@inproceedings{BuergerFloresAlsinaArellanoGarciaetal., author = {B{\"u}rger, Patrick and Flores-Alsina, Xavier and Arellano-Garcia, Harvey and Gernaey, Krist V.}, title = {Improving the prediction of phosphate dynamics in biotechnological processes: A case study based on antibiotic production using Streptomyces coelicolor}, series = {27th European Symposium on Computer Aided Process Engineering, Spain, 2017}, booktitle = {27th European Symposium on Computer Aided Process Engineering, Spain, 2017}, editor = {Espu{\~n}a, Antonio and Graells, Mois{\`e}s and Puigjaner, Luis}, publisher = {Elsevier}, address = {Amsterdam}, isbn = {978-0-444-63965-3}, pages = {2869 -- 2874}, language = {en} } @misc{BuergerFloresAlsinaArellanoGarciaetal., author = {B{\"u}rger, Patrick and Flores-Alsina, Xavier and Arellano-Garcia, Harvey and Gernaey, Krist V.}, title = {Improved Prediction of Phosphorus Dynamics in Biotechnological Processes by Considering Precipitation and Polyphosphate Formation: A Case Study on Antibiotic Production with Streptomyces coelicolor}, series = {Industrial \& engineering chemistry research}, volume = {57}, journal = {Industrial \& engineering chemistry research}, issn = {1520-5045}, doi = {10.1021/acs.iecr.7b05249}, abstract = {Improved Prediction of Phosphorus Dynamics in Biotechnological Processes by Considering Precipitation and Polyphosphate Formation: A Case Study on Antibiotic Production with Streptomyces coelicolor}, language = {en} } @misc{GonzalezCastanoNavarrodeMiguelSinhaetal., author = {Gonz{\´a}lez-Casta{\~n}o, Miriam and Navarro de Miguel, Juan Carlos and Sinha, F. and Ghomsi Wabo, Samuel and Klepel, Olaf and Arellano-Garcia, Harvey}, title = {Cu supported Fe-SiO2 nanocomposites for reverse water gas shift reaction}, series = {Journal of CO2 Utilization}, volume = {46}, journal = {Journal of CO2 Utilization}, issn = {2212-9820}, doi = {10.1016/j.jcou.2021.101493}, pages = {8}, abstract = {This work analyses the catalytic activity displayed by Cu/SiO2, Cu-Fe/SiO2 and Cu/FSN (Fe-SiO2 nanocomposite) catalysts for the Reverse Water Gas Shift reaction. Compared to Cu/SiO2 catalyst, the presence of Fe resulted on higher CO's selectivity and boosted resistances against the constitution of the deactivation carbonaceous species. Regarding the catalytic performance however, the extent of improvement attained through incorporation Fe species strongly relied on the catalysts' configuration. At 30 L/gh and H2:CO2 ratios = 3, the performance of the catalysts' series increased according to the sequence: Cu/SiO2 < Cu-Fe/SiO2 << Cu/FSN. The remarkable catalytic enhancements provided by Fe-SiO2 nanocomposites under different RWGS reaction atmospheres were associated to enhanced catalyst surface basicity's and stronger Cu-support interactions. The catalytic promotion achieved by Fe-SiO2 nanocomposites argue an optimistic prospective for nanocomposite catalysts within future CO2-valorising technologies.}, language = {en} } @misc{GonzalezCastanoIvanovaIoanidesetal., author = {Gonz{\´a}lez-Casta{\~n}o, Miriam and Ivanova, Svetlana and Ioanides, Theophiles and Centeno, Miguel Angel and Arellano-Garcia, Harvey and Odriozola, Jos{\´e} Antonio}, title = {Zr and Fe on Pt/CeO2-MOx/Al2O3 catalysts for WGS reaction}, series = {International Journal of Energy Research}, journal = {International Journal of Energy Research}, issn = {1099-114X}, doi = {10.1002/er.6646}, pages = {12}, abstract = {By evaluating the functional modifications induced by Zr and Fe as dopants in Pt/CeO2-MOx/Al2O3 catalysts (M = Fe and Zr), the key features for improving water gas shift (WGS) performance for these systems have been addressed. Pt/ceria intrinsic WGS activity is often related to improved H2 surface dynamics, H2O absorption, retentions and dissociation capacities which are influenced greatly by the support nature. Two metals, iron and zirconia, were chosen as ceria dopants