Green innovation at the industrial level: a systematic review

The Green innovation describes to the evolution of humanity toward capacity of invention to technological and environmental change for cleaner production and sustainable development. The existing literature about this concept is recent and no systematic review of the literature on the topic. The obj...

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Autores:: Torres Lobo, Marco Antonio
Taborda Arrieta, Lina María
Gonzalez Zambrano, Raul Humberto
Cano Zambrano, Heidis Patricia

Tipo de recurso:: Article of journal

Fecha de publicación:: 2019

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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repository_id_str
dc.title.spa.fl_str_mv	Green innovation at the industrial level: a systematic review
dc.title.translated.spa.fl_str_mv	Innovación verde a nivel industrial: una revisión sistemática
title	Green innovation at the industrial level: a systematic review
spellingShingle	Green innovation at the industrial level: a systematic review Green innovation Engineering Systematic review Industrial Innovación verde Ingeniería Revisión sistemática Industrias
title_short	Green innovation at the industrial level: a systematic review
title_full	Green innovation at the industrial level: a systematic review
title_fullStr	Green innovation at the industrial level: a systematic review
title_full_unstemmed	Green innovation at the industrial level: a systematic review
title_sort	Green innovation at the industrial level: a systematic review
dc.creator.fl_str_mv	Torres Lobo, Marco Antonio Taborda Arrieta, Lina María Gonzalez Zambrano, Raul Humberto Cano Zambrano, Heidis Patricia
dc.contributor.author.spa.fl_str_mv	Torres Lobo, Marco Antonio Taborda Arrieta, Lina María Gonzalez Zambrano, Raul Humberto Cano Zambrano, Heidis Patricia
dc.subject.spa.fl_str_mv	Green innovation Engineering Systematic review Industrial Innovación verde Ingeniería Revisión sistemática Industrias
topic	Green innovation Engineering Systematic review Industrial Innovación verde Ingeniería Revisión sistemática Industrias
description	The Green innovation describes to the evolution of humanity toward capacity of invention to technological and environmental change for cleaner production and sustainable development. The existing literature about this concept is recent and no systematic review of the literature on the topic. The objective of this study is to synthesize the existing literature on Green innovation and identifies concepts and applications in the industries, based on the specialized search - Scopus database. The systematic literature review was conducted, including 24 articles. Despite of the research the relationship between green innovation in companies remains unclear but in the construction sector the green innovation can be a potential sector with ability to lead the process sustainable and responsibilities to the environment since conception, construction, use and disposal the structure.
publishDate	2019
dc.date.issued.none.fl_str_mv	2019-05-17
dc.date.accessioned.none.fl_str_mv	2020-07-15T17:01:49Z
dc.date.available.none.fl_str_mv	2020-07-15T17:01:49Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.citation.spa.fl_str_mv	M. Torres Lobo, L. Taborda Arrieta, R. Gonzalez Zambrano, & H. Cano Zambrano “Green innovation at the industrial level: a systematic review”, IJMSOR, vol. 4, no. 1, 2019. https://doi. org/10.17981/ijmsor.04.01.03
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identifier_str_mv	M. Torres Lobo, L. Taborda Arrieta, R. Gonzalez Zambrano, & H. Cano Zambrano “Green innovation at the industrial level: a systematic review”, IJMSOR, vol. 4, no. 1, 2019. https://doi. org/10.17981/ijmsor.04.01.03 2539-5416 electrónico 10.17981/ijmsor.04.01.03 2539-5416 Corporación Universidad de la Costa REDICUC - Repositorio CUC
