Your search keyword '"renewables"' showing total 644 results

1. Sustainable green hydrogen production: Trading off costs and environmental impacts.

Author

Rangel, Gustavo P., Domingos, Mariana G., Lopes, José C.B., and Neto, Belmira

Subjects

*GREEN fuels, *LIFE cycle costing, *ENVIRONMENTAL economics, *HYDROGEN production, *HYDROGEN storage

Abstract

This work develops a novel optimisation approach to determine the optimal installed capacities of wind, solar and hydrogen storage systems for the continuous production of green hydrogen, targeting the lowest "True Cost of Hydrogen" (TCOH). TCOH is a metric that combines both costs and life cycle environmental impacts, facilitating decision-making and supporting project design. Two hypothetical scenarios were evaluated using evolutionary optimisation of the TCOH, namely the "Slow" or "Fast" technology developments projected for 2030. Results show that optimising TCOH (for both cost and environmental impacts) may reduce a large range of environmental impact categories by up to 37% while increasing cost by up to 0.23€/kg H 2. Overall, the proposed method allows for a cost-effective hydrogen production but also contributes to the mitigation of relevant environmental impacts. Our approach has the potential to add to the current carbon footprint requirements towards truly sustainable pathways for green hydrogen production. [Display omitted] • Minimisation of "True Cost of Hydrogen" (combined environmental and economic costs). • The TCOH can be more than twice as high as its economic cost. • Optimising for TCOH reduces environmental impacts by up to 37%. • Levelised costs of Hydrogen (LCOH) may increase by 0.23€/kg when optimising for TCOH. [ABSTRACT FROM AUTHOR]

Published

2025

2. A novel LF-TLBO-based optimisation scheme for islanding detection in microgrids.

Author

Suman, Gourav Kumar, Yadav, Suman, and Guerrero, Josep M.

Subjects

*RENEWABLE energy sources, *OPTIMIZATION algorithms, *LEVY processes, *DISTRIBUTED power generation, *REACTIVE power

Abstract

In the framework of contemporary power systems, a distributed generation (DG) system has benefits, but it also presents several operational challenges. In a networked distributed generation system, islanding is one such problem. Because of the negative consequences, an islanding event should be distinguished from other events, like transients within the minimum time. A multi-level adaptive neuro-fuzzy inference system (ANFIS) is being developed in this work to effectively detect islanding. To train the ANFIS model, a novel hybrid scheme based on Lévy flights and teaching–learning-based optimiser is suggested. The performance of the developed algorithm is evaluated using the IEEE CEC-C06 and other traditional benchmark functions. The ANFIS model's classification regime is significantly improved by the optimisation algorithm. In the test system, renewable energy sources are used to power a voltage source converter unit in a network-forming mode via an energy storage medium. Based on measured frequency, RMS voltage and current, active and reactive power, voltage, and current THD at the point of common coupling (PCC), the trained ANFIS controller deduces the islanding detection command to the circuit breaker. The plan is verified following the UL1741 standard for islanding prevention, yielding notable outcomes with an average detection time of 0.04s and an accuracy of 89.3%. [ABSTRACT FROM AUTHOR]

Published

2025

3. Nuclear Cogeneration to Support a Net-Zero, High-Renewable Electricity Grid.

Author

Matthews, Juan, Bodel, William, and Butler, Gregg

Subjects

*HEAT storage, *NATURAL gas reserves, *NUCLEAR energy, *ELECTRIC power consumption, *HYDROGEN production

Abstract

UK Government projections anticipate increasing electricity use, provided by variable renewables (i.e., wind and solar PV). A side effect of increasing the proportion of variable renewable generation is increased support costs, including curtailment, energy storage, and (most significantly) the cost of supplying electricity for periods of high demand when variable renewable generation is low. As the proportion of variable renewable capacity increases, demand for supporting capacity increases but the capacity factor of the support generation decreases, raising the support costs. Using nuclear power for dedicated baseload supply makes the situation worse. This paper explores in the UK context an original low-cost solution using nuclear cogeneration with hydrogen production as the main application. Electricity is diverted at low cost to the grid at times of high demand when renewables are not available. This ensures nuclear maintains a high capacity factor. When higher temperature advanced systems become available, using thermal energy storage will increase the nuclear electrical capacity. This "Flexible Nuclear" scenario substantially reduces support costs for accommodating variable renewables, saving GBP 14 bn/yr and leading to an 80% reduction in CO2 equivalent emissions, compared to a recent UK Government scenario utilising a large capacity of hydrogen and unabated gas generation at very low capacity factors. [ABSTRACT FROM AUTHOR]

Published

2024

4. The First Fifth-Generation District Heating and Cooling System in Kazakhstan: Planning and Design.

Author

Chicherin, Stanislav, Zhuikova, Yana, Pyanykh, Tatyana, Zhuikov, Andrey, Baidyussenov, Galym, and Abildinova, Saule

