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Ozgul Calicioglu
Ozgul Calicioglu
Environmental Engineer, The World Bank
Verified email at worldbank.org
Title
Cited by
Cited by
Year
The future challenges of food and agriculture: An integrated analysis of trends and solutions
O Calicioglu, A Flammini, S Bracco, L Bellý, R Sims
Sustainability 11 (1), 222, 2019
428*2019
Assessing the contribution of bioeconomy to the total economy: A review of national frameworks
S Bracco, O Calicioglu, M Gomez San Juan, A Flammini
Sustainability 10 (6), 1698, 2018
2112018
Linking the bioeconomy to the 2030 sustainable development agenda: Can SDG indicators be used to monitor progress towards a sustainable bioeconomy?
÷ Calicioglu, A Bogdanski
New Biotechnology 61, 40-49, 2021
1002021
Indicators to monitor and evaluate the sustainability of bioeconomy
S Bracco, A Tani, ÷ «alıcıoğlu, M Gomez San Juan, A Bogdanski
Overview and a Proposed Way Forward, 2019
62*2019
Sequential ethanol fermentation and anaerobic digestion increases bioenergy yields from duckweed
O Calicioglu, RA Brennan
Bioresource technology 257, 344-348, 2018
562018
Techno-economic analysis and life cycle assessment of an integrated wastewater-derived duckweed biorefinery
O Calicioglu, PV Femeena, CL Mutel, DL Sills, TL Richard, RA Brennan
ACS Sustainable Chemistry & Engineering 9 (28), 9395-9408, 2021
422021
Effect of pH and temperature on microbial community structure and carboxylic acid yield during the acidogenic digestion of duckweed
O Calicioglu, MJ Shreve, TL Richard, RA Brennan
Biotechnology for biofuels 11, 1-19, 2018
422018
Anaerobic bioprocessing of wastewater-derived duckweed: Maximizing product yields in a biorefinery value cascade
O Calicioglu, TL Richard, RA Brennan
Bioresource technology 289, 121716, 2019
332019
Carbon-to-nitrogen and substrate-to-inoculum ratio adjustments can improve co-digestion performance of microalgal biomass obtained from domestic wastewater treatment
O Calicioglu, GN Demirer
Environmental technology 40 (5), 614-624, 2019
272019
Biogas production from waste microalgal biomass obtained from nutrient removal of domestic wastewater
O Calicioglu, GN Demirer
Waste and biomass valorization 7, 1397-1408, 2016
192016
Role of microalgae in circular economy
O Calicioglu, GN Demirer
Integrated wastewater management and valorization using algal cultures, 1-12, 2022
132022
Integrated nutrient removal and biogas production by Chlorella vulgaris cultures
O Calicioglu, GN Demirer
Journal of Renewable and Sustainable Energy 7 (3), 2015
112015
Duckweed growth model for large-scale applications: Optimizing harvesting regime and intrinsic growth rate via machine learning to maximize biomass yields
O Calicioglu, MY Sengul, PV Femeena, RA Brennan
Journal of Cleaner Production 324, 129120, 2021
82021
Analysis of standards, certifications and labels for bio-based products in the context of sustainable bioeconomy
S Bracco, ÷ Calicioglu, A Flammini, MG San Juan, A Bogdanski
International Journal of Standardization Research (IJSR) 17 (1), 1-22, 2019
62019
Technical, economic, and environmental feasibility of wastewater-derived duckweed biorefineries
AO Calicioglu
The Pennsylvania State University, 2019
32019
Linking bioeconomy with sustainable development goals: identifying and monitoring socio-ecological opportunities and challenges of bioeconomy
÷ Calicioglu
Biodiversity and Bioeconomy, 47-59, 2024
12024
Parallel Nutrient Removal and Biogas Production by Chlorella Vulgaris Cultures
O Calicioglu, GN Demirer
12014
Biogas generation from microalgal biomass and the effect of pretreatment
GC Ogut, B Konakli, O Calicioglu, TH Erguder, B Kaymak, GN Demirer
Journal of Selcuk University Natural and Applied Science, 872-881, 2013
12013
Biodiversity and Bioeconomy: Status Quo, Challenges, and Opportunities
K Singh, MC Ribeiro, O Calicioglu
Elsevier, 2023
2023
Unlocking the Global Potential of Waste Biorefining: Scaling Up or Scaling Down?
O Calicioglu
Handbook of Waste Biorefinery: Circular Economy of Renewable Energy, 981-989, 2022
2022
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