url	https://hdl.handle.net/11323/6570 https://doi.org/10.17981/ijmsor.04.01.03 https://repositorio.cuc.edu.co/
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language	eng
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dc.relation.references.spa.fl_str_mv	[1] M. Song, R. Fisher, and Y. Kwoh, “Technological challenges of green innovation and sustainable resource management with large scale data,” Technol. Forecast. Soc. Change, vol. 144, pp. 361–368, 2019. [2] M. Nuñez, J. Correa, G. Herrera, P. Gómez, S. Morón, y N. Fonseca, Estudio de percepción sobre energía limpia y auto sostenible, IJMSOR, vol. 3, n.º 1, pp. 11-15, dic. 2018. [3] M. Chareonpanich, P. Kongkachuichay, W. Donphai, T. Mungcharoen, and D. Huisingh, “Integrated transdisciplinary technologies for greener and more sustainable innovations and applications of Cleaner Production in the Asia– Pacific region,” J. Clean. Prod., vol. 142, pp. 1131–1137, 2017. [4] M. Shafique, R. Kim, and M. Rafiq, “Green roof benefits, opportunities and challenges – A review,” Renew. Sustain. Energy Rev., vol. 90, pp. 757–773, 2018. [5] W. Lu, V. W. Y. Tam, H. Chen, and L. Du, “A holistic review of research on carbon emissions of green building construction industry,” Eng. Constr. Archit. Manag., 2020. [6] M. Yeheyis, K. Hewage, M. S. Alam, C. Eskicioglu, and R. Sadiq, “An overview of construction and demolition waste management in Canada: A lifecycle analysis approach to sustainability,” Clean Technol. Environ. Policy, vol. 15, no. 1, pp. 81–91, 2013. [7] S. Yin and B. Li, “Academic research institutes-construction enterprises linkages for the development of urban green building: Selecting management of green building technologies innovation partner,” Sustain. Cities Soc., vol. 48, p. 101555, 2019. [8] F. J. Sáez-Martínez, G. Lefebvre, J. J. Hernández, and J. H. Clark, “Drivers of sustainable cleaner production and sustainable energy options,” J. Clean. Prod., vol. 138, pp. 1–7, 2016. [9] X. Xie, J. Huo, and H. Zou, “Green process innovation, green product innovation, and corporate financial performance: A content analysis method,” J. Bus. Res., vol. 101, pp. 697–706, 2019. [10] B. Tansel, “From electronic consumer products to e-wastes: Global outlook, waste quantities, recycling challenges,” Environ. Int., vol. 98, pp. 35–45, 2017. [11] ONU, “Transformando nuestro mundo: la agenda 2030 para el desarrollo sostenible.,” 2015. [Online]. Available: http://www.un.org/ga/search/view_doc.asp?sy mbol=A/RES/70/1&Lang=E. [12] P. Ilg, C. Scope, S. Muench, and E. Guenther, “Uncertainty in life cycle costing for longrange infrastructure. Part I: leveling the playing field to address uncertainties,” Int. J. life cycle Assess., vol. 22, no. 2, pp. 277–292, 2017. [13] S. Negny, J. P. Belaud, G. [Cortes Robles], E. [Roldan Reyes], and J. B. Ferrer, “Toward an eco-innovative method based on a better use of resources: application to chemical process preliminary design,” J. Clean. Prod., vol. 32, pp. 101–113, 2012. [14] L. M. Rivera Puerta and D. Córdoba Toro, “Revisión sistemática de las condiciones organizacionales de riesgo en empleados de Colombia y sus efectos en el bienestar,” 2016. [15] J. P. T. Higgins et al., Cochrane handbook for systematic reviews of interventions. John Wiley & Sons, 2019. [16] R. B. Briner and D. Denyer, Systematic Review and Evidence Synthesis as a Practice and Scholarship Tool. 2012. [17] L. Jia, Y. Zhao, and X.