Knowledge Agora

Title	Intensive Data and Knowledge-Driven Approach for Sustainability Analysis: Application to Lignocellulosic Waste Valorization Processes
ID_Doc	16233
Authors	Belaud, JP; Prioux, N; Vialle, C; Buche, P; Destercke, S; Barakat, A; Sablayrolles, C
Title	Intensive Data and Knowledge-Driven Approach for Sustainability Analysis: Application to Lignocellulosic Waste Valorization Processes
Year	2022
Published	Waste And Biomass Valorization, 13, 1
Abstract	The use of circular economy is becoming more and more important, particularly in the field of agriculture, a major provider of waste. In particular, a lot of researches are being done to transform the lignocellulosic waste from agriculture through desired "sustainable" processes. Sustainable processes mean economically viable, socially accepted, and environmentally responsible processes. Thanks to the "life cycle thinking", it is possible to assess such potential environmental impacts. However, these environmental analyzes require a lot of specific data, whose collection can be long and tedious, or simply impossible in practice. On the other hand, the huge amount of scientific articles describing the processes of valorization of co-products of agriculture constitutes a great, largely under-exploited source of data. Knowledge engineering (KE) tools can be used to compile processes and analyze them. In this paper, we propose an innovative approach, based on intensive data and KE methods, to help a decision maker to choose between different pretreatment processes and different biomasses. The main goal is to develop an intensive, semi-automated data collection approach and an associated tool for assistance with choices in a circular economy context. It is defined by five steps: (1) goal and scope, (2) intensive data and knowledge and the allocation of flows and releasesstructuration and integration, (3) life cycle inventory (LCI), (4) sustainability assessment and (5) analysis and ranking. The study of 13 pretreatment processes of rice straw and corn stover validate our proposal.
PDF

Similar Articles

ID	Score	Article
28589		Prioux, N; Ouaret, R; Hetreux, G; Belaud, JP Environmental assessment coupled with machine learning for circular economy(2023)Clean Technologies And Environmental Policy, 25.0, 2
7172		Romero-Perdomo, F; González-Curbelo, MA Integrating Multi-Criteria Techniques in Life-Cycle Tools for the Circular Bioeconomy Transition of Agri-Food Waste Biomass: A Systematic Review(2023)Sustainability, 15, 6
6469		Belaud, JP; Prioux, N; Vialle, C; Sablayrolles, C Big data for agri-food 4.0: Application to sustainability management for by-products supply chain(2019)
17042		Oldfield, TL; White, E; Holden, NM The implications of stakeholder perspective for LCA of wasted food and green waste(2018)
6074		Alan, H; Köker, AR Analyzing and mapping agricultural waste recycling research: An integrative review for conceptual framework and future directions(2023)
15714		Sumiyati, S; Samadikun, BP; Widiyanti, A; Budihardjo, MA; Al Qadar, S; Puspita, AS Life cycle assessment of agricultural waste recycling for sustainable environmental impact(2024)Global Journal Of Environmental Science And Management-Gjesm, 10, 2
16212		Marcelino, S; Gaspar, PD; Paço, A Sustainable Waste Management in the Production of Medicinal and Aromatic Plants-A Systematic Review(2023)Sustainability, 15, 18
27398		Gontard, N; Sonesson, U; Birkved, M; Majone, M; Bolzonella, D; Celli, A; Angellier-Coussy, H; Jang, GW; Verniquet, A; Broeze, J; Schaer, B; Batista, AP; Sebok, A A research challenge vision regarding management of agricultural waste in a circular bio-based economy(2018)Critical Reviews In Environmental Science And Technology, 48.0, 6
2185		Haque, F; Fan, CH; Lee, YY From waste to value: Addressing the relevance of waste recovery to agricultural sector in line with circular economy(2023)
1784		Santagata, R; Ripa, M; Genovese, A; Ulgiati, S Food waste recovery pathways: Challenges and opportunities for an emerging bio-based circular economy. A systematic review and an assessment(2021)