Bibliografías temáticas / Energy industries – Technological innovations – Fiction

Literatura académica sobre el tema "Energy industries – Technological innovations – Fiction"

Autor: Grafiati

Publicado: 26 de julio de 2024

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Artículos de revistas sobre el tema "Energy industries – Technological innovations – Fiction"

Radicic, Dragana y Jonathan Pinto. "Collaboration with External Organizations and Technological Innovations: Evidence from Spanish Manufacturing Firms". Sustainability 11, n.º 9 (27 de abril de 2019): 2479. http://dx.doi.org/10.3390/su11092479.

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Based on the two knowledge dimensions of availability and accessibility, this study investigates the influence of cooperation with external organizations on technological, product, and process innovations. Using longitudinal data from Spanish manufacturing firms, we estimate dynamic random-effects probit models and thus take into account that technological innovations exhibit persistent behavior. We find that cooperation with suppliers and universities is positively associated with both product and process innovations. However, sectoral analysis according to technological intensity reveals that cooperation with suppliers increases the propensity to technological innovation in industries with a higher degree of technological intensity, while cooperation with universities increases the likelihood of innovation in industries with a lower degree of technological intensity. Moreover, empirical results indicate a high degree of true or genuine state dependence in both types of innovations. Based on these findings, we discuss the theoretical, managerial, and policy implications of the study.

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Sharp, Lucy. "Materials technology: Innovations and progress". Impact 2020, n.º 2 (15 de abril de 2020): 52–53. http://dx.doi.org/10.21820/23987073.2020.2.52.

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Materials technology is a constantly evolving discipline, with new materials leading to novel applications. For example, new material properties arise from combining different materials into composites. Researching materials can help solve societal challenges, with the creation of innovative materials resulting in breakthroughs in overcoming hurdles facing humankind, including energy challenges and medical problems. Innovative materials breathe new life into industries and spur on scientific and technological discovery.

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Gallyamova, Dinara Kh y Marina V. Shinkevich. "Forecasting the Energy Capacity of Petrochemical Productions Under Conditions of Technological Transformations". International Journal of Energy Economics and Policy 12, n.º 1 (19 de enero de 2022): 200–206. http://dx.doi.org/10.32479/ijeep.12651.

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The purpose of the study is to identify patterns of energy-saving development of the petrochemical industry in the context of the introduction of innovations and to predict the energy intensity of the industry based on economic and mathematical modeling. As part of achieving the goal, an analysis of the series of dynamics was carried out and prognostic methods based on variant correlation analysis and regression modeling were applied. At the first stage of the study, the dynamics of energy consumption and costs of innovative activities in the development of petrochemical industries in Russia was assessed; at the second stage, a predictive model of changes in the energy intensity of petrochemical industries was built. As a result of the study, the regularities of the development of petrochemical industries in Russia were revealed (stable reduction in energy consumption, unstable dynamics of unit costs for innovative activities of petrochemical industries); the nature of the influence of technological modernization of production on the level of energy intensity is determined, which is manifested in the difference in sectoral accents of innovative development; regression equations are proposed, reflecting the dependence of the energy intensity of petrochemical industries on the volume of sales of industry products; calculated the predicted values of energy intensity, allowing to develop a set of management measures to support the energy efficient development of industry in Russia. The formulated conclusions and results can serve as a basis for improving the strategic directions of development of the petrochemical industry in Russia, taking into account the prioritization of the implementation of energy-saving innovative solutions.

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Razumovskaya, Elena, Denis Razumovsky y Zhenglian Tang. "Modeling of scenarios for the implementation of eco-technological innovation to ensure transition to a low carbon economy based on game theory". SHS Web of Conferences 128 (2021): 03009. http://dx.doi.org/10.1051/shsconf/202112803009.