-J. Liang, “Fast evolving nanotechnology and relevant programs and entities in China,” Nano Today, vol. 6, no. 1, pp. 6–11, 2011. [18] W. T. Chong, M. S. Naghavi, S. C. Poh, T. M. I. Mahlia, and K. C. Pan, “Techno-economic analysis of a wind–solar hybrid renewable energy system with rainwater collection feature for urban high-rise application,” Appl. Energy, vol. 88, no. 11, pp. 4067–4077, 2011. [19] L. Hogaboam, A. Durmusoglu, T. Dereli, and T. Daim, “A Framework for Green/EcoInnovation Through Use of a Novel Measure: E/R,” Green Energy Technol., vol. 60, pp. 259–284, 2013. [20] G. Ilieva, J. Páscoa, A. Dumas, and M. Trancossi, “MAAT – Promising innovative design and green propulsive concept for future airship’s transport,” Aerosp. Sci. Technol., vol. 35, pp. 1–14, 2014. [21] H. Fujii and S. Managi, “Research and development strategy for environmental technology in Japan: A comparative study of the private and public sectors,” Technol. Forecast. Soc. Change, vol. 112, pp. 293–302, 2016. [22] C. Jayasinghe, W. M. C. D. J. Fonseka, and Y. M. Abeygunawardhene, “Load bearing properties of composite masonry constructed with recycled building demolition waste and cement stabilized rammed earth,” Constr. Build. Mater., vol. 102, pp. 471–477, 2016. [23] W. Goldsmith and T. Flanagan, “Value methodology--case studies within climate resilience and sustainability policy application,” Archit. Eng. Des. Manag., vol. 13, no. 1, pp. 3–21, 2017. [24] C. Y. Jim, “Green roof evolution through exemplars: Germinal prototypes to modern variants,” Sustain. Cities Soc., vol. 35, pp. 69– 82, 2017. [25] L. Ardito, A. M. Petruzzelli, and C. Ghisetti, “The impact of public research on the technological development of industry in the green energy field,” Technol. Forecast. Soc. Change, vol. 144, pp. 25–35, 2019. [26] P. Ilg, “How to foster green product innovation in an inert sector,” J. Innov. Knowl., vol. 4, no. 2, pp. 129–138, 2019. [27] J. Abbas and M. Sağsan, “Impact of knowledge management practices on green innovation and corporate sustainable development: A structural analysis,” J. Clean. Prod., vol. 229, pp. 611–620, 2019. [28] L. Frizziero, G. Donnici, D. Francia, G. Caligiana, and A. Gaddoni, “Stylistic design engineering (SDE) for an innovative green vehicle following QFD and TRIZ applications,” Int. J. Mech. Prod. Eng. Res. Dev, vol. 9, pp. 805–827, 2019. [29] A. Liverani, D. Francia, G. Caligiana, and S. Cantarelli, “Innovative hoverboard cad design and development for green urban mobility,” Int. J. Mech. Prod. Eng. Res. Dev., vol. 9, no. 3, pp. 1033–1050, 2019. [30] S. F. Subki and M. Mahazir, “Capability of building information modelling (BIM) in improving the efficiency of green building project in klang valley – A literature review,” Malaysian Constr. Res. J., vol. 7, no. Special issue 2, pp. 74–80, 2019. [31] M. Gonsalves and J. M. Rogerson, “Business incubators and green technology,” Urbani Izziv, vol. 30, pp. 212–224, 2019. [32] S. Luhar, T.-W. Cheng, D. Nicolaides, I. Luhar, D. Panias, and K. Sakkas, “Valorisation of glass waste for development of Geopolymer composites – Mechanical properties and rheological characteristics: A review,” Constr. Build. Mater., vol. 220, pp. 547–564, 2019. [33] L. J. Aaldering and C. H. Song, “Tracing the technological development trajectory in postlithium-ion battery technologies: A patentbased approach,” J. Clean. Prod., vol. 241, p. 118343, 2019. [34] R. Qi, T. Liu, Q. Jia, L. Sun, and J. Liu, “Simulating the sustainable effect of green mining construction policies on coal mining industry of China,” J. Clean. Prod., vol. 226, pp. 392–406, 2019. [35] H. Gao, Y. Ju, E. D. R. [Santibanez Gonzalez], and W. Zhang, “Green supplier selection in electronics manufacturing: An approach based on consensus decision making,” J. Clean. Prod., vol. 245, p. 118781, 2020. [36] Y. Fernando, C. J. C. Jabbour, and W.