in this work, either in separate manner or combined. Iron incorporation resulted in CO-redox properties and oxygen storage capacities (OSC) improvement but the formation of Ce-Fe solid solutions did not offer any catalytic benefit, while the Zr incorporation influenced in a great manner surface electron densities and shows higher catalytic activity. When combined both metals showed an important synergy evidenced by 30\% higher CO conversions and attributed to greater surface electron densities population and therefore absorption and activity. This work demonstrates that for Pt/ceria catalysts OSC enhancement does not necessarily imply a catalytic promotion.}, language = {en} } @misc{GonzalezAriasGonzalezCastanoArellanoGarciaetal., author = {Gonz{\´a}lez-Arias, Judith and Gonz{\´a}lez-Casta{\~n}o, Miriam and Arellano-Garc{\´i}a, Harvey and Lichtfouse, Eric and Zhang, Zhien}, title = {Unprofitability of small biogas plants without subsidies in the Brandenburg region}, series = {Environmental Chemistry Letters}, journal = {Environmental Chemistry Letters}, issn = {1610-3661}, doi = {10.1007/s10311-020-01175-7}, pages = {7}, abstract = {The circular economy is calling for the rapid use of already-developed renewable energies. However, the successful implementation of those new fuels is limited by economic and political issues. For instance, in the Brandenburg region, Germany, biogas production from anaerobic digestion of biomass and wastes is a current alternative. However, the upgrading biogas to biomethane is still challenging and the economic viability is unknown. Therefore, we performed an economic analysis for biogas upgrading to biomethane in the Brandenburg region. Five biogas plant sizes were analyzed by the method of discounted cash flow. This method yields the net present value of the projects, thus revealing the profitability or non-profitability of the plants. Results indicate profitable outputs for medium and large plants, with net present values between 415 and 7009 k€. However, the smallest plants have net present values from -4250 to -3389 k€, thus needing further economic efforts or subsidies to reach profitability. Indeed, biomethane prices should range between 52.1 and 95.6 €/MWh to make these projects profitable. Combinations of 50\% of investment subsidized and 11.5 €/MWh feed-in tariffs subsidies could make the projects reach profitability. These findings reveal that political actions such as green policies and subsidies are needed to implement green energy. This case study should serve as a potential tool for policy-makers toward a sustainable bioeconomy.}, language = {en} } @misc{BaenaMorenoGonzalezCastanoArellanoGarciaetal., author = {Baena-Moreno, Francisco Manuel and Gonz{\´a}lez-Casta{\~n}o, Miriam and Arellano-Garcia, Harvey and Ramirez Reina, Tomas}, title = {Exploring profitability of bioeconomy paths: Dimethyl ether from biogas as case study}, series = {Energy}, volume = {225}, journal = {Energy}, issn = {0360-5442}, doi = {10.1016/j.energy.2021.120230}, pages = {9}, abstract = {Herein a novel path is analysed for its economic viability to synergize the production of biomethane and dimethyl ether from biogas. We conduct a profitability analysis based on the discounted cash flow method. The results revealed an unprofitable process with high cost/revenues ratios. Profitable scenarios would be reached by setting prohibitive DME prices (1983-5566 €/t) or very high feed-in tariffs subsidies (95.22 €/MWh in the best case scenario). From the cost reduction side, the analysis revealed the need of reducing investment costs. For this purpose, we propose a percentage of investment as incentive scheme. Although the size increase benefits cost/revenues ratio, only the 1000 m3/h biogas plant size will reach profitability if 90\% of the investment is subsidized. A sensitivity analysis to check the influence of some important economical parameters is also included. Overall this study evidences the big challenge that our society faces in the way towards a circular economy.