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1. An efficient solver for large-scale onshore wind farm siting including cable routing

Author

Pedersen, Jaap, Weinand, Jann Michael, Syranidou, Chloi, and Rehfeldt, Daniel

Subjects
Mathematics - Optimization and Control
Abstract

Existing planning approaches for onshore wind farm siting and grid integration often do not meet minimum cost solutions or social and environmental considerations. In this paper, we develop an exact approach for the integrated layout and cable routing problem of onshore wind farm planning using the Quota Steiner tree problem. Applying a novel transformation on a known directed cut formulation, reduction techniques, and heuristics, we design an exact solver that makes large problem instances solvable and outperforms generic MIP solvers. In selected regions of Germany, the trade-offs between minimizing costs and landscape impact of onshore wind farm siting are investigated. Although our case studies show large trade-offs between the objective criteria of cost and landscape impact, small burdens on one criterion can significantly improve the other criteria. In addition, we demonstrate that contrary to many approaches for exclusive turbine siting, grid integration must be simultaneously optimized to avoid excessive costs or landscape impacts in the course of a wind farm project. Our novel problem formulation and the developed solver can assist planners in decision-making and help optimize wind farms in large regions in the future.

Published
2023
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2. Low-carbon Lithium Extraction Makes Deep Geothermal Plants Cost-competitive in Energy Systems

Author

Weinand, Jann Michael, Vandenberg, Ganga, Risch, Stanley, Behrens, Johannes, Pflugradt, Noah, Linßen, Jochen, and Stolten, Detlef

Subjects
Economics - General Economics
Abstract

Lithium is a critical material for the energy transition, but conventional procurement methods have significant environmental impacts. In this study, we utilize regional energy system optimizations to investigate the techno-economic potential of the low-carbon alternative of direct lithium extraction in deep geothermal plants. We show that geothermal plants will become cost-competitive in conjunction with lithium extraction, even under unfavorable conditions and partially displace photovoltaics, wind power, and storage from energy systems. Our analysis indicates that if 10% of municipalities in the Upper Rhine Graben area in Germany constructed deep geothermal plants, they could provide enough lithium to produce about 1.2 million electric vehicle battery packs per year, equivalent to 70% of today`s annual electric vehicle registrations in the European Union. This approach could offer significant environmental benefits and has high potential for mass application also in other countries, such as the United States, United Kingdom, France, and Italy, highlighting the importance of further research and development of this technology.

Published
2023

3. Global LCOEs of decentralized off-grid renewable energy systems

Author

Weinand, Jann Michael, Hoffmann, Maximilian, Göpfert, Jan, Terlouw, Tom, Schönau, Julian, Kuckertz, Patrick, McKenna, Russell, Kotzur, Leander, Linßen, Jochen, and Stolten, Detlef

Subjects
Economics - General Economics
Abstract

Recent global events emphasize the importance of a reliable energy supply. One way to increase energy supply security is through decentralized off-grid renewable energy systems, for which a growing number of case studies are researched. This review gives a global overview of the levelized cost of electricity (LCOE) for these autonomous energy systems, which range from 0.03 \$_{2021}/kWh to over 1.00 \$_{2021}/kWh worldwide. The average LCOEs for 100% renewable energy systems have decreased by 9% annually between 2016 and 2021 from 0.54 \$_{2021}/kWh to 0.29 \$_{2021}/kWh, presumably due to cost reductions in renewable energy and storage technologies. Furthermore, we identify and discuss seven key reasons why LCOEs are frequently overestimated or underestimated in literature, and how this can be prevented in the future. Our overview can be employed to verify findings on off-grid systems, to assess where these systems might be deployed and how costs evolve.