-X. Wah, “Pursuing green growth in technology firms through the connections between environmental innovation and sustainable business performance: does service capability matter?,” Resour. Conserv. Recycl., vol. 141, pp. 8–20, 2019. [37] C. Jayasinghe and N. Kamaladasa, “Compressive strength characteristics of cement stabilized rammed earth walls,” Constr. Build. Mater., vol. 21, no. 11, pp. 1971–1976, 2007. [38] K. Bohórquez González, E. Pacheco, A. Guzmán, Y. Avila Pereira, H. Cano Cuadro, and J. A. F. Valencia, “Use of sludge ash from drinking water treatment plant in hydraulic mortars,” Mater. Today Commun., vol. 23, Jun. 2020. [39] Bertolli, M., Roark, G., Urrutia, S., & Chiodi, F. (2017). Revisión de modelos de madurez en la medición del desempeño. INGE CUC, 13(1), 70-83. https://doi.org/10.17981/ingecuc.13.1.2017.07 [40] Rodríguez, L., Castellano, M., & Caridad, M. (2017). Planificación estratégica de recursos humanos en empresas de consumo masivo. IJMSOR: International Journal of Management Science & Operation Research, 2(1), 38-43. Recuperado a partir de http://ijmsoridi.com/index.php/ijmsor/article/vi ew/84
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spelling	Torres Lobo, Marco AntonioTaborda Arrieta, Lina MaríaGonzalez Zambrano, Raul HumbertoCano Zambrano, Heidis Patricia2020-07-15T17:01:49Z2020-07-15T17:01:49Z2019-05-17M. Torres Lobo, L. Taborda Arrieta, R. Gonzalez Zambrano, & H. Cano Zambrano “Green innovation at the industrial level: a systematic review”, IJMSOR, vol. 4, no. 1, 2019. https://doi. org/10.17981/ijmsor.04.01.032539-5416 electrónicohttps://hdl.handle.net/11323/6570https://doi.org/10.17981/ijmsor.04.01.0310.17981/ijmsor.04.01.032539-5416Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/The Green innovation describes to the evolution of humanity toward capacity of invention to technological and environmental change for cleaner production and sustainable development. The existing literature about this concept is recent and no systematic review of the literature on the topic. The objective of this study is to synthesize the existing literature on Green innovation and identifies concepts and applications in the industries, based on the specialized search - Scopus database. The systematic literature review was conducted, including 24 articles. Despite of the research the relationship between green innovation in companies remains unclear but in the construction sector the green innovation can be a potential sector with ability to lead the process sustainable and responsibilities to the environment since conception, construction, use and disposal the structure.La innovación verde describe la evolución de la humanidad hacia la capacidad de invención para un cambio tecnológico y ambiental y para una producción más limpia y un desarrollo sostenible. La literatura existente sobre el tema es reciente y no hay una revisión sistemática de la literatura. El objetivo de este estudio es sintetizar la literatura existente sobre innovación verde e identificar conceptos y aplicaciones en las industrias, en base a la búsqueda especializada de la base de datos Scopus. Se realizó una revisión sistemática de la literatura, que incluyó 24 artículos. A pesar de las investigaciones, la relación entre la innovación verde en las empresas sigue sin estar clara, pero en el sector de la construcción, la innovación verde puede ser un sector potencial con capacidad para liderar el proceso de manera sostenible y responsable con el medio ambiente desde la concepción, construcción, uso y eliminación de la estructura.Torres Lobo, Marco AntonioTaborda Arrieta, Lina MaríaGonzalez Zambrano, Raul HumbertoCano Zambrano, Heidis Patriciaapplication/pdfengFundación I+D+IIJMSOR; Vol. 4, Núm. 1 (2019)IJMSOR: International Journal of Management Science & Operation ResearchIJMSOR: International Journal of Management Science & Operation Research[1] M. Song, R. Fisher, and Y. Kwoh, “Technological challenges of green innovation and sustainable resource management with large scale data,” Technol. Forecast. Soc. Change, vol. 144, pp. 361–368, 2019.