Tracking Secondary Raw Material Operational Framework—DataOps Case Study DOI Creative Commons
Gabriel Pestana, Marisa Almeida,

Nelson Martins

et al.

Ceramics, Journal Year: 2025, Volume and Issue: 8(1), P. 12 - 12

Published: Jan. 28, 2025

The ceramic and glass industries, integral to the EU Emissions Trading System (EU ETS), face significant challenges in achieving decarbonization despite advancements energy efficiency. circular economy offers a promising pathway, emphasizing reuse recycling of waste materials into secondary raw (SRMs) reduce resource consumption emissions. This study investigates standardized supply chain framework, developed collaboratively with stakeholders, tailored for sector. Waste Resource Platform (WRP) integrates Industry 4.0 paradigms, utilizing modular, layered architecture process-centric design. framework includes experimental tests co-creation methodologies refine digital marketplace that connects facilitates SRM exchange, fosters industrial symbiosis. WRP demonstrates potential SRMs replace virgin materials, reducing environmental impacts production costs. It enhances transparency through traceability, promotes predictive material sourcing, streamlines logistics via algorithmic optimization. Challenges such as regulatory gaps quality standards are addressed processes, open data governance, innovative algorithms. project advances goals sector, promoting reuse, symbiosis, resilience. Its standardized, open-access platform scalable model other fostering sustainable practices efficiency while addressing global climate targets.

Language: Английский

The Role of the Triple Helix Model in Promoting the Circular Economy: Government-Led Integration Strategies and Practical Application DOI Creative Commons
Maximilian Espuny, José Salvador da Motta Reis, Élen Cristina Bravos Giupponi

et al.

Recycling, Journal Year: 2025, Volume and Issue: 10(2), P. 50 - 50

Published: March 20, 2025

The Circular Economy (CE) has become an essential management model to address the environmental challenges of traditional linear employed by companies, protecting society and ecosystems from resource depletion intensified ecological emissions. Thus, this study proposes a framework with recommendations for CE implementation, structured around Triple Helix (TH) designed be government-led in guiding joint actions among government, organizations, academia. comprises 21 distributed across six interconnected stages: (1) Policy Generation Academic Inputs, (2) Development Pilot Projects Industry, (3) Analysis Validation Results, (4) Improvement Scaling, (5) Promotion Innovation Technology Transfer, (6) Global Connection Replicability. These stages collectively enhance policies practices, accelerating transition CE. This underscores importance regionally adapted public policies, technological innovations extend material lifespans, promotion conscious consumption. It also emphasizes need intersectoral collaboration foster sustainability efficiency management. Methodologically, employs integrative review map technical scientific practices United Kingdom, China, States. theoretical contribution validates TH as strategic tool developing Furthermore, practical is pathway implementing CE, detailing main phases actors ensure effective operationalization circular strategies.

Language: Английский

Citations

1
Tracking Secondary Raw Material Operational Framework—DataOps Case Study DOI Creative Commons
Gabriel Pestana, Marisa Almeida,

Nelson Martins

et al.

Ceramics, Journal Year: 2025, Volume and Issue: 8(1), P. 12 - 12

Published: Jan. 28, 2025

The ceramic and glass industries, integral to the EU Emissions Trading System (EU ETS), face significant challenges in achieving decarbonization despite advancements energy efficiency. circular economy offers a promising pathway, emphasizing reuse recycling of waste materials into secondary raw (SRMs) reduce resource consumption emissions. This study investigates standardized supply chain framework, developed collaboratively with stakeholders, tailored for sector. Waste Resource Platform (WRP) integrates Industry 4.0 paradigms, utilizing modular, layered architecture process-centric design. framework includes experimental tests co-creation methodologies refine digital marketplace that connects facilitates SRM exchange, fosters industrial symbiosis. WRP demonstrates potential SRMs replace virgin materials, reducing environmental impacts production costs. It enhances transparency through traceability, promotes predictive material sourcing, streamlines logistics via algorithmic optimization. Challenges such as regulatory gaps quality standards are addressed processes, open data governance, innovative algorithms. project advances goals sector, promoting reuse, symbiosis, resilience. Its standardized, open-access platform scalable model other fostering sustainable practices efficiency while addressing global climate targets.

Language: Английский

Citations

0