Published
2022

9. Reviewing local and integrated energy system models: insights into flexibility and robustness challenges

Author

Kachirayil, Febin, Weinand, Jann Michael, Scheller, Fabian, and McKenna, Russell

Subjects
Physics - Physics and Society
Abstract

The electrification of heating, cooling, and transportation to reach decarbonization targets calls for a rapid expansion of renewable technologies. Due to their decentral and intermittent nature, these technologies require robust planning that considers non-technical constraints and flexibility options to be integrated effectively. Energy system models (ESMs) are frequently used to support decision-makers in this planning process. In this study, 116 case studies of local, integrated ESMs are systematically reviewed to identify best-practice approaches to model flexibility and to address non-technical constraints. Within the sample, storage systems and sector coupling are the most common types of flexibility. Sector coupling with the transportation sector, specifically with electric vehicles that could be used for smart charging or vehicle-to-grid operation, is rarely considered. Social aspects are generally either completely neglected or modeled exogenously. Lacking actor heterogeneity, which can lead to unstable results in optimization models, can be addressed through building-level information. A strong emphasis on cost is found and while emissions are also frequently reported, additional metrics such as imports or the share of renewable generation are nearly absent. To guide future modeling, the paper concludes with a roadmap highlighting flexibility and robustness options that either represent low-hanging fruit or have a large impact on results.

Published
2022

11. Exploring the trilemma of cost-efficient, equitable and publicly acceptable onshore wind expansion planning

Author

Weinand, Jann Michael, McKenna, Russell, Heinrichs, Heidi, Roth, Michael, Stolten, Detlef, and Fichtner, Wolf

Subjects
Economics - General Economics
Abstract

Onshore wind development has historically focused on cost-efficiency, which may lead to inequitable turbine distributions and public resistance due to landscape impacts. Using a multi-criteria planning approach, we show how onshore wind capacity targets can be achieved by 2050 in a cost-efficient, equitable and publicly acceptable way. For the case study of Germany, we build on the existing turbine stock and use open data on technically feasible turbine locations and scenicness of landscapes to plan the optimal expansion. The analysis shows that while the trade-off between cost-efficiency and public acceptance is rather weak with about 15% higher costs or scenicness, an equitable distribution has a large impact on these criteria. Although the onshore wind capacity per inhabitant could be distributed about 220% more equitably through the expansion, equity would severely limit planning flexibility by 2050. Our analysis assists stakeholders in resolving the onshore wind expansion trilemma.

Published
2021

12. An expert survey to assess the current status and future challenges of energy system analysis

Author

Scheller, Fabian, Wiese, Frauke, Weinand, Jann Michael, Dominković, Dominik Franjo, and McKenna, Russell

Subjects
Physics - Physics and Society, Economics - General Economics
Abstract

Decision support systems like computer-aided energy system analysis (ESA) are considered one of the main pillars for developing sustainable and reliable energy transformation strategies. Although today's diverse tools can already support decision-makers in a variety of research questions, further developments are still necessary. Intending to identify opportunities and challenges in the field, we classify modelling capabilities (32), methodologies (15) implementation issues (15) and management issues (7) from an extensive literature review. Based on a quantitative expert survey of energy system modellers (N=61) mainly working with simulation and optimisation models, the status of development and the complexity of realisation of those modelling topics are assessed. While the rated items are considered to be more complex than actually represented, no significant outliers are determinable, showing that there is no consensus about particular aspects of ESA that are lacking development. Nevertheless, a classification of the items in terms of a specially defined modelling strategy matrix identifies capabilities like land-use planning patterns, equity and distributional effects and endogenous technological learning as "low hanging fruits" for enhancement, as well as a large number of complex topics that are already well implemented. The remaining "tough nuts" regarding modelling capabilities include non-energy sector and social behaviour interaction effects. In general, the optimisation and simulation models differ in their respective strengths, justifying the existence of both. While methods were generally rated as quite well developed, combinatorial optimisation approaches, as well as machine learning, are identified as important research methods to be developed further for ESA.

