Disciplina Discipline PCS5870
Sustentabilidade e Tecnologias Digitais

Sustainability and Digital Technologies

Área de Concentração: 3141

Concentration area: 3141

Criação: 01/07/2022

Creation: 01/07/2022

Ativação: 01/07/2022

Activation: 01/07/2022

Nr. de Créditos: 8

Credits: 8

Carga Horária:

Workload:

Teórica

(por semana)

Theory

(weekly)

Prática

(por semana)

Practice

(weekly)

Estudos

(por semana)

Study

(weekly)

Duração Duration Total Total
3 0 7 12 semanas 12 weeks 120 horas 120 hours

Docente Responsável:

Professor:

Tereza Cristina Melo de Brito Carvalho

Objetivos:

• Apresentar a conceituação de Sustentabilidade aplicada às Tecnologias Digitais e Inovação. • Abordar e discutir tópicos relacionados à Computação Verde, incluindo políticas, legislações e práticas sustentáveis associadas. • Apresentar Tecnologias Digitais, como Computação em nuvem, Internet das Coisas, Big Data e outras que dão suporte a soluções verdes. • Discutir os grandes desafios da Gestão de Resíduos de Equipamentos Eletrônicos (REEE) dentro do contexto da Política Nacional de Resíduos Sólidos (PNRS). • Avaliar estudos de caso de Inovação Sustentável baseado em Tecnologias Digitais.

Objectives:

• Present the conceptualization of Sustainability applied to Digital Technologies and Innovation. • Address and discuss topics related to Green Computing, including policies, legislation and associated sustainable practices. • Present Digital Technologies, such as Cloud Computing, Internet of Things, Big Data and others that support green solutions. • Discuss the major challenges of Electronic Equipment Waste Management (WEEE) within the context of the National Solid Waste Policy (PNRS). • Evaluate case studies of Sustainable Innovation based on Digital Technologies.

Justificativa:

O uso das Tecnologias Digitais permeia cada vez mais o nosso dia-a-dia e as atividades da sociedade contemporânea. Dado isso é premente promover a geração de inovação tecnológica sob as premissas de Sustentabilidade, que considere questões como a Eficiência Energética, o Uso Racional de Recursos e Economia Circular.

Rationale:

The use of Digital Technologies increasingly permeates our daily lives and the activities of contemporary society. Given this, it is urgent to promote the generation of technological innovation under the premises of Sustainability, which considers issues such as Energy Efficiency, Rational Use of Resources and Circular Economy.

Conteúdo:

1. Conceituação sobre Sustentabilidade 2. Sustentabilidade e as Diferentes Dimensões 2.1.Dimensão Ambiental 2.2.Dimensão Econômica 2.3.Dimensão Social 3. Desafios das Tecnologias Digitais e Sustentabilidade 3.1.Eficiência Energética 3.2.Uso Racional de Recursos 3.3.Obsolescência Programada 3.4.Economia Linear 3.5.Geração de Resíduos 4. Tecnologias Digitais e Sustentabilidade 4.1.Mobilidade e Sustentabilidade 4.2.Data Center Verde 4.3.Computação em Nuvem 5. Gestão de Tecnologias Digitais Orientada a Políticas de Sustentabilidade 6. Desafios da Gestão de Resíduos Sólidos 6.1.Política Nacional de Resíduos Sólidos 6.2.Gestão dos Resíduos de Equipamentos Eletroeletrônicos (REEE) 6.3.Economia Circular aplicada à Gestão dos REEE 7. Estudos de Casos: Aplicação de Tecnologias Digitais como Ferramenta de Promoção de Práticas Sustentáveis Práticas Sustentáveis.

Content:

1. Conceptualization of Sustainability 2. Sustainability and the Different Dimensions 2.1.Environmental Dimension 2.2.Economic Dimension 2.3.Social Dimension 3. Challenges of Digital Technologies and Sustainability 3.1. 3.1.Energy Efficiency 3.2.Rational use of resources 3.3. planned obsolescence 3.4.Linear economy 3.5.Waste Generation 4. Digital Technologies and Sustainability 4.1. 4.1.Mobility and sustainability 4.2.Green Data Center 4.3.Cloud Computing 5. Digital Technology Management Oriented to Sustainability Policies 6. Challenges of Solid Waste Management 6.1.National Policy on Solid Waste 6.2.Management of Waste Electrical and Electronic Equipment (WEEE) 6.3.Circular Economy applied to WEEE Management 7. Case Studies: Application of Digital Technologies as a Tool for Promoting Practices

Forma de Avaliação:

