@book{MTMT:33206834, title = {The Emerging Economies under the Dome of the Fourth Industrial Revolution}, url = {https://m2.mtmt.hu/api/publication/33206834}, isbn = {9781009092142}, author = {Esposito, Mark and Kapoor, Amit}, doi = {10.1017/9781009092142}, publisher = {Cambridge University Press & Assessment}, unique-id = {33206834}, abstract = {The Fourth Industrial Revolution (4IR) is reshaping the globe at a rate far quicker than earlier revolutions. It is also having a greater influence on society and industry. We are currently witnessing extraordinary technology such as self-driving cars and 3D printing, as well as robots that can follow exact instructions. And hitherto unconnected sectors are combining to achieve unfathomable effects. It is critical to comprehend this new era of technology since it will significantly alter life during the next several years in this age of technological advancement. In particular, one of the most significant findings is that 4IR technologies must be used responsibly and to benefit people, companies and countries as a whole; as a result, the development of artificial intelligence, the Internet of Things, blockchain, and robotics systems will be advanced most effectively by grouping a multidisciplinary team from areas such as computer science, education and social sciences.}, year = {2022} } @article{MTMT:33207707, title = {Feasibility Study of Raw Material for Hybrid Power Plant in Coastal Cilacap Selatan}, url = {https://m2.mtmt.hu/api/publication/33207707}, author = {Musyafiq, Afrizal Abdi and Prasetia, Vicky and Purwiyanto, Purwiyanto and Susanti, Hera and Ilahi, Novita Asma and Purnata, Hendi and Rahmat, Saepul}, doi = {10.33019/jurnalecotipe.v9i2.2991}, journal-iso = {JurnalEcotipe}, journal = {Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering)}, volume = {9}, unique-id = {33207707}, issn = {2355-5068}, abstract = {Cilacap Regency is a coastal area south of the island of Java. The purpose of this study is to determine the potential of raw materials available in the South Cilacap Coastal area and to determine the potential power that can be generated for the PLTH system through the calculation of the raw material data that has been obtained. This research method begins with direct measurements of wind speed and light intensity. Both devices read data in real time and connect online. The data obtained is processed to determine the wind speed and the average intensity of sunlight. The results of these calculations are entered into the equations to calculate the potential power that can be generated. Based on the calculation, the average wind speed is 3-4 m/s and the light intensity is 54612 watt/m2. The results of the calculation of the potential power that can be generated from the PLTB system in the coastal area of ​​South Cilacap is equivalent to 508 watts/day. The potential power that can be generated from PLTS is 10.8 kW/day. The total potential power that can be generated from the PLTH system on the coast of South Cilacap is equivalent to 273.22 kWh/day.}, year = {2022}, eissn = {2622-4852}, pages = {133-139} } @article{MTMT:32557369, title = {A Review on Utilization Routes of the Leather Industry Biomass}, url = {https://m2.mtmt.hu/api/publication/32557369}, author = {Ayele, Million and Limeneh, Derseh Yilie and Tesfaye, Tamrat and Mengie, Wassie and Abuhay, Amare and Haile, Adane and Gebino, Gemeda}, doi = {10.1155/2021/1503524}, journal-iso = {ADV MATER SCI ENG}, journal = {ADVANCES IN MATERIALS SCIENCE AND ENGINEERING}, volume = {2021}, unique-id = {32557369}, issn = {1687-8434}, year = {2021}, eissn = {1687-8442}, pages = {1-15}, orcid-numbers = {Ayele, Million/0000-0002-0744-6246} } @article{MTMT:34550156, title = {FORMATION OF A SYSTEM OF INDICATORS FOR ASSESSING THE IMPLEMENTATION OF THE CIRCULAR ECONOMY CONCEPT IN THE REGIONS OF THE RUSSIAN FEDERATION}, url = {https://m2.mtmt.hu/api/publication/34550156}, author = {Gutman, S.S. and Manakhova, M.S.