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Mr. Máté Zavarkó
Corvinus University of Budapest, Institute of Management, Department of Management and Organization

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0 Change Management
0 Innovation Management
0 Organization Management
0 Energy Technologies
0 Power-to-Gas

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Journal article
Published: 16 August 2021 in Sustainability
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Innovative power-to-X (P2X) technologies, as a set of emerging new solutions, could play a crucial role in creating sustainable, carbon-neutral economies, such as the hydrogen economy. These technologies, however, are generally not yet implemented on a commercial scale. This research focuses on how innovative, digital inter-organizational knowledge networks of industry representatives and universities could contribute to the commercial implementation of P2X technologies and increase the pace of sustainable hydrogen-based development. The findings of an extended case study with a hybrid (qualitative–quantitative) methodology and a five-year time horizon, suggest the need for a digital knowledge platform, where universities and industry representatives add and combine their knowledge. In contrast with expectations, however, the empirical results show that academia would, not only be capable of supporting the exploration of new solutions, but foster the exploitation of more mature technologies as well. Similarly, large energy companies could also drive exploratory activities, not only exploitative ones. The findings highlight the possible central role of the “system builder” actor, who integrates exploitative-explorative learning and facilitates the formation of a (digital) innovation ecosystem. By exceeding the dominant techno-economic and environmental aspects, this research contributes to the literature by highlighting the applicability of network-based innovation management theory for hydrogen economy research.

ACS Style

Zoltán Csedő; Máté Zavarkó; Balázs Vaszkun; Sára Koczkás. Hydrogen Economy Development Opportunities by Inter-Organizational Digital Knowledge Networks. Sustainability 2021, 13, 9194 .

AMA Style

Zoltán Csedő, Máté Zavarkó, Balázs Vaszkun, Sára Koczkás. Hydrogen Economy Development Opportunities by Inter-Organizational Digital Knowledge Networks. Sustainability. 2021; 13 (16):9194.

Chicago/Turabian Style

Zoltán Csedő; Máté Zavarkó; Balázs Vaszkun; Sára Koczkás. 2021. "Hydrogen Economy Development Opportunities by Inter-Organizational Digital Knowledge Networks." Sustainability 13, no. 16: 9194.

Journal article
Published: 19 April 2021 in Energies
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Power-to-methane (P2M) technology is expected to have a great impact on the future of the global energy sector. Despite the growing amount of related research, its potential disruptive impact has not been assessed yet. This could significantly influence investment decisions regarding the implementation of the P2M technology. Based on a two-year-long empirical research, the paper focuses on exploring the P2M technology deployment potential in different commercial environments. Results are interpreted within the theoretical framework of disruptiveness. It is concluded that P2M has unique attributes because of renewable gas production, grid balancing, and combined long-term energy storage with decarbonization, which represent substantial innovation. Nevertheless, empirical data suggest that the largest P2M plants can be deployed at industrial facilities where CO2 can be sourced from flue gas. Therefore, a significant decrease of carbon capture technology related costs could enable the disruption potential of the P2M technology in the future, along with further growth of renewable energy production, decarbonization incentives, and significant support of the regulatory environment.

ACS Style

Gábor Pörzse; Zoltán Csedő; Máté Zavarkó. Disruption Potential Assessment of the Power-to-Methane Technology. Energies 2021, 14, 2297 .

AMA Style

Gábor Pörzse, Zoltán Csedő, Máté Zavarkó. Disruption Potential Assessment of the Power-to-Methane Technology. Energies. 2021; 14 (8):2297.

Chicago/Turabian Style

Gábor Pörzse; Zoltán Csedő; Máté Zavarkó. 2021. "Disruption Potential Assessment of the Power-to-Methane Technology." Energies 14, no. 8: 2297.

Journal article
Published: 22 September 2020 in Energies
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Power-to-methane technology (P2M) deployment at wastewater treatment plants (WWTPs) for seasonal energy storage might land on the agenda of decision-makers across EU countries, since large WWTPs produce a notable volume of biogas that could be injected into the natural gas grid with remarkable storage capacities. Because of the recent rapid increase of local photovoltaics (PV), it is essential to explore the role of WWTPs in energy storage and the conditions under which this potential can be realized. This study integrates a techno-economic assessment of P2M technology with commercial/investment attractiveness of seasonal energy storage at large WWTPs. Findings show that a standardized 1 MWel P2M technology would fit with most potential sites. This is in line with the current technology readiness level of P2M, but increasing electricity prices and limited financial resources of WWTPs would decrease the commercial attractiveness of P2M technology deployment. Based on a Hungarian case study, public funding, biomethane feed-in tariff and minimized or compensated surplus electricity sourcing costs are essential to realize the energy storage potential at WWTPs.

ACS Style

Zoltán Csedő; Botond Sinóros-Szabó; Máté Zavarkó. Seasonal Energy Storage Potential Assessment of WWTPs with Power-to-Methane Technology. Energies 2020, 13, 4973 .

AMA Style

Zoltán Csedő, Botond Sinóros-Szabó, Máté Zavarkó. Seasonal Energy Storage Potential Assessment of WWTPs with Power-to-Methane Technology. Energies. 2020; 13 (18):4973.

Chicago/Turabian Style

Zoltán Csedő; Botond Sinóros-Szabó; Máté Zavarkó. 2020. "Seasonal Energy Storage Potential Assessment of WWTPs with Power-to-Methane Technology." Energies 13, no. 18: 4973.

Journal article
Published: 13 December 2019 in Vezetéstudomány / Budapest Management Review
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ACS Style

Zoltán Csedő; Máté Zavarkó. Változás, tudás és innováció a vezetéstudományban: elméleti modellek elemzése és értelmezése. Vezetéstudomány / Budapest Management Review 2019, 50, 173 -184.

AMA Style

Zoltán Csedő, Máté Zavarkó. Változás, tudás és innováció a vezetéstudományban: elméleti modellek elemzése és értelmezése. Vezetéstudomány / Budapest Management Review. 2019; 50 (12):173-184.

Chicago/Turabian Style

Zoltán Csedő; Máté Zavarkó. 2019. "Változás, tudás és innováció a vezetéstudományban: elméleti modellek elemzése és értelmezése." Vezetéstudomány / Budapest Management Review 50, no. 12: 173-184.