[2] M. Nuñez, J. Correa, G. Herrera, P. Gómez, S. Morón, y N. Fonseca, Estudio de percepción sobre energía limpia y auto sostenible, IJMSOR, vol. 3, n.º 1, pp. 11-15, dic. 2018.[3] M. Chareonpanich, P. Kongkachuichay, W. Donphai, T. Mungcharoen, and D. Huisingh, “Integrated transdisciplinary technologies for greener and more sustainable innovations and applications of Cleaner Production in the Asia– Pacific region,” J. Clean. Prod., vol. 142, pp. 1131–1137, 2017.[4] M. Shafique, R. Kim, and M. Rafiq, “Green roof benefits, opportunities and challenges – A review,” Renew. Sustain. Energy Rev., vol. 90, pp. 757–773, 2018.[5] W. Lu, V. W. Y. Tam, H. Chen, and L. Du, “A holistic review of research on carbon emissions of green building construction industry,” Eng. Constr. Archit. Manag., 2020.[6] M. Yeheyis, K. Hewage, M. S. Alam, C. Eskicioglu, and R. Sadiq, “An overview of construction and demolition waste management in Canada: A lifecycle analysis approach to sustainability,” Clean Technol. Environ. Policy, vol. 15, no. 1, pp. 81–91, 2013.[7] S. Yin and B. Li, “Academic research institutes-construction enterprises linkages for the development of urban green building: Selecting management of green building technologies innovation partner,” Sustain. Cities Soc., vol. 48, p. 101555, 2019.[8] F. J. Sáez-Martínez, G. Lefebvre, J. J. Hernández, and J. H. Clark, “Drivers of sustainable cleaner production and sustainable energy options,” J. Clean. Prod., vol. 138, pp. 1–7, 2016.[9] X. Xie, J. Huo, and H. Zou, “Green process innovation, green product innovation, and corporate financial performance: A content analysis method,” J. Bus. Res., vol. 101, pp. 697–706, 2019.[10] B. Tansel, “From electronic consumer products to e-wastes: Global outlook, waste quantities, recycling challenges,” Environ. Int., vol. 98, pp. 35–45, 2017.[11] ONU, “Transformando nuestro mundo: la agenda 2030 para el desarrollo sostenible.,” 2015. [Online]. Available: http://www.un.org/ga/search/view_doc.asp?sy mbol=A/RES/70/1&Lang=E.[12] P. Ilg, C. Scope, S. Muench, and E. Guenther, “Uncertainty in life cycle costing for longrange infrastructure. Part I: leveling the playing field to address uncertainties,” Int. J. life cycle Assess., vol. 22, no. 2, pp. 277–292, 2017.[13] S. Negny, J. P. Belaud, G. [Cortes Robles], E. [Roldan Reyes], and J. B. Ferrer, “Toward an eco-innovative method based on a better use of resources: application to chemical process preliminary design,” J. Clean. Prod., vol. 32, pp. 101–113, 2012.[14] L. M. Rivera Puerta and D. Córdoba Toro, “Revisión sistemática de las condiciones organizacionales de riesgo en empleados de Colombia y sus efectos en el bienestar,” 2016.[15] J. P. T. Higgins et al., Cochrane handbook for systematic reviews of interventions. John Wiley & Sons, 2019.[16] R. B. Briner and D. Denyer, Systematic Review and Evidence Synthesis as a Practice and Scholarship Tool. 2012.[17] L. Jia, Y. Zhao, and X.-J. Liang, “Fast evolving nanotechnology and relevant programs and entities in China,” Nano Today, vol. 6, no. 1, pp. 6–11, 2011.[18] W. T. Chong, M. S. Naghavi, S. C. Poh, T. M. I. Mahlia, and K. C. Pan, “Techno-economic analysis of a wind–solar hybrid renewable energy system with rainwater collection feature for urban high-rise application,” Appl. Energy, vol. 88, no. 11, pp. 4067–4077, 2011.[19] L. Hogaboam, A. Durmusoglu, T. Dereli, and T. Daim, “A Framework for Green/EcoInnovation Through Use of a Novel Measure: E/R,” Green Energy Technol., vol. 60, pp. 259–284, 2013.[20] G. Ilieva, J. Páscoa, A. Dumas, and M. Trancossi, “MAAT – Promising innovative design and green propulsive concept for future airship’s transport,” Aerosp. Sci. Technol., vol. 35, pp. 1–14, 2014.