}, doi = {10.37614/2220-802X.2.2021.72.007}, journal-iso = {SEVER RYNOK}, journal = {SEVER I RYNOK: FORMIROVANIE EKONOMICHESKOGO PORYADKA}, volume = {24}, unique-id = {34550156}, issn = {2220-802X}, year = {2021}, pages = {81-95} } @article{MTMT:31836149, title = {Catalyzed-like water enhanced mechanism of CO2 conversion to methanol}, url = {https://m2.mtmt.hu/api/publication/31836149}, author = {Hadjadj, Rachid and Csizmadia, Imre Gyula and Mizsey, Péter and Viskolcz, Béla and Fiser, Béla}, doi = {10.1016/j.arabjc.2020.102955}, journal-iso = {ARAB J CHEM}, journal = {ARABIAN JOURNAL OF CHEMISTRY}, volume = {14}, unique-id = {31836149}, issn = {1878-5352}, year = {2021}, eissn = {1878-5379}, orcid-numbers = {Hadjadj, Rachid/0000-0001-5468-5939; Mizsey, Péter/0000-0002-6976-6210; Fiser, Béla/0000-0003-0603-4626} } @article{MTMT:31950632, title = {Energy efficiency in leading emerging and developed countries}, url = {https://m2.mtmt.hu/api/publication/31950632}, author = {Popkova, E.G. and Sergi, B.S.}, doi = {10.1016/j.energy.2020.119730}, journal-iso = {ENERGY}, journal = {ENERGY}, volume = {221}, unique-id = {31950632}, issn = {0360-5442}, abstract = {This paper defines the diverging interests of multiple actors in typically achieving and advancing energy efficiency. Gaps in the literature include the short elaboration of energy efficiency factors and conditions and the lack of information about developed and developing countries and thorough consideration of their specific features, impeding the development and implementation of detailed energy efficiency management strategies. It is against this backdrop that this paper seeks to identify the essence of energy efficiency and developing specific recommendations for achieving the most beneficial effect and well-balanced energy efficiency on the global scale, within the achievements of international goals in sustainable development. The paper exposes the critical factors of energy efficiency, accurately models the best energy efficiency characteristics, and settles the best energy consumption structure. The methodological purpose is to find different energy efficiency scenarios and disentangle fundamental differences in energy efficiency in developed and developing countries. The paper indicates that the reasonable likelihood of noteworthy achievement results in energy efficiency with insignificant mid-term changes. We give recommendations about well-balanced energy efficiency on the global scale and global progress in sustainable development. © 2021 Elsevier Ltd}, keywords = {Planning; Optimization; energy consumption; Beneficial effects; Renewable energy; Energy resources; Developing Countries; Developing Countries; Developed Countries; accuracy assessment; Sustainable development; Sustainable development; Fuel consumption; strategic approach; Energy efficiency; Energy efficiency; Energy efficiency; Energy utilization; developing world; Critical factors; management practice; Corporate energy responsibility; Energy innovations; Efficiency characteristic; Efficiency factor; Efficiency managements; Energy consumption structure; Multiple actors}, year = {2021}, eissn = {1873-6785} } @article{MTMT:32101182, title = {Elaboração de Roadmap Tecnológico e de Modelo de Negócios de Economia Circular}, url = {https://m2.mtmt.hu/api/publication/32101182}, author = {Tavares, A. S. and Borschiver, S.}, journal-iso = {CADERNOS DE PROSPECCAO}, journal = {CADERNOS DE PROSPECCAO}, volume = {14}, unique-id = {32101182}, issn = {1983-1358}, year = {2021}, eissn = {2317-0026}, pages = {810-823} } @article{MTMT:32101176, title = {Recent strategies and trends in implanting of renewable energy sources for sustainability – A review}, url = {https://m2.mtmt.hu/api/publication/32101176}, author = {Vivek, C.M. and Ramkumar, P. and Srividhya, P.K. and Sivasubramanian, M.}, doi = {10.1016/j.matpr.2021.03.208}, journal-iso = {MATER TOD PROC}, journal = {MATERIALS TODAY: PROCEEDINGS}, volume = {46}, unique-id = {32101176}, issn = {2214-7853}, year = {2021}, pages = {8204-8208} } @article{MTMT:32101198, title = {ФОРМИРОВАНИЕ СИСТЕМЫ ИНДИКАТОРОВ ОЦЕНКИ РЕАЛИЗАЦИИ КОНЦЕПЦИИ ЦИРКУЛЯРНОЙ ЭКОНОМИКИ В РЕГИОНАХ РОССИЙСКОЙ ФЕДЕРАЦИИ}, url = {https://m2.mtmt.hu/api/publication/32101198}, author = {С. С., Гутман and М. С., Манахова}, journal-iso = {SEVER RYNOK}, journal = {SEVER I RYNOK: FORMIROVANIE EKONOMICHESKOGO PORYADKA}, volume = {2}, unique-id = {32101198}, issn = {2220-802X}, year = {2021}, pages = {81-95} } @article{MTMT:31950633, title = {Potential for transition to circular economy in regions of the Russian Arctic}, url = {https://m2.mtmt.hu/api/publication/31950633}, author = {Gutman, S. and Teslya, A.