Published
2021
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13. Reviewing methods and assumptions for high-resolution large-scale onshore wind energy potential assessments

Author

McKenna, Russell, Pfenninger, Stefan, Heinrichs, Heidi, Schmidt, Johannes, Staffell, Iain, Gruber, Katharina, Hahmann, Andrea N., Jansen, Malte, Klingler, Michael, Landwehr, Natascha, Larsén, Xiaoli Guo, Lilliestam, Johan, Pickering, Bryn, Robinius, Martin, Tröndle, Tim, Turkovska, Olga, Wehrle, Sebastian, Weinand, Jann Michael, and Wohland, Jan

Subjects
Economics - General Economics
Abstract

The rapid uptake of renewable energy technologies in recent decades has increased the demand of energy researchers, policymakers and energy planners for reliable data on the spatial distribution of their costs and potentials. For onshore wind energy this has resulted in an active research field devoted to analysing these resources for regions, countries or globally. A particular thread of this research attempts to go beyond purely technical or spatial restrictions and determine the realistic, feasible or actual potential for wind energy. Motivated by these developments, this paper reviews methods and assumptions for analysing geographical, technical, economic and, finally, feasible onshore wind potentials. We address each of these potentials in turn, including aspects related to land eligibility criteria, energy meteorology, and technical developments relating to wind turbine characteristics such as power density, specific rotor power and spacing aspects. Economic aspects of potential assessments are central to future deployment and are discussed on a turbine and system level covering levelized costs depending on locations, and the system integration costs which are often overlooked in such analyses. Non-technical approaches include scenicness assessments of the landscape, expert and stakeholder workshops, willingness to pay / accept elicitations and socioeconomic cost-benefit studies. For each of these different potential estimations, the state of the art is critically discussed, with an attempt to derive best practice recommendations and highlight avenues for future research.

Published
2021

14. Reviewing two decades of energy system analysis with bibliometrics

Author

Dominković, Dominik Franjo, Weinand, Jann Michael, Scheller, Fabian, D'Andrea, Matteo, and McKenna, Russell

Subjects
Computer Science - Digital Libraries, Electrical Engineering and Systems Science - Systems and Control
Abstract

The field of Energy System Analysis (ESA) has experienced exponential growth in the number of publications since at least the year 2000. This paper presents a comprehensive bibliometric analysis on ESA by employing different algorithms in Matlab and R. The focus of results is on quantitative indicators relating to number and type of publication outputs, collaboration links between institutions, authors and countries, and dynamic trends within the field. The five and twelve most productive countries have 50% and 80% of ESA publications respectively. The dominant institutions are even more concentrated within a small number of countries. A significant concentration of published papers within countries and institutions was also confirmed by analysing collaboration networks. These show dominant collaboration within the same university or at least the same country. There is also is a strong link among the most successful journals, authors and institutions. The Energy journal has had the most publications in the field, and its editor-in-chief Lund H is the author with most of the publications in the field, as well as the author with most of the highly cited publications in the field. In terms of the dynamics within the field in the past decade, recent years have seen a higher impact of topics related to flexibility and hybrid/integrated energy systems alongside a decline in individual technologies. This paper provides a holistic overview of two decades' research output and enables interested readers to obtain a comprehensive overview of the key trends in this active field., Comment: Energy system analysis, bibliometrics, collaboration networks, renewable energy, paper impact, h-index, gross expenditure on research and development, Scopus analysis, scientific productivity of nations

Published
2021
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15. Research trends in combinatorial optimisation

Author

Weinand, Jann Michael, Sörensen, Kenneth, Segundo, Pablo San, Kleinebrahm, Max, and McKenna, Russell

Subjects
Economics - General Economics
Abstract

Real-world problems are becoming highly complex and, therefore, have to be solved with combinatorial optimisation (CO) techniques. Motivated by the strong increase of publications on CO, 8,393 articles from this research field are subjected to a bibliometric analysis. The corpus of literature is examined using mathematical methods and a novel algorithm for keyword analysis. In addition to the most relevant countries, organisations and authors as well as their collaborations, the most relevant CO problems, solution methods and application areas are presented. Publications on CO focus mainly on the development or enhancement of metaheuristics like genetic algorithms. The increasingly problem-oriented studies deal particularly with real-world applications within the energy sector, production sector or data management, which are of increasing relevance due to various global developments. The demonstration of global research trends in CO can support researchers in identifying the relevant issues regarding this expanding and transforming research area.