}, language = {en} } @misc{GonzalezCastanoSacheBerryetal., author = {Gonz{\´a}lez-Casta{\~n}o, Miriam and Sach{\´e}, Estelle le and Berry, Cameron and Pastor-P{\´e}rez, Laura and Arellano-Garcia, Harvey and Wang, Qiang and Ramirez Reina, Tomas}, title = {Nickel Phosphide Catalysts as Efficient Systems for CO2 Upgrading via Dry Reforming of Methane}, series = {Catalysts}, volume = {11}, journal = {Catalysts}, number = {4}, issn = {2073-4344}, doi = {10.3390/catal11040446}, abstract = {This work establishes the primordial role played by the support's nature when aimed at the constitution of Ni2P active phases for supported catalysts. Thus, carbon dioxide reforming of methane was studied over three novel Ni2P catalysts supported on Al2O3, CeO2 and SiO2-Al2O3 oxides. The catalytic performance, shown by the catalysts' series, decreased according to the sequence: Ni2P/Al2O3 > Ni2P/CeO2 > Ni2P/SiO2-Al2O3. The depleted CO2 conversion rates discerned for the Ni2P/SiO2-Al2O3 sample were associated to the high sintering rates, large amounts of coke deposits and lower fractions of Ni2P constituted in the catalyst surface. The strong deactivation issues found for the Ni2P/CeO2 catalyst, which also exhibited small amounts of Ni2P species, were majorly associated to Ni oxidation issues. Along with lower surface areas, oxidation reactions might also affect the catalytic behaviour exhibited by the Ni2P/CeO2 sample. With the highest conversion rate and optimal stabilities, the excellent performance depicted by the Ni2P/Al2O3 catalyst was mostly related to the noticeable larger fractions of Ni2P species established}, language = {en} } @misc{GonzalezCastanoHaniKourGonzalezAriasetal., author = {Gonz{\´a}lez-Casta{\~n}o, Miriam and Hani Kour, M. and Gonz{\´a}lez-Arias, Judith and Baena-Moreno, Francisco Manuel and Arellano-Garcia, Harvey}, title = {Promoting bioeconomy routes: From food waste to green biomethane. A profitability analysis based on a real case study in eastern Germany}, series = {Journal of Environmental Management}, volume = {300}, journal = {Journal of Environmental Management}, issn = {0301-4797}, doi = {10.1016/j.jenvman.2021.113788}, abstract = {Profitability studies are needed to establish the potential pathways required for viable biomethane production in the Brandenburg region of Germany. This work study the profitability of a potential biomethane production plant in the eastern German region of Brandenburg, through a specific practical scenario with data collected from a regional biogas plant located in Alteno (Schradenbiogas GmbH \& Co. KG). Several parameters with potential economic influence such as distance of the production point to the grid, waste utilization percentage, and investment, were analyzed. The results illustrate a negative overall net present value with the scenario of no governmental investment, even when considering trading the CO2 obtained throughout the process. Subsidies needed to reach profitability varied with distance from 13.5 €/MWh to 19.3 €/MWh. For a fixed distance of 15 kms, the importance of percentage of waste utilization was examined. Only 100\% of waste utilization and 75\% of waste utilization would reach profitability under a reasonable subsidies scheme (16.3 and 18.8 €/MWh respectively). Concerning the importance of investment, a subsidized investment of at least 70\% is demanded for positive net present values. Besides, the sensitivity analysis remarks the energy consumption of the biogas upgrading stage, the electricity price, and the energy consumption of biogas production as major parameters to be tackled for the successful implementation of biogas upgrading plants. The results here obtained invite to ponder about potential strategies to further improve the economic viability of this kind of renewable projects. In this line, using the CO2 separated to produce added-value chemicals can be an interesting alternative.