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Achieving sustainable economic development is achieved by high-tech innovations in the field of IT. The orientation of technical innovations towards the ecological principles of organizing modern industries in all sectors of the economy is designed to ensure the transition to a low-carbon model of global development. At the first stage of the transition, it is planned to create and apply systems for reducing greenhouse gas emissions through quotas and tax incentives. The advantages and disadvantages of a low-carbon model are extremely difficult to assess in practice, since such an assessment is associated with predictive calculations of external effects. In order to overcome these difficulties, the authors made an attempt to apply the methods of mathematical modeling from the standpoint of game theory. In particular, a model analysis of the strategy of highly toxic, polluting and high-energy-intensive industries in the public sector and the investment strategy of eco-technological innovations of private companies was carried out. Based on the results of game modeling, the authors proposed a project for a new energy system “UHV technology”, which involves investment financing of technical innovations of a low-carbon model for the development of the territories of the People’s Republic of China.

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Quan, Mengqi, Quan Guo, Qing Xia y Min Zhou. "Research on the Effects of Environmental Regulations on Industrial-Technological Innovation Based on Pressure Transmission". Sustainability 13, n.º 19 (4 de octubre de 2021): 11010. http://dx.doi.org/10.3390/su131911010.

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This paper investigates the transmission of pressure between the public, relevant government departments, and industrial firms through the use of formal environmental regulations. The data include formal environmental regulations issued from 2005 to 2019 in 179 cities in 27 provinces in China. The intermediary effect model and the threshold effect model are used to carry out research studies on the relationships between public-participated environmental regulations, formal environmental regulations, and industrial-technological innovations. Results indicate that: (1) Pressure is transmitted between the public, and relevant government sectors and industries. For instance, public-participated environmental regulations pressure relevant government departments to apply strong formal environmental regulations on industrial sectors. (2) Labor and capital have a positive moderating effect on the effect of formal environmental regulations on industrial-technological innovations. (3) Both public-participated and formal environmental regulations promote industrial-technological innovations. (4) There is a threshold effect in formal environmental regulations. For instance, when the intensity of public-participated environmental regulations is higher than 93, the role of formal environmental regulations in promoting industrial-technological innovation can be completely maximized.

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Chen, Shuxing, Xiangyang Du, Junbing Huang y Cheng Huang. "The Impact of Foreign and Indigenous Innovations on the Energy Intensity of China’s Industries". Sustainability 11, n.º 4 (20 de febrero de 2019): 1107. http://dx.doi.org/10.3390/su11041107.

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China’s industrial sectors have an approximate consumption amounting to 70% of the aggregate power of the entire country. Investigating the driving forces of the decline in the energy intensity is essential for accelerating China’s conversion into a low-carbon economy. Nowadays, there has been no agreement as yet when it comes to the impacts of China’s industrial sectors on energy intensity. The current research work studies the impacts of key driving forces, in particular foreign as well as indigenous innovations, on China’s industrial energy intensity in 34 industrial sectors between 2000 and 2010. Linear and nonlinear analysis methodologies are put to use. The linear empirical findings show that indigenous innovation primarily contributes to driving down the industrial energy intensity across the sampling duration. The foreign innovations, which take the shape of FDI as well as imports, are seen as benefiting the decline in industrial energy intensity; on the other hand, exports ramp up the industrial energy intensity. An additional investigation, on the basis of the panel threshold framework, indicates that the impact of foreign innovations by means of openness as well as industrial energy intensity has an association with the technological absorptive potential. The empirical evidence puts forward some pivotal inferences for policymakers with regard to China’s declining industrial energy intensity—for instance, exploitation of the maximum benefit associated with the technology spillovers; in addition, it is important to take into consideration the attributes and scenarios that impact industrial energy intensity.

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Teodoriu, Catalin y Opeyemi Bello. "An Outlook of Drilling Technologies and Innovations: Present Status and Future Trends". Energies 14, n.º 15 (26 de julio de 2021): 4499. http://dx.doi.org/10.3390/en14154499.

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The present article analyzes the technological advancement and innovations related to drilling operations. It covers the review of currently proven and emerging technologies that could mitigate the drilling operational deficiencies and instabilities that could hinder operational performance activities and the economic part of drilling development with great effort to minimize their environmental footprint. Drilling system design and operations are among the major aspects and cost-effective endeavors of the oil and gas industries, which are therefore technology dependent. They are also considered to be among the most expensive operations in the world, as they require huge expenses daily. Drilling success, depending on prevalent conditions, is a function of several general factors. These include the selection of the best technologies and tools, procedural optimization, concrete problem-solving, accurate prediction, and rapid decision-making. Consequently, any sorts of tools or advanced technologies that can improve the time-efficient operational and economic performance of drilling activities are essential and demanded. The paper provides a review of available technologies and developmental innovations based on both company-based and academic research-enabled drilling solutions over the past 5 years in the field of drilling systems and technological design. The paper further highlighted potential technologies that could be tapped in from other industries and could possibly be adopted by pushing the conventional boundaries of drilling operations.