Published
2020

18. Reviewing energy system modelling of decentralized energy autonomy

Author

Weinand, Jann Michael, Scheller, Fabian, and McKenna, Russell

Subjects
Economics - General Economics
Abstract

Research attention on decentralized autonomous energy systems has increased exponentially in the past three decades, as demonstrated by the absolute number of publications and the share of these studies in the corpus of energy system modelling literature. This paper shows the status quo and future modelling needs for research on local autonomous energy systems. A total of 359 studies are roughly investigated, of which a subset of 123 in detail. The studies are assessed with respect to the characteristics of their methodology and applications, in order to derive common trends and insights. Most case studies apply to middle-income countries and only focus on the supply of electricity in the residential sector. Furthermore, many of the studies are comparable regarding objectives and applied methods. Local energy autonomy is associated with high costs, leading to levelized costs of electricity of 0.41 $/kWh on average. By analysing the studies, many improvements for future studies could be identified: the studies lack an analysis of the impact of autonomous energy systems on surrounding energy systems. In addition, the robust design of autonomous energy systems requires higher time resolutions and extreme conditions. Future research should also develop methodologies to consider local stakeholders and their preferences for energy systems.

Published
2020
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28. Increasing the resolution of solar and wind time series for energy system modeling: A review

Author

Universidad de Sevilla. Departamento de Ingeniería Energética, Universidad de Sevilla. TEP122: Termodinamica y Energias Renovables, Omoyele, Olalekan, Hoffmann, Maximilian, Koivisto, Matti, Larrañeta, Miguel, Weinand, Jann Michael, Stolten, Detlef, Universidad de Sevilla. Departamento de Ingeniería Energética, Universidad de Sevilla. TEP122: Termodinamica y Energias Renovables, Omoyele, Olalekan, Hoffmann, Maximilian, Koivisto, Matti, Larrañeta, Miguel, Weinand, Jann Michael, and Stolten, Detlef

Abstract

Bottom-up energy system models are often based on hourly time steps due to limited computational tractability or data availability. However, in order to properly assess the rentability and reliability of energy systems by accounting for the intermittent nature of renewable energy sources, a higher level of detail is necessary. This study reviews different methods for increasing the temporal resolutions of time series data for global horizontal and direct normal irradiance for solar energy, and wind speed for wind energy. The review shows that stochastic methods utilizing random sampling and non-dimensional approaches are the most frequently employed for solar irradiance data downscaling. The non-dimensional approach is particularly simple, with global applicability and a robust methodology with good validation scores. The temporal increment of wind speed, however, is challenging due to its spatiotemporal complexity and variance, especially for accurate wind distribution profiles. Recently, researchers have mostly considered methods that draw on the combination of meteorological reanalysis and stochastic fluctuations, which are more accurate than the simple and conventional interpolation methods. This review provides a road map of how to approach solar and wind speed temporal downscaling methods and quantify their effectiveness. Furthermore, potential future research areas in solar and wind data downscaling are also highlighted.

Published
2024

33. An efficient solver for multi-objective onshore wind farm siting and network integration

Author

Pedersen, Jaap, Weinand, Jann Michael, Syranidou, Chloi, and Rehfeldt, Daniel

Subjects
Optimization and Control (math.OC), FOS: Mathematics, 90-10, Mathematics - Optimization and Control
Abstract

Existing planning approaches for onshore wind farm siting and network integration often do not meet minimum cost solutions or social and environmental considerations. In this paper, we develop an approach for the multi-objective optimization of turbine locations and their network connection using a Quota Steiner tree problem. Applying a novel transformation on a known directed cut formulation, reduction techniques, and heuristics, we design an exact solver that makes large problem instances solvable and outperforms generic MIP solvers. Although our case studies in selected regions of Germany show large trade-offs between the objective criteria of cost and landscape impact, small burdens on one criterion can significantly improve the other criteria. In addition, we demonstrate that contrary to many approaches for exclusive turbine siting, network integration must be simultaneously optimized in order to avoid excessive costs or landscape impacts in the course of a wind farm project. Our novel problem formulation and the developed solver can assist planners in decision making and help optimize wind farms in large regions in the future.