Média de Exercícios e Trabalhos

Type of Assessment:

Average of Exercises and Assignments

Bibliografia:

ANDRAE, A. S. G. Global Life Impact of Materials Shifts: The Example of a Lead-Free Electronics Industry. Springer,EUA, 2009. BAUWENS, T.; HEKKERT, M.; KIRCHHERR, J. Circular futures: what will they look like? Ecological Economics, Elsevier, v. 175, p. 106703, 2020. BORTOLETO, A. P. ; GONÇALVES-DIAS, S. L.F. ; SANTOS, M. C. L. Reflexões sobre consumo, vida urbana esustentabilidade. In: Bruno R. Padovano; Marly Namur; Patrícia B. Sala. (Org.). São Paulo: em busca da sustentabilidade. 1ed. EDUSP/PINI, São Paulo – SP, 2012, v. 1, p. 70-80. CARVALHO, T. C. M. B. Os benefícios e os desafios da Economia Circular aplicada ao setor de equipamentoseletroeletrônicos. In: OHDE, C. Economia Circular: um modelo que dá impulso à economia, gera empregos e protege o meio ambiente. NETPRESS Books, São Paulo - SP, 2018, p. 168-190. CARVALHO, T. C. M.B.; XAVIER, L. H. Gestão de Resíduos de Equipamentos Eletroeletrônicos no Brasil. Editora Saraiva, R.J.; 2013. CHHETRI, A.; ISLAM, M. R. Inherently Sustainable Technology Developments. Nova Science Publishers, 2008. EPA. Environmental Protection Agency. Disponível em: http://www.epa.gov/. EISENREICH, A.; FÜLLER, J.; STUCHTEY, M. Open circular innovation: How companies can develop circular innovations in collaboration with stakeholders. Sustainability, Multidisciplinary Digital Publishing Institute, v. 13, n. 23, p. 13456, 2021. ERL, T.; PUTTINI, R.; MAHMOOD, Z. Cloud computing: concepts, technology & architecture. Prentice Hall, EUA, 2013. ESPOSITO, M.; TSE, T.; SOUFANI, K. Introducing a circular economy: New thinking with new managerial and policy implications. California Management Review, SAGE Publications Sage CA: Los Angeles, CA, v. 60, n. 3, p. 5–19, 2018. ESTY, D.; WINSTON, A. Green to Gold: How Smart Companies Use Environmental Strategy to Innovate, Create Value,and Build Competitive Advantage. John Wiley & Sons, Hoboken - New Jersey, EUA, 2009. Europa Commission. Legislation. The Sixth Environment Action Programme of the European Community 2002- 2012.Disponível em: http://ec.europa.eu/environment/newprg/legis.htm . Europa Commission. Legislation. Waste from Electrical and Electronic Equipment (WEEE). Disponível em:http://ec.europa.eu/environment/waste/weee/legis_en.htm .age Learning, 2012. HESTER, R.E. et al. Electronic Waste Management: RSC (Issues in Environmental Science and Technology) 1st Edition.RSC Publishing, UK, 2009. KORHONEN, J.; HONKASALO, A.; SEPPÄLÄ, J. Circular economy: the concept and its limitations. Ecological economics, Elsevier, v. 143, p. 37–46, 2018. LIU, L.; RAMAKRISHNA, S. An Introduction to Circular Economy. [S.l.]: Springer, 2021. MARWAH, M. ET AL. Quantifying the sustainability impact of data center availability. SIGMETRICS Perform. Eval. Rev.[S.I.], v. 37, n. 4, p. 64-68, 2010. NMO. Restriction of Hazardous Substances (RoHS). The National Measurement Office of the UK. Disponível em:http://www.rohs.gov.uk/ ROBERTSON, M. Sustainability Principles and Practices, Routledge, 1st. edition. 2014. SCHULZ, G. The Green and Virtual Data Center. Auerbach Publications, 2009. SHINA, S. G. Green Electronics Design and Manufacturing. McGraw-Hill Professional. 2008. SMITH, B. E. Green Computing: tools and techniques for saving energy, money and resources. Auerbach, EUA, 2013. TOMLINSON, B. Greening through IT: Information Technology for Environmental Sustainability. The MIT Press, 2010. VEIT, M. H.; BERNARDES, A. M. Electronic Waste: Recycling Techniques (Topics in Mining, Metallurgy and Materials Engineering), Springer, Nova York – EUA, 2015. WORRELL, W. A. and Vesilind, A. P. Solid Waste Engineering. Stanford, USA: Cengage Learning, 2012.