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Onyinyechukwu Chidolue, Bright Ngozichukwu, Kenneth Ifeanyi Ibekwe, Valentine Ikenna Illojianya, Adetomilola Victoria Fafure y Cosmas Dominic Daudu. "Decarbonization strategies in energy-intensive industries: Cases from Canada, USA, and Africa". International Journal of Science and Research Archive 11, n.º 1 (30 de enero de 2024): 361–70. http://dx.doi.org/10.30574/ijsra.2024.11.1.0065.

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This research paper delves into "Decarbonization Strategies in Energy-Intensive Industries: Cases from Canada, the United States, and Africa." Against escalating global concerns about climate change, energy-intensive industries stand at the forefront of environmental impact, necessitating urgent and effective decarbonization measures. Through a comprehensive analysis, this study aims to unravel the diverse strategies employed in three distinct regions—Canada, the United States, and Africa—each marked by unique economic, social, and environmental contexts. The exploration begins with an in-depth examination of the current landscape of decarbonization strategies, encompassing technological innovations, policy and regulatory frameworks, and market-based approaches. A comparative analysis uncovers commonalities and distinct challenges across the selected regions, shedding light on the nuanced dynamics of sustainable industrial development. Barriers such as economic viability, technological adoption challenges, and socio-economic impacts are scrutinized alongside enablers like government leadership, technological innovation, and sustainable finance. The paper outlines prospects for decarbonization, envisioning advancements in green technologies, the integration of circular economy principles, and the evolution of resilient energy systems. Grounded in these prospects, strategic recommendations are proposed, emphasizing the need for holistic policy frameworks, public-private collaboration, incentivizing sustainable finance, investing in research and development, and embracing a just transition approach. In conclusion, this research contributes a holistic understanding of the complex interplay between strategies, challenges, and prospects in the pursuit of decarbonization in energy-intensive industries. The insights garnered provide a blueprint for policymakers, industry leaders, and stakeholders to navigate the intricate path toward a sustainable and resilient industrial future.

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Shobande, Olatunji A. y Lawrence Ogbeifun. "Exploring the Criticality of Natural Resources Management and Technological Innovations for Ecological Footprint in the OECD Countries". Journal of Developing Areas 58, n.º 1 (enero de 2024): 157–70. http://dx.doi.org/10.1353/jda.2024.a924520.

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ABSTRACT: The urgent imperative to confront the complex interplay between managing natural resources and fostering technological innovation, particularly in OECD countries, has become a focal point in global conversations. It is abundantly clear that critical issues such as the rampant overexploitation of our natural resources, insufficient embrace of sustainable practices, and the profound repercussions of technological advancements on our ecological footprint demand meticulous scrutiny and comprehensive action. This scrutiny is vital to guide the formulation of judicious policies and strategies capable of addressing these complex challenges. The challenges faced by OECD countries, distinguished by their advanced industrialization, and elevated standards of living, are further compounded by the depletion of natural resources resulting from extensive economic activities. The extraction and utilization of resources, encompassing water, minerals, and energy, emerge as significant contributors to ecological degradation. The heightened demand for raw materials to sustain technological industries has precipitated the overexploitation and depletion of natural resources, manifesting in activities such as mining, deforestation, and other extraction processes, leading to habitat destruction and biodiversity loss. Furthermore, the manufacturing and utilization of technology, particularly within industries heavily reliant on non-renewable energy sources, have been substantial contributors to pollution and greenhouse gas emissions. The study assesses the dynamic relationship between natural resources, economic growth, and technological innovation with respect to ecological footprints. It analyses the annual data series of a panel of 20 organisation for economic cooperation and development countries using the second-generation cointegration panel and cross-sectional autoregressive distributed lag methodology. The results of the slope coefficient confirm the existence of slope heterogeneity among countries. Furthermore, it affirms the long-term relationship among variables. Overall, the findings highlight the importance of effective utilisation of resources while investing in technological innovation to attain sustainable development goals.