Published
2023

37. High-resolution large-scale onshore wind energy assessments: A review of potential definitions, methodologies and future research needs

Author

McKenna, Russell (author), Pfenninger, S. (author), Heinrichs, Heidi (author), Schmidt, Johannes (author), Staffell, Iain (author), Bauer, Christian (author), Gruber, Katharina (author), Hahmann, Andrea N. (author), Jansen, Malte (author), Klingler, Michael (author), Landwehr, Natascha (author), Larsén, Xiaoli Guo (author), Lilliestam, Johan (author), Pickering, Bryn (author), Robinius, Martin (author), Tröndle, Tim (author), Turkovska, Olga (author), Wehrle, Sebastian (author), Weinand, Jann Michael (author), Wohland, Jan (author), McKenna, Russell (author), Pfenninger, S. (author), Heinrichs, Heidi (author), Schmidt, Johannes (author), Staffell, Iain (author), Bauer, Christian (author), Gruber, Katharina (author), Hahmann, Andrea N. (author), Jansen, Malte (author), Klingler, Michael (author), Landwehr, Natascha (author), Larsén, Xiaoli Guo (author), Lilliestam, Johan (author), Pickering, Bryn (author), Robinius, Martin (author), Tröndle, Tim (author), Turkovska, Olga (author), Wehrle, Sebastian (author), Weinand, Jann Michael (author), and Wohland, Jan (author)

Abstract

The rapid uptake of renewable energy technologies in recent decades has increased the demand of energy researchers, policymakers and energy planners for reliable data on the spatial distribution of their costs and potentials. For onshore wind energy this has resulted in an active research field devoted to analysing these resources for regions, countries or globally. A particular thread of this research attempts to go beyond purely technical or spatial restrictions and determine the realistic, feasible or actual potential for wind energy. Motivated by these developments, this paper reviews methods and assumptions for analysing geographical, technical, economic and, finally, feasible onshore wind potentials. We address each of these potentials in turn, including aspects related to land eligibility criteria, energy meteorology, and technical developments of wind turbine characteristics such as power density, specific rotor power and spacing aspects. Economic aspects of potential assessments are central to future deployment and are discussed on a turbine and system level covering levelized costs depending on locations, and the system integration costs which are often overlooked in such analyses. Non-technical approaches include scenicness assessments of the landscape, constraints due to regulation or public opposition, expert and stakeholder workshops, willingness to pay/accept elicitations and socioeconomic cost-benefit studies. For each of these different potential estimations, the state of the art is critically discussed, with an attempt to derive best practice recommendations and highlight avenues for future research., Energy & Industry

Published
2022
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38. Reviewing local and integrated energy system models:insights into flexibility and robustness challenges

Author

Kachirayil, Febin, Weinand, Jann Michael, Scheller, Fabian, McKenna, Russell, Kachirayil, Febin, Weinand, Jann Michael, Scheller, Fabian, and McKenna, Russell

Abstract

The electrification of heating, cooling, and transportation to reach decarbonization targets calls for a rapid expansion of renewable technologies. Due to their decentral and intermittent nature, these technologies require robust planning that considers non-technical constraints and flexibility options to be integrated effectively. Energy system models (ESMs) are frequently used to support decision-makers in this planning process. In this study, 116 case studies of local, integrated ESMs are systematically reviewed to identify best-practice approaches to model flexibility and address non-technical constraints. Within the sample, storage systems and sector coupling are the most common types of flexibility. Sector coupling with the transportation sector is rarely considered, specifically with electric vehicles even though they could be used for smart charging or vehicle-to-grid operation. Social aspects are generally either completely neglected or modeled exogenously. Lacking actor heterogeneity, which can lead to unstable results in optimization models, can be addressed through building-level information. A strong emphasis on cost is found and while emissions are also frequently reported, additional metrics such as imports or the share of renewable generation are nearly entirely absent. To guide future modeling, the paper concludes with a roadmap highlighting flexibility and robustness options that either represent low-hanging fruit or have a large impact on results.