[21] H. Fujii and S. Managi, “Research and development strategy for environmental technology in Japan: A comparative study of the private and public sectors,” Technol. Forecast. Soc. Change, vol. 112, pp. 293–302, 2016.[22] C. Jayasinghe, W. M. C. D. J. Fonseka, and Y. M. Abeygunawardhene, “Load bearing properties of composite masonry constructed with recycled building demolition waste and cement stabilized rammed earth,” Constr. Build. Mater., vol. 102, pp. 471–477, 2016.[23] W. Goldsmith and T. Flanagan, “Value methodology--case studies within climate resilience and sustainability policy application,” Archit. Eng. Des. Manag., vol. 13, no. 1, pp. 3–21, 2017.[24] C. Y. Jim, “Green roof evolution through exemplars: Germinal prototypes to modern variants,” Sustain. Cities Soc., vol. 35, pp. 69– 82, 2017.[25] L. Ardito, A. M. Petruzzelli, and C. Ghisetti, “The impact of public research on the technological development of industry in the green energy field,” Technol. Forecast. Soc. Change, vol. 144, pp. 25–35, 2019.[26] P. Ilg, “How to foster green product innovation in an inert sector,” J. Innov. Knowl., vol. 4, no. 2, pp. 129–138, 2019.[27] J. Abbas and M. Sağsan, “Impact of knowledge management practices on green innovation and corporate sustainable development: A structural analysis,” J. Clean. Prod., vol. 229, pp. 611–620, 2019.[28] L. Frizziero, G. Donnici, D. Francia, G. Caligiana, and A. Gaddoni, “Stylistic design engineering (SDE) for an innovative green vehicle following QFD and TRIZ applications,” Int. J. Mech. Prod. Eng. Res. Dev, vol. 9, pp. 805–827, 2019.[29] A. Liverani, D. Francia, G. Caligiana, and S. Cantarelli, “Innovative hoverboard cad design and development for green urban mobility,” Int. J. Mech. Prod. Eng. Res. Dev., vol. 9, no. 3, pp. 1033–1050, 2019.[30] S. F. Subki and M. Mahazir, “Capability of building information modelling (BIM) in improving the efficiency of green building project in klang valley – A literature review,” Malaysian Constr. Res. J., vol. 7, no. Special issue 2, pp. 74–80, 2019.[31] M. Gonsalves and J. M. Rogerson, “Business incubators and green technology,” Urbani Izziv, vol. 30, pp. 212–224, 2019.[32] S. Luhar, T.-W. Cheng, D. Nicolaides, I. Luhar, D. Panias, and K. Sakkas, “Valorisation of glass waste for development of Geopolymer composites – Mechanical properties and rheological characteristics: A review,” Constr. Build. Mater., vol. 220, pp. 547–564, 2019.[33] L. J. Aaldering and C. H. Song, “Tracing the technological development trajectory in postlithium-ion battery technologies: A patentbased approach,” J. Clean. Prod., vol. 241, p. 118343, 2019.[34] R. Qi, T. Liu, Q. Jia, L. Sun, and J. Liu, “Simulating the sustainable effect of green mining construction policies on coal mining industry of China,” J. Clean. Prod., vol. 226, pp. 392–406, 2019.[35] H. Gao, Y. Ju, E. D. R. [Santibanez Gonzalez], and W. Zhang, “Green supplier selection in electronics manufacturing: An approach based on consensus decision making,” J. Clean. Prod., vol. 245, p. 118781, 2020.[36] Y. Fernando, C. J. C. Jabbour, and W.-X. Wah, “Pursuing green growth in technology firms through the connections between environmental innovation and sustainable business performance: does service capability matter?,” Resour. Conserv. Recycl., vol. 141, pp. 8–20, 2019.[37] C. Jayasinghe and N. Kamaladasa, “Compressive strength characteristics of cement stabilized rammed earth walls,” Constr. Build. Mater., vol. 21, no. 11, pp. 1971–1976, 2007.[38] K. Bohórquez González, E. Pacheco, A. Guzmán, Y. Avila Pereira, H. Cano Cuadro, and J. A. F. 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Green innovation at the industrial level: a systematic review

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