Conference proceedings

Displaying 11 - 20 of 35 in Circular economy and industrial symbiosis (remove filter)

CEST Proceedings are published under the ISSN 2944-9820.

Green Strategies and Business Ecosystems

Sołoducho-Pelc L., (Corresponding) Sulich A.
Topic: 
Circular economy and industrial symbiosis
The green strategies together with decisions create a business ecosystem in the Environmental Goods and Services Sector (EGSS). Such an ecosystem is a result of both technological development and strategy evolution. This paper aims to present and discuss the outcomes (as relations) of this sector...Read more
Keywords: 
Green Management, Green Decisions, Environmental Goods and Services Sector, Circular Economy.
Paper ID: 
cest2021_00046

The Circular Economy Shift for Business Models: Creating value from waste in the Peach Canning industry

(Corresponding) Paraskevopoulou C., Vlachos D.
Topic: 
Circular economy and industrial symbiosis
With the Circular Economy (CE) concept emerging, the reorganization of the supply chain (SC) and the reengineering of its processes is highlighted. In Greece, industrialized agriculture and more specifically the peach canning industry can be an important factor for the economy within and outside...Read more
Keywords: 
Circular Economy, Sustainability, Peach Canning, peach kernel utilization, peach waste management
Paper ID: 
cest2021_00085

Circular Economy and Green Economy: a network analysis

(Corresponding) Sulich A., (Corresponding) Ferasso M., (Corresponding) Sołoducho-Pelc L.
Topic: 
Circular economy and industrial symbiosis
Circular Economy and Green Economy are very popular concepts in modern scientific business management literature. Several papers already addressed both concepts as synonymous while others distinguish them differently. Based on this conceptual gap, this paper aims to shed a light on these topics by...Read more
Keywords: 
Circular Economy; Green Economy, Sustainability; network analysis.
Paper ID: 
cest2021_00101

The Lombard Dairy Industry in the Perspective of Circular Economy: Degree of Application and Improvement Potentials

(Corresponding) Mehner E., Fantin V., Pizzichini D., Vergalli S., Vaccari M.
Topic: 
Circular economy and industrial symbiosis
Circular Economy is an economic concept, aiming at increasing resource efficiency, recirculating resource streams and minimizing waste of an industrial process. Thereby, ideally, environmental impacts can be decreased while the profitability of the considered process is improved. This concept is...Read more
Keywords: 
cheese production, sustainability, resource efficiency, by-product valorization, waste recovery
Paper ID: 
cest2021_00215

Quantification of feedstocks and outputs for a regional Bioeconomy using the AD Biorefinery concept.

(Corresponding) Curry R., Blaine L.
Topic: 
Circular economy and industrial symbiosis
Greenhouse gas emissions (GHG’s) from agriculture in Northern Ireland account for over 27% of regional emissions, as opposed to 7% for the UK overall, leaving the region with challenges in meeting climate abatement targets. The development of a sustainable regional Bioeconomy has been identified as...Read more
Keywords: 
Bioeconomy, anaerobic digestion, gasification, biogas, syngas, biochar.
Paper ID: 
cest2021_00247

Shipyards and Ship breaking: Opportunities for utilization of steel under the prism of Circular Economy

(Corresponding) Pournara A., Sakkas V.
Topic: 
Circular economy and industrial symbiosis
Among the activities that constitute the process of dismantling a ship is the obligation of proper management of hazardous materials. As almost the entire ship can be recycled, reused or even resold, the ship dismantling industry can also be considered a "green" industry. The steel used...Read more
Keywords: 
Ship breaking, Steel, Circular Economy, Industry, Shipyard
Paper ID: 
cest2021_00289

Bioleaching of valuable elements from red mud using autochthonous biomass

(Corresponding) Cozzolino A., Cappai G., Cara S., Milia S., Carucci A.
Topic: 
Circular economy and industrial symbiosis
Red mud (RM) is the main residue produced by the alkaline extraction of aluminum from bauxite, and it contains valuable metals (e.g., iron, aluminum, titanium, silicon). Aim of this research was to investigate the biologically induced leaching of valuable elements from RM using autochthonous...Read more
Keywords: 
bioleaching, circular economy, metals recovery, red mud.
Paper ID: 
cest2021_00308

Evaluation of Pressure-Driven Membrane Processes for Nutrients Recovery from Dilute Effluents

Tsaridou C., Karanasiou A., (Corresponding) Plakas K., Karabelas A.
Topic: 
Circular economy and industrial symbiosis
Results are presented from an ongoing R&D project, aiming at full utilization of dairy-industry effluents. Development of a membrane-based method is pursued, for treatment of digestate (after fermentation yielding bio-gas) to recover nutrients (N-NH4, P-PO4) and water for reuse/recycling or...Read more
Keywords: 
nanofiltration, ultra-low-pressure reverse osmosis, dairy industry effluents, anaerobic digestate, ammonium and phosphorous recovery
Paper ID: 
cest2021_00354

Implementing Circular Economy in Wineries: The Case of Greece

(Corresponding) Kounani A., Sotiropoulou E., Seleventi M.
Topic: 
Circular economy and industrial symbiosis
Grape is considered one of the largest fruit crops in the world, since its 2017 production, the vast majority of which was used in winemaking, reached 74 MT globally and 24 MT in the EU. The main target of this paper is to highlight the urgent need for transforming the linear model into a circular...Read more
Keywords: 
circular economy, winery, wine industry, agriculture, wine waste management
Paper ID: 
cest2021_00534

Comparison the effectiveness of three outranking multicriteria methods as analytical tools for the efficiency assessment of biorefineries/ waste-to-energy technologies

Isigonis P., (Corresponding) Vakalis S.
Topic: 
Circular economy and industrial symbiosis
Circular Economy is at the heart of the EU Green Deal, Europe’s new agenda for sustainable growth. Waste Management has been firmly focusing on material and energy recovery, through the development of policy schemes and the utilization of resource recovery facilities. Waste-to-energy technologies...Read more
Keywords: 
Waste-to-energy, Biorefineries, Multicriteria analysis, Thermodynamics, 3T Method
Paper ID: 
cest2021_00540