}, doi = {10.1088/1755-1315/539/1/012064}, journal-iso = {IOP CONF SER EARTH AND ENVIRON SCI}, journal = {IOP CONFERENCE SERIES: EARTH AND ENVIRONMENTAL SCIENCE}, volume = {539}, unique-id = {31950633}, issn = {1755-1307}, abstract = {The paper considers the issues related to maintaining the environmental safety of regions in the context of sustainable development. We have established that the goals of circular economy, aimed at saving resources and using regenerative environmentally friendly production technologies are correlated with the goals of achieving sustainable development. We have analyzed Russia's existing legislation concerning the principles of circular economy and sustainable development. We have found there is currently no unified integrated strategy aimed making the transition to circular economy. We have analyzed the indicators from the standpoint of their correlation with the goals of sustainable development, approaches of other countries and statistical data available. We have developed a system of indicators for assessing the level of circular economy in the context of sustainable development, adapted for regional specifics in view of the the current level of environmental monitoring. The results of analysis were used to make recommendations for establishing the conditions favoring the transition to circular economy, including at the regional level. © Published under licence by IOP Publishing Ltd.}, keywords = {Planning; Environmental Monitoring; Sustainable development; Production technology; circular economy; environmental safety; Statistical datas; Integrated strategy; system of indicators; Saving resources}, year = {2020}, eissn = {1755-1315} } @article{MTMT:31430485, title = {Water enhanced mechanism for CO2 - Methanol conversion}, url = {https://m2.mtmt.hu/api/publication/31430485}, author = {Hadjadj, Rachid and Csizmadia, Imre Gyula and Mizsey, Péter and Jensen, Svend Knak and Viskolcz, Béla and Fiser, Béla}, doi = {10.1016/j.cplett.2020.137298}, journal-iso = {CHEM PHYS LETT}, journal = {CHEMICAL PHYSICS LETTERS}, volume = {746}, unique-id = {31430485}, issn = {0009-2614}, abstract = {Carbon dioxide can be converted into fine chemicals such as methanol and thus, the produced renewable energy can be stored in chemical bonds through reductions. To achieve this, a water enhanced mechanism of CO2 hydrogenation leading to methanol has been designed by applying 1:3 (CO2 + 3H(2)) extended with a water molecule and a hydronium. The thermodynamic properties of the intermediate species and transition states have been calculated by using the W1U composite method. The energy efficiency of the studied mechanism is 27.1%. By understanding the mechanism, special purpose catalysts can be designed to accelerate carbon dioxide conversion.}, keywords = {climate change; Energy storage; Computational study; CARBON DIOXIDE HYDROGENATION}, year = {2020}, eissn = {1873-4448}, orcid-numbers = {Mizsey, Péter/0000-0002-6976-6210; Fiser, Béla/0000-0003-0603-4626} } @article{MTMT:31666853, title = {Facile Preparation of a Laponite/PVA Mixed Matrix Membrane for Efficient and Sustainable Pervaporative Dehydration of C1–C3 Alcohols}, url = {https://m2.mtmt.hu/api/publication/31666853}, author = {Selim, Asmaa Khaled Mohamed and Tóth, András József and Fózer, Dániel and Süvegh, Károly and Mizsey, Péter}, doi = {10.1021/acsomega.0c04380}, journal-iso = {ACS OMEGA}, journal = {ACS OMEGA}, volume = {5}, unique-id = {31666853}, issn = {2470-1343}, year = {2020}, eissn = {2470-1343}, pages = {32373-32385}, orcid-numbers = {Tóth, András József/0000-0002-5787-8557; Süvegh, Károly/0000-0001-8147-0546; Mizsey, Péter/0000-0002-6976-6210} } @article{MTMT:31762264, title = {Thermodynamic limitations of synthetic fuel production using carbon dioxide: A cleaner methanol-to-gasoline process}, url = {https://m2.mtmt.hu/api/publication/31762264}, author = {Szczygiel, Jerzy and Kulazynski, Marek}, doi = {10.1016/j.jclepro.2020.122790}, journal-iso = {J CLEAN PROD}, journal = {JOURNAL OF CLEANER PRODUCTION}, volume = {276}, unique-id = {31762264}, issn = {0959-6526}, abstract = {Industry generates to the atmosphere greater and greater amounts of CO(2)harmful to the environment. Its use as a raw material in the production of synthetic fuels realizes the idea of 'Clean Production', in which products are made is a sustainable environment conditions. A chemical model was created using an innovative chemical process of CO(2)and H(2)synthesis. A thermodynamic analysis of such a process was carried