Published
2022

39. High-resolution large-scale onshore wind energy assessments: A review of potential definitions, methodologies and future research needs

Author

McKenna, Russell, Pfenninger, Stefan, Heinrichs, Heidi, Schmidt, Johannes, Staffell, Iain, Bauer, Christian, Gruber, Katharina, Hahmann, Andrea N., Jansen, Malte, Klingler, Michael, Landwehr, Natascha, Larsén, Xiaoli Guo, Lilliestam, Johan, Pickering, Bryn, Robinius, Martin, Tröndle, Tim, Turkovska, Olga, Wehrle, Sebastian, Weinand, Jann Michael, Wohland, Jan, McKenna, Russell, Pfenninger, Stefan, Heinrichs, Heidi, Schmidt, Johannes, Staffell, Iain, Bauer, Christian, Gruber, Katharina, Hahmann, Andrea N., Jansen, Malte, Klingler, Michael, Landwehr, Natascha, Larsén, Xiaoli Guo, Lilliestam, Johan, Pickering, Bryn, Robinius, Martin, Tröndle, Tim, Turkovska, Olga, Wehrle, Sebastian, Weinand, Jann Michael, and Wohland, Jan

Abstract

The rapid uptake of renewable energy technologies in recent decades has increased the demand of energy researchers, policymakers and energy planners for reliable data on the spatial distribution of their costs and potentials. For onshore wind energy this has resulted in an active research field devoted to analysing these resources for regions, countries or globally. A particular thread of this research attempts to go beyond purely technical or spatial restrictions and determine the realistic, feasible or actual potential for wind energy. Motivated by these developments, this paper reviews methods and assumptions for analysing geographical, technical, economic and, finally, feasible onshore wind potentials. We address each of these potentials in turn, including aspects related to land eligibility criteria, energy meteorology, and technical developments relating to wind turbine characteristics such as power density, specific rotor power and spacing aspects. Economic aspects of potential assessments are central to future deployment and are discussed on a turbine and system level covering levelized costs depending on locations, and the system integration costs which are often overlooked in such analyses. Non-technical approaches include scenicness assessments of the landscape, constraints due to regulation or public opposition, expert and stakeholder workshops, willingness to pay/accept elicitations and socioeconomic cost-benefit studies. For each of these different potential estimations, the state of the art is critically discussed, with an attempt to derive best practice recommendations and highlight avenues for future research.

Published
2022

40. Corrigendum to High-resolution large-scale onshore wind energy assessments: A review of potential definitions, methodologies and future research needs

Author

McKenna, Russell, primary, Pfenninger, Stefan, additional, Heinrichs, Heidi, additional, Schmidt, Johannes, additional, Staffell, Iain, additional, Bauer, Christian, additional, Gruber, Katharina, additional, Hahmann, Andrea N., additional, Jansen, Malte, additional, Klingler, Michael, additional, Landwehr, Natascha, additional, Larsén, Xiaoli Guo, additional, Lilliestam, Johan, additional, Pickering, Bryn, additional, Robinius, Martin, additional, Tröndle, Tim, additional, Turkovska, Olga, additional, Wehrle, Sebastian, additional, Weinand, Jann Michael, additional, and Wohland, Jan, additional

Published
2022
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42. High-resolution large-scale onshore wind energy assessments: A review of potential definitions, methodologies and future research needs