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Liu, Chang Qing. "Principal Factors Preventing China Environmental Risk (CER): Project Angle". Advanced Materials Research 610-613 (diciembre de 2012): 3144–48. http://dx.doi.org/10.4028/www.scientific.net/amr.610-613.3144.

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Studies on principal factors preventing CER (China Environmental Risk) from Project Angle are seldom found, so we studied principal factors preventing CER (China Environmental Risk) from Project Angle in this thesis, including their selection, sequence and contribution. By our analysis, principal factors preventing CER (China Environmental Risk) from project angle can be ordered by contribution as follows: general management, projects for primary industries, energy projects, and public transportation projects. And our related advice is as follows: first, careful protection of natural environment. Secondly strict surveillance on production of waste from such projects as projects for primary industries, energy projects, and public transportation projects, etc. by market management, and public management, etc.. And thirdly great encouragement to arouse interest in technological innovations friendly with the environment in waste disposal, etc..

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Tesis sobre el tema "Energy industries – Technological innovations – Fiction"

Estep, Judith. "Development of a Technology Transfer Score for Evaluating Research Proposals| Case Study of Demand Response Technologies in the Pacific Northwest". Thesis, Portland State University, 2017. http://pqdtopen.proquest.com/#viewpdf?dispub=10248715.

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Investment in Research and Development (R&D) is necessary for innovation, allowing an organization to maintain a competitive edge. The U.S. Federal Government invests billions of dollars, primarily in basic research technologies to help fill the pipeline for other organizations to take the technology into commercialization. However, it is not about just investing in innovation, it is about converting that research into application. A cursory review of the research proposal evaluation criteria suggests that there is little to no emphasis placed on the transfer of research results. This effort is motivated by a need to move research into application.

One segment that is facing technology challenges is the energy sector. Historically, the electric grid has been stable and predictable; therefore, there were no immediate drivers to innovate. However, an aging infrastructure, integration of renewable energy, and aggressive energy efficiency targets are motivating the need for research and to put promising results into application. Many technologies exist or are in development but the rate at which they are being adopted is slow.

The goal of this research is to develop a decision model that can be used to identify the technology transfer potential of a research proposal. An organization can use the model to select the proposals whose research outcomes are more likely to move into application. The model begins to close the chasm between research and application—otherwise known as the “valley of death”.

A comprehensive literature review was conducted to understand when the idea of technology application or transfer should begin. Next, the attributes that are necessary for successful technology transfer were identified. The emphasis of successful technology transfer occurs when there is a productive relationship between the researchers and the technology recipient. A hierarchical decision model, along with desirability curves, was used to understand the complexities of the researcher and recipient relationship, specific to technology transfer. In this research, the evaluation criteria of several research organizations were assessed to understand the extent to which the success attributes that were identified in literature were considered when reviewing research proposals. While some of the organizations included a few of the success attributes, none of the organizations considered all of the attributes. In addition, none of the organizations quantified the value of the success attributes.

The effectiveness of the model relies extensively on expert judgments to complete the model validation and quantification. Subject matter experts ranging from senior executives with extensive experience in technology transfer to principal research investigators from national labs, universities, utilities, and non-profit research organizations were used to ensure a comprehensive and cross-functional validation and quantification of the decision model.

The quantified model was validated using a case study involving demand response (DR) technology proposals in the Pacific Northwest. The DR technologies were selected based on their potential to solve some of the region’s most prevalent issues. In addition, several sensitivity scenarios were developed to test the model’s response to extreme case scenarios, impact of perturbations in expert responses, and if it can be applied to other than demand response technologies. In other words, is the model technology agnostic? In addition, the flexibility of the model to be used as a tool for communicating which success attributes in a research proposal are deficient and need strengthening and how improvements would increase the overall technology transfer score were assessed. The low scoring success attributes in the case study proposals (e.g. project meetings, etc.) were clearly identified as the areas to be improved for increasing the technology transfer score. As a communication tool, the model could help a research organization identify areas they could bolster to improve their overall technology transfer score. Similarly, the technology recipient could use the results to identify areas that need to be reinforced, as the research is ongoing.