out, determining energy barriers and favourable conditions for its course. This model's process comprises reactions representing three of its stages :1) synthesis of methanol (METH) and dimethyl ether (DME) with CO(2)and H-2, 2) conversion of the mixture of methanol, ether and water into light olefins and 3) hydrogenation of olefins (C-2-C-6) to the mixture of paraffins - gasoline. Calculations were made for changes for enthalpy and Gibbs free energy of respective reactions for each stage. The analysis showed that at no stage of the process the level of energy barrier does not exclude (in terms of technology) the possibility of the execution of the process. The equilibrium conversion of CO(2)within the temperature range (T): = 475-575 K, for p = 1 MPa, and H-2/CO2 = 3/1 remains within 20-25%, at products selectivity DME/METH/CO = 0.73/0.14/0.17, at 475 K and 0.0038/0.013/0.98 at 573 K. Olefins are produced in exothermic reactions of DME and METH conversion and the changes in their yield with temperature run through maximum values, which along with increase of carbons in the olefin are shifted towards lower temperatures. Thermal effects Delta H) of the olefin hydrogenation reaction are similar and are their values range between (-124) and (-137) KJ/mol. Thermodynamic limitations for these reactions no longer exist for temperature <950 K, and their lower conversion at higher temperature can be compensated with increase in pressure (Chatelier's principle). (C) 2020 Elsevier Ltd. All rights reserved.}, keywords = {Thermodynamic analysis; CARBON DIOXIDE HYDROGENATION; Methanol synthesis; Methanol-to-Gasoline process; Gibbs free energy minimisation method}, year = {2020}, eissn = {1879-1786} } @article{MTMT:31950636, title = {Catalytic Reduction of CO2 to CO via Reverse Water Gas Shift Reaction: Recent Advances in the Design of Active and Selective Supported Metal Catalysts}, url = {https://m2.mtmt.hu/api/publication/31950636}, author = {Zhu, M. and Ge, Q. and Zhu, X.}, doi = {10.1007/s12209-020-00246-8}, journal-iso = {TRANSACTIONS OF TIANJIN UNIVERSITY}, journal = {TRANSACTIONS OF TIANJIN UNIVERSITY}, volume = {26}, unique-id = {31950636}, issn = {1995-8196}, abstract = {The catalytic conversion of CO2 to CO via a reverse water gas shift (RWGS) reaction followed by well-established synthesis gas conversion technologies may provide a potential approach to convert CO2 to valuable chemicals and fuels. However, this reaction is mildly endothermic and competed by a strongly exothermic CO2 methanation reaction at low temperatures. Therefore, the improvement in the low-temperature activities and selectivity of the RWGS reaction is a key challenge for catalyst designs. We reviewed recent advances in the design strategies of supported metal catalysts for enhancing the activity of CO2 conversion and its selectivity to CO. These strategies include varying support, tuning metal–support interactions, adding reducible transition metal oxide promoters, forming bimetallic alloys, adding alkali metals, and enveloping metal particles. These advances suggest that enhancing CO2 adsorption and facilitating CO desorption are key factors to enhance CO2 conversion and CO selectivity. This short review may provide insights into future RWGS catalyst designs and optimization. © 2020, The Author(s).}, keywords = {MECHANISM; TEMPERATURE; transition metals; Carbon Dioxide; Carbon Dioxide; Catalyst activity; Catalyst supports; chemical shift; CATALYTIC CONVERSION; Catalyst selectivity; Catalytic reduction; alkali metals; Selective catalytic reduction; transition metal oxides; METHANATION; METHANATION; Transition metal alloys; water gas shift; reverse water gas shift; reverse water gas shift reaction; valuable chemicals; reverse water-gas shift reaction; Low-temperature activity; Supported metal catalyst; Support interaction; Supported-metal catalysts}, year = {2020}, eissn = {1006-4982}, pages = {172-187} } @article{MTMT:30944194, title = {Optimisation and process design tools for cleaner production}, url = {https://m2.mtmt.hu/api/publication/30944194}, author = {Fan, Yee Van and Chin, Hon Huin and Klemeš, Jiří Jaromír and Varbanov, Petar Sabev and Liu, Xia}, doi = {10.1016/j.jclepro.2019.119181}, journal-iso = {J CLEAN PROD}, journal = {JOURNAL OF CLEANER PRODUCTION}, volume = {247}, unique-id = {30944194}, issn = {0959-6526}, year = {2019}, eissn = {1879-1786} }