Author

McKenna, Russell, primary, Pfenninger, Stefan, additional, Heinrichs, Heidi, additional, Schmidt, Johannes, additional, Staffell, Iain, additional, Bauer, Christian, additional, Gruber, Katharina, additional, Hahmann, Andrea N., additional, Jansen, Malte, additional, Klingler, Michael, additional, Landwehr, Natascha, additional, Larsén, Xiaoli Guo, additional, Lilliestam, Johan, additional, Pickering, Bryn, additional, Robinius, Martin, additional, Tröndle, Tim, additional, Turkovska, Olga, additional, Wehrle, Sebastian, additional, Weinand, Jann Michael, additional, and Wohland, Jan, additional

Published
2022
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45. Reviewing Municipal Energy System Planning in a Bibliometric Analysis: Evolution of the Research Field between 1991 and 2019

Author

Weinand, Jann Michael

Subjects
bibliometric analysis, energy transition, renewable energies, municipal energy system planning, energy storage, lcsh:T, Economics, research trends, ddc:330, optimization, lcsh:Technology, district heating, hybrid energy system
Abstract

In the context of the energy transition, energy system planning is becoming increasingly relevant for decentralized systems. Motivated by the strong increase of publications on municipal energy system planning (MESP), these studies are subjected to a bibliometric analysis in this paper. The 1235 articles, which are based on the Web of Science database, are examined using the R-tool bibliometrix. The study shows that China is the most important contributor with 225 articles, followed by the USA (205) and Germany (120). Most cross-country collaborations were conducted between China and Canada, focusing mainly on uncertainties in MESP. Among the institutions, the North China Electric Power University is responsible for most articles (42). The core journals on MESP are Energy, Applied Energy, Energy Policy, Energies and Renewable Energy, which published 37% of the 1235 articles. Publications on MESP focus on renewable energies, optimization and hybrid energy systems. Furthermore, district heating seems to be a core topic in MESP and is addressed in three of the top five most cited articles. The demonstration of global research trends in MESP can support researchers in identifying the relevant issues regarding this expanding and transforming research area.

Published
2020

46. Quantifying the trade-off between cost-efficiency and public acceptance for onshore wind

Author

McKenna, Russell, Weinand, Jann Michael, Mulalic, Ismir, Petrovic, Stefan, Mainzer, Kai, Preis, Tobias, and Moat, Helen Susannah

Subjects
Economics, ddc:330
Abstract

Cost-efficiency and public acceptance are competing objectives for onshore wind locations. We quantify the link between economic wind resources and beautiful landscapes with over 1.5 million ‘scenicness’ ratings of around 200,000 geotagged photographs from across Great Britain. We find statistically significant evidence that planning applications for onshore wind are more likely to be rejected when proposed in more scenic areas. Compared to the technical potential of onshore wind of 1700 TWh at total costs of £280 billion, removing the 10% most scenic areas implies about 18% lower generation potential and 8-26% higher costs. We consider connection distances to the nearest electricity network transformer for the first time, showing that the connection costs constitute up to half of the total costs. The results provide a quantitative framework for researchers and policymakers to consider the trade-offs between cost-efficiency and public acceptance for onshore wind.

Published
2020

47. Energy system analysis of energy autonomous municipalities

Author

Weinand, Jann Michael and Fichtner, W.

Subjects
Economics, optimisation, 100% renewables, off-grid, ddc:330, energy autonomy, energy system analysis
Abstract