Bibliography:

ANDRAE, A. S. G. Global Life Impact of Materials Shifts: The Example of a Lead-Free Electronics Industry. Springer,EUA, 2009. BAUWENS, T.; HEKKERT, M.; KIRCHHERR, J. Circular futures: what will they look like? Ecological Economics, Elsevier, v. 175, p. 106703, 2020. BORTOLETO, A. P. ; GONÇALVES-DIAS, S. L.F. ; SANTOS, M. C. L. Reflexões sobre consumo, vida urbana esustentabilidade. In: Bruno R. Padovano; Marly Namur; Patrícia B. Sala. (Org.). São Paulo: em busca da sustentabilidade. 1ed. EDUSP/PINI, São Paulo – SP, 2012, v. 1, p. 70-80. CARVALHO, T. C. M. B. Os benefícios e os desafios da Economia Circular aplicada ao setor de equipamentoseletroeletrônicos. In: OHDE, C. Economia Circular: um modelo que dá impulso à economia, gera empregos e protege o meio ambiente. NETPRESS Books, São Paulo - SP, 2018, p. 168-190. CARVALHO, T. C. M.B.; XAVIER, L. H. Gestão de Resíduos de Equipamentos Eletroeletrônicos no Brasil. Editora Saraiva, R.J.; 2013. CHHETRI, A.; ISLAM, M. R. Inherently Sustainable Technology Developments. Nova Science Publishers, 2008. EPA. Environmental Protection Agency. Disponível em: http://www.epa.gov/. EISENREICH, A.; FÜLLER, J.; STUCHTEY, M. Open circular innovation: How companies can develop circular innovations in collaboration with stakeholders. Sustainability, Multidisciplinary Digital Publishing Institute, v. 13, n. 23, p. 13456, 2021. ERL, T.; PUTTINI, R.; MAHMOOD, Z. Cloud computing: concepts, technology & architecture. Prentice Hall, EUA, 2013. ESPOSITO, M.; TSE, T.; SOUFANI, K. Introducing a circular economy: New thinking with new managerial and policy implications. California Management Review, SAGE Publications Sage CA: Los Angeles, CA, v. 60, n. 3, p. 5–19, 2018. ESTY, D.; WINSTON, A. Green to Gold: How Smart Companies Use Environmental Strategy to Innovate, Create Value,and Build Competitive Advantage. John Wiley & Sons, Hoboken - New Jersey, EUA, 2009. Europa Commission. Legislation. The Sixth Environment Action Programme of the European Community 2002- 2012.Disponível em: http://ec.europa.eu/environment/newprg/legis.htm . Europa Commission. Legislation. Waste from Electrical and Electronic Equipment (WEEE). Disponível em:http://ec.europa.eu/environment/waste/weee/legis_en.htm .age Learning, 2012. HESTER, R.E. et al. Electronic Waste Management: RSC (Issues in Environmental Science and Technology) 1st Edition.RSC Publishing, UK, 2009. KORHONEN, J.; HONKASALO, A.; SEPPÄLÄ, J. Circular economy: the concept and its limitations. Ecological economics, Elsevier, v. 143, p. 37–46, 2018. LIU, L.; RAMAKRISHNA, S. An Introduction to Circular Economy. [S.l.]: Springer, 2021. MARWAH, M. ET AL. Quantifying the sustainability impact of data center availability. SIGMETRICS Perform. Eval. Rev.[S.I.], v. 37, n. 4, p. 64-68, 2010. NMO. Restriction of Hazardous Substances (RoHS). The National Measurement Office of the UK. Disponível em:http://www.rohs.gov.uk/ ROBERTSON, M. Sustainability Principles and Practices, Routledge, 1st. edition. 2014. SCHULZ, G. The Green and Virtual Data Center. Auerbach Publications, 2009. SHINA, S. G. Green Electronics Design and Manufacturing. McGraw-Hill Professional. 2008. SMITH, B. E. Green Computing: tools and techniques for saving energy, money and resources. Auerbach, EUA, 2013. TOMLINSON, B. Greening through IT: Information Technology for Environmental Sustainability. The MIT Press, 2010. VEIT, M. H.; BERNARDES, A. M. Electronic Waste: Recycling Techniques (Topics in Mining, Metallurgy and Materials Engineering), Springer, Nova York – EUA, 2015. WORRELL, W. A. and Vesilind, A. P. Solid Waste Engineering. Stanford, USA: Cengage Learning, 2012.

Tipo de oferecimento da disciplina:

Não-Presencial

Class type:

Não-Presencial