The research objective is to develop a decision model resulting in a technology transfer score that can be used to assess the technology transfer potential of a research proposal. The technology transfer score can be used by an organization in the development of a research portfolio. An organization’s growth, in a highly competitive global market, hinges on superior R&D performance and the ability to apply the results. The energy sector is no different. While there is sufficient research being done to address the issues facing the utility industry, the rate at which technologies are adopted is lagging. The technology transfer score has the potential to increase the success of crossing the chasm to successful application by helping an organization make informed and deliberate decisions about their research portfolio.

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Libros sobre el tema "Energy industries – Technological innovations – Fiction"

Ashby, Madeline. Company Town. New York: TOR/Tom Doherty Associates, LLC, 2016.

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Taub, Steven. The potential for game-changing technology. Cambridge, Mass: CERA, 2006.

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Asamoah, Joe. Energy, oil & gas power and hi-tech innovations in the contemporary world. Dansoman, Accra, Ghana: Joasa Publications, 2016.

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Stepanovich, Neporozhniĭ Petr, Troit͡s︡kiĭ A. A y Mitaishvili V. A, eds. Tekhnicheskiĭ progress ėnergetiki SSSR. Moskva: Ėnergoatomizdat, 1986.

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C, Albrecht y VDI-Gesellschaft Energietechnik, eds. Superconductivity in energy technologies: Assessment, concepts and new aspects. Düsseldorf: VDI-Verlag, 1990.

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Nelson, Valerie. Rural energy security: A literature review : ODA Forestry Research Programme, Fuel-Efficient Technology : Incentives and Constraints to Household Adoption Project. [Lilongwe?: s.n., 1995.

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Michael, Grubb, Royal Institute of International Affairs. y Energy and Environmental Programme (Royal Institute of International Affairs), eds. Emerging energy technologies: Impacts and policy implications. [London]: Royal Institute of International Affairs, 1992.

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Mitsubishi UFJ Risāchi & Konsarutingu. Kinki chiiki ni okeru sangyō kurasutā keikaku no sōkatsu to kongo no inobēshon sōshutsu katsudō no arikata ni kansuru chōcha: Jisedai denshi enerugī gijutsu sangyō sōshutsu hen : hōkokusho. [Osaka]: Kinki Keizai Sangyōkyoku, 2010.

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L, Bagiev G. y Russian S.F.S.R. Ministerstvo vysshego i srednego spet͡s︡ialʹnogo obrazovanii͡a︡., eds. Problemy ėnergosberegai͡u︡shchikh novovvedeniĭ i ėffektivnostʹ promyshlennogo proizvodstva. Leningrad: Izd-vo Leningradskogo universiteta, 1987.

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Heidelberger Kolloquium Technologie und Recht (2007). Energie- und Umwelttechnologien für Zukunftsmärkte: Heidelberger Kolloquium Technologie und Recht 2007. München: C.H. Beck, 2008.

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Capítulos de libros sobre el tema "Energy industries – Technological innovations – Fiction"

Silvast, Antti y Chris Foulds. "Environment-Friendly Energy Research in Norway". En Sociology of Interdisciplinarity, 49–70. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-88455-0_3.

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AbstractThe Research Council of Norway established the Centres for Environment-Friendly Energy Research in 2009. These are long-term national centres that are meant to integrate academics with industries, private companies, regulating bodies, governmental organisations, and research institutes, to trigger a clean-energy transition and pursue environmental innovations. Increasingly, addressing energy issues through the integration of technological and Social Sciences and Humanities disciplines has become expected in these Centres. This chapter draws from interviews with the project participants and fieldwork to demonstrate how different academics and professionals experienced these interdisciplinary collaborations, including what consequences and dynamics such collaborations generated. We round up by interpreting the findings along with the traits of interdisciplinarity that have been emerging in this book.

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Prajwal, Bhargav, Harlal S. Mali y Ravindra Nagar. "Life Cycle Energy Assessment of a Typical Marble Processing Plant". En Research Anthology on Clean Energy Management and Solutions, 452–66. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-9152-9.ch020.