Attention on decentralised autonomous energy systems has increased exponentially in the past three decades, as demonstrated by the absolute number of real-world projects and the share of publications in the corpus of scientific literature. This is due to the energy transition and the related environmental awareness as well as the desire of citizens to play an active role in energy supply and to be less dependent on central markets and structures. However, local decision-makers, who often lack the necessary expertise, need decision support in energy system planning. To this end, this thesis follows the objective to develop novel methods for the technical, economic and environmental assessment of a large number of completely energy autonomous municipalities and their impacts on the overall energy system. Completely energy autonomous municipalities are disconnected from the gas and electricity grid and supply themselves with energy from plants owned and operated by the municipality. Novel methods of energy system analysis were developed in this thesis as part of seven original research articles. Germany is used as a case study, but the general approach, methods and results are transferable to other contexts. First of all, the 11,131 German municipalities were clustered with regard to their suitability for decentralised energy systems. Based on this municipality typology, representative municipalities were selected to be investigated in an already existing holistic municipal energy system optimisation model (RE³ASON). This model was extended by novel and transferable approaches to design deep geothermal plants and district heating networks. These base-load capable technologies were selected to reduce the storage costs in energy autonomous municipalities. The technical feasibility and economic expenditures of energy autonomy could finally be determined in all 11,131 German municipalities by combining the extended energy system optimisation model with a stepwise linear regression. The energy system optimisations showed that in the case of complete energy autonomy, deep geothermal plants in combination with district heating networks could reduce the total costs by up to 50%. On average, the energy system costs until 2030 in German municipalities increase by about 0.41 €/kWh in the energy autonomous case compared to the optimised reference case with grid connection. While a technical potential to achieve energy autonomy is present in 56% of the German municipalities, there seem to be no economic advantages through energy autonomy compared to the optimised reference energy system. The novel methodological approach of this thesis enabled to obtain optimisation results for a high number of energy systems (6,314 municipalities) with practicable computational expenses. In addition to the original data and planning tools published alongside the articles, the findings of this thesis can also support local decision makers in determining suitable municipal energy systems. In order to increase the realizability of the case study results, some methodological extensions should be investigated in future studies such as other perspectives than that of a central planner, higher temporal model resolutions or social aspects like consumer acceptance of specific technologies or a security of supply below 100%.

Published
2020
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48. Improving renewable energy resource assessments by quantifying landscape beauty

Author

McKenna, Russell, Weinand, Jann Michael, Mulalic, Ismir, Petrovic, Stefan, Mainzer, Kai, Preis, Tobias, and Moat, Helen Susannah

Subjects
ddc:330
Abstract

A cost-efficient and sustainable energy transition requires reliable information about the distribution of renewable energy resources. Here we draw on over 1.5 million scenicness ratings of around 200,000 geotagged photographs from Scenic-Or-Not to quantify the aesthetic value of the landscapes in which onshore wind energy installations could be situated in Great Britain. An analysis of planning applications provides quantitative evidence that onshore wind projects are more likely to be rejected when proposed in more scenic areas. Exploiting further open data sources including OpenStreetMap, we build on these findings to generate new estimates of the feasible potential and costs for onshore wind in Great Britain, which we find to be around 1700 TWh and £280 billion respectively. We also uncover a strong spatial correlation between scenicness and the quality of the wind resource, implying inevitable trade-offs between cost-efficiency and public acceptance.

Published
2020

50. Research trends in combinatorial optimization.

Author

Weinand, Jann Michael, Sörensen, Kenneth, San Segundo, Pablo, Kleinebrahm, Max, and McKenna, Russell

Subjects
COMBINATORIAL optimization, GENETIC algorithms, ALGORITHMS, METAHEURISTIC algorithms, DATA management, CITATION indexes
Abstract

Real‐world problems are becoming highly complex and therefore have to be solved with combinatorial optimization (CO) techniques. Motivated by the strong increase in publications on CO, 8393 articles from this research field are subjected to a bibliometric analysis. The corpus of literature is examined using mathematical methods and a novel algorithm for keyword analysis. In addition to the most relevant countries, organizations, and authors as well as their collaborations, the most pertinent CO problems, solution methods, and application areas are presented. Publications on CO focus mainly on the development or enhancement of metaheuristics like genetic algorithms. The increasingly problem‐oriented studies deal particularly with real‐world applications within the energy sector, production sector, or data management, which are of increasing relevance due to various global developments. The demonstration of global research trends in CO can support researchers in identifying the relevant issues regarding this expanding and transforming research area. [ABSTRACT FROM AUTHOR]

Published
2022
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