited by 3 publications

References 15 publications

Proposition and Application of Multi-Criteria Analysis With Fuzzy Logic Approach and Consequential Life Cycle Assessment to Support Decision Making

Proposition and Application of Multi-Criteria Analysis With Fuzzy Logic Approach and Consequential Life Cycle Assessment to Support Decision Making

Simulation of wheat yield by nitrogen and nonlinearity of environmental conditions

Proposition and Application of Multi-criteria Analysis With Fuzzy Logic Approach and Consequential Life Cycle Assessment to Support Decision-making on Life Cycle Sustainability

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