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This article describes how marble is one of the most important stone resources in terms of durability. It is aesthetically pleasing, and a decorative material used by many architects, as well as plays an important role in the economy of India. Most of the marble processing activities are performed by small and medium scale industries (SMEs) not only in India but worldwide. These industries have low efficiency and productivity due to lack of new technologies, high productivity cost and a lack of proper sustainable waste management systems, thereby increasing the waste generated during the processing stage. There is a significant need within the sector for increasing production efficiency, combined with the need of a substantial reduction in waste generated that can be achieved by endorsing technological innovations. This is in addition to following best available processing practices, incorporating energy saving technologies and modernizing the sectors management and organization structure which will substantially increase efficiency as well as production. This article provides a systematic approach for assessing the current energy and present environment status of a typical SME processing units of Rajasthan area, and proposes measures for meeting cleaner production principles. An evaluation methodology was developed considering the realistic plant operation scenarios. The total energy inputs for processing the products with their appropriate environmental indices like CO2 emissions were calculated. Alternatively, the CO2 emissions were also calculated by Gabi educational software for different industries and the best way of reducing the energy consumption is suggested by following alternate source of energy.

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Actas de conferencias sobre el tema "Energy industries – Technological innovations – Fiction"

Ozsoy, Canan M. y M. Pinar Mengüç. "A Transdisciplinary Approach and Design-Thinking Methodology for Energy Transition". En ASME 2023 17th International Conference on Energy Sustainability collocated with the ASME 2023 Heat Transfer Summer Conference. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/es2023-106943.

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Abstract The World is facing a climate crisis today. Since it is primarily due to the emissions from the use of fossil fuels, we must re-think and re-act on how we generate, transmit, distribute, and consume energy in industry, buildings, and transportation. Development of creative solutions and strategies to decrease emissions requires an energy transition framework and should involve every person, company, entity, and all governments. Such a framework can only be achieved with efforts at both local and global scales, which needs to convince (a) industries to change their traditional operation modalities, (b) people to alter their consumption behaviors, and (c) governments to change their rules, regulations, and incentives. The complexity and the magnitude of this enormous task demand coordination and collaboration of all stakeholders, besides the need for technological innovations. In this paper, we outline a transdisciplinary approach and design-thinking methodology (TADTM) to tackle this challenging task. Our premise is that such complex problems need a fundamental understanding of not only engineering solutions but also those for business operations, financing, socio-economic governance, legislation, and regulations. Also, these problems need to be considered by different decision-makers with seamless interactions and structured teamwork. Towards this, we emphasize the need for a solid transdisciplinary framework for industrial corporations to change their energy policies with the help of either/both practical and doable energy efficiency measures and using renewable/alternative energy in their operations.

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Kaposzta, Jozsef y Balazs Lorinc. "Examining regional role of industrial production in transformation of Hungarian economic structure". En 22nd International Scientific Conference Engineering for Rural Development. Latvia University of Life Sciences and Technologies, Faculty of Engineering, 2023. http://dx.doi.org/10.22616/erdev.2023.22.tf059.

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Following the economic crisis of 2008, most developed countries, including the European Union member states, have experienced an economic paradigm shift. The rethinking of economic production has led to a shift towards knowledge-intensive, innovative and high-tech industries. As a result, today’s technological innovations are having a markedly more mature and powerful impact on changes in social relations, the labour market and its strategic development. As it has been observed in the technological innovations of recent decades, the industrial sector (manufacturing, energy, IT, automotive) has played a prominent role. At the macroeconomic level, almost all of the strategically comprehensive innovations have been closely linked to the development of this sector. All these visible macroeconomic links have led us to focus our attention on the strengthening of industrial production and its regional disparities, and to explore the regional differentiation in development resulting from FDI. We have chosen the period 2008-2020 as the interval for our analysis, in which we have examined the correlation between the value of industrial production per capita and its changes, as well as the spatial distribution of the value of industrial production. In our study, we sought to answer the question of how spatial inequalities in production change as the value of industrial production increases, and, in a complex model, how the level and unequal spatial distribution of foreign direct investment affect the development of a given economic space in Hungary.

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