}, language = {en} } @misc{GonzalezAriasGonzalezCastanoSanchezetal., author = {Gonz{\´a}lez-Arias, Judith and Gonz{\´a}lez-Casta{\~n}o, Miriam and S{\´a}nchez, Marta Elena and Cara-Jim{\´e}nez, Jorge and Arellano-Garcia, Harvey}, title = {Valorization of biomass-derived CO2 residues with Cu-MnOx catalysts for RWGS reaction}, series = {Renewable Energy}, journal = {Renewable Energy}, number = {182}, issn = {1879-0682}, doi = {10.1016/j.renene.2021.10.029}, pages = {443 -- 451}, abstract = {This study delivers useful understanding towards the design of effective catalytic systems for upgrading real CO2erich residual streams derived from biomass valorization. Within this perspective, a catalysts' series based on (5 wt\%) Cu - (X wt\%) Mn/Al2O3with X¼0, 3, 8, and 10 is employed. The improved catalyst performance achieved through Mn incorporation is ascribed to enhanced Cu dispersions and promoted surface basic concentrations. Under standard RWGS conditions, the highest reaction rates achieved by(5 wt\%) Cu - (8 wt\%) Mn/Al2O3catalyst were associated to improved Cu dispersions along with the constitution of highly active Cu-MnOxdomains. Remarkably, variations on the optimal Cu to Mn ratios were detected as a function of the RWGS reaction conditions. Thus, under simulated CO2-rich residual feedstock's, i.e., in presence of CO and CH4, the further promotion on the Cu dispersion attained by the larger amounts of MnOxrendered the (5 wt\%) Cu - (10 wt\%) Mn/Al2O3catalyst as the best performing sample. Overall, the presented outcomes underline operative strategies for developing catalytic systems with advanced implementation potentialities.}, language = {en} } @misc{GonzalezAriasBaenaMorenoGonzalezCastanoetal., author = {Gonz{\´a}lez-Arias, Judith and Baena-Moreno, Francisco Manuel and Gonz{\´a}lez-Casta{\~n}o, Miriam and Arellano-Garcia, Harvey}, title = {Economic approach for CO2 valorization from hydrothermal carbonization gaseous streams via reverse water-gas shift reaction}, series = {Fuel}, volume = {313}, journal = {Fuel}, issn = {0016-2361}, doi = {10.1016/j.fuel.2021.123055}, pages = {1 -- 7}, abstract = {In this work the economic performance of valorizing the gaseous stream coming from hydrothermal carbonization (HTC) of olive tree pruning is presented as a novel strategy to improve the competitiveness of HTC. The valorization of the commonly disregarded gaseous stream produced in this thermochemical treatment was proposed via the Reverse Water-Gas Shift reaction. This allows to obtain syngas for selling and therefore improving the overall economic performance of the process. To this end, three plant sizes were selected (312.5, 625 and 1250 kg/h of biomass processing). The parameters with a higher share in the total cost distribution along with the revenues from the hydrochar and the syngas selling were further evaluated. The results evidenced that with the assumptions taken, the overall process is still not profitable. To reach profitability, syngas selling prices between 2.2 and 3.4 €/m3 are needed, revealing that this proposal is not economically attractive. Alternatively, a lack of competitiveness in the current market is revealed with hydrochar selling prices between 0.41 and 0.64 €/kg to make the project profitable. The catalyst cost, sharing approximately 20\% of the total cost, is the parameter with the highest impact in the total economics of the process. The second one is the hydrogen price production, representing almost 16\% of the total. Investment subsidies are also examined as a potential tool to cover part of the initial investment. These results evidenced that further efforts and measures are needed to push forward in the path towards circular economy societies.}, language = {en} }