Abstract

This paper focuses on the potential for integrating Geographic Information System (GIS) software into Fifth-Generation District Heating and Cooling (5GDHC) systems to promote efficient and sustainable energy management, particularly in Kazakhstan. By reviewing the key literature, we identify three main areas where GIS software enhances the planning of 5GDHC systems: decision-making in the context of energy market regulations, operational data utilization, and modeling/simulations for technical design. The technical design emphasizes the role of heat pumps, ultra-low temperature district heating (ULTDH) networks, and end-user buildings. Previous research has explored various methodologies for integrating network and demand-side strategies, developing sustainable district heating and cooling (DHC) systems, and mapping urban areas suitable for DHC deployment. However, none has presented an open-source model incorporating GIS-based decision-making in designing 5GDHC systems. This study, for the first time, addresses this gap through a case study conducted in the Northern Industrial Zone of Karaganda, Kazakhstan, demonstrating how GIS-enhanced modeling can be effectively applied in a developing, industry-driven economy. We outline the mathematical framework for comparing existing simulation tools and developing a custom model suited to the region's needs. Additionally, we discuss validation and calibration methods, which remain underexplored in the current literature. The proposed model incorporates waste heat recovery from local sources, including nearby wastewater treatment plants, showcasing a sustainable energy solution for the industrial park. The results indicate that a well-structured 5GDHC system, supported by GIS tools, can markedly enhance energy efficiency and sustainability, presenting a scalable and adaptable approach for other regions in Kazakhstan and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

5. On-Farm Production of Renewable Energy in 2014–2022.

Author

Ryś-Jurek, Roma

Subjects

*RENEWABLE energy sources, *ENERGY industries, *FAMILY farms, *INCOME, *CIRCULAR economy

Abstract

The main purpose of this study is to present family farms as consumers and producers of renewable energies which provide them with an opportunity to reduce operating costs. The time scope of the study is 2014–2022, and the Farm Accountancy Data Network is used as the data source. The following research methods were employed: comparative and descriptive analysis, intensity indicators, ranking assignment and panel regression. Based on the values of energy output and energy costs, the rankings revealed a strong position of the Netherlands and Germany. As demonstrated by the study, energy production and consumption volumes depend on the farms' economic size, but are not impacted by production type. Another finding is that energy production covers only one-third of its costs. Also, both production volumes and costs were on a growth path on a year-over-year basis, with similar growth ratios. The European Union's leaders in energy consumption and production are the Netherlands, Germany, Belgium, Denmark, Czech Republic, Hungary, Luxembourg, Slovakia and Sweden. The study included the structuring of panel models for energy output and costs and identified their determinants. Energy output depends on total inputs and grows as they grow. Energy costs, in turn, are related to utilized agricultural area, total output and family farm income. An important limitation of this study is that FADN is a provider of high-level data. Hence, it is impossible to tell what specific sources of renewable energy are used by farms, and how they are affected by such exogenous factors as climate, earmarked subsidies or energy policy. The findings from this study are discussed in the context of the European Commission's recommendations laid down in the Bioeconomy Strategy of the EU (2013), the Seventh Environment Action Program, the New Innovation Agenda of the European Union, the Report "Transforming Our World: the United Nations 2030 Agenda for Sustainable Development" and the Circular Economy Action Plan. [ABSTRACT FROM AUTHOR]

Published

2024

6. Robust distribution networks reconfiguration considering the improvement of network resilience considering renewable energy resources.

Author

Choobdari, Mahsa, Samiei Moghaddam, Mahmoud, Davarzani, Reza, Azarfar, Azita, and Hoseinpour, Hesamodin

Subjects

*LOAD management (Electric power), *ENERGY storage, *RENEWABLE energy sources, *ENERGY demand management, *ROBUST optimization

Abstract

The integration of renewable energy sources into smart distribution grids poses substantial challenges in maintaining grid stability, efficiency, and reliability due to their inherent variability and intermittency. This study addresses these challenges by proposing a novel two-level optimization model aimed at enhancing operational efficiency and robustness in smart distribution grids. The model synergistically integrates renewable energy sources, energy storage systems, electric vehicles, and demand-side management through a dynamic reconfiguration approach. It employs a robust optimization framework combined with a two-stage second-order cone optimization model to manage real-time operations and strategic grid reconfiguration. Key findings from simulations on the IEEE 33 and 69-bus networks underscore the model's effectiveness. In the 33-bus system, implementing the demand response program led to a significant reduction in power losses, from 0.64 MW to 0.52 MW, and improved voltage stability, with the minimum voltage increasing from 0.970 to 0.980 p.u. Similarly, in the 69-bus system, power losses decreased from 0.85 MW to 0.79 MW, and voltage stability improved, with the minimum voltage rising from 0.962 to 0.972 p.u. The model also demonstrated reduced energy procurement needs, showcasing its impact on enhancing grid efficiency and reliability. These results highlight the model's potential for advancing smart grid management strategies, offering significant improvements in operational performance and stability under varying demand conditions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Cost–Benefit Analysis for Flexibility in Hydrothermal Power Systems.

Author

Cavados, Gabriel de Azevedo and Pereira Jr., Amaro Olimpio

Subjects

*POWER resources, *RENEWABLE energy sources, *FOSSIL fuels, *AGRICULTURE, *VALUATION

Abstract

The world is experiencing an energy transition, migrating from fossil fuels to renewables, which are usually intermittent and, therefore, require flexibility to keep the power system reliable. Although system flexibility is a well-known theme of research, the question "What is a fair cost for flexibility?" remains to be answered. The present paper proposes a metric to estimate the value of a flexible resource to a power system. This metric is especially important in hydroelectric systems, where the flexibility of the hydro portfolio is uncertain and subject to seasonal changes and other considerations such as agricultural use. The valuation of a flexible resource by its cost–benefit is necessary since its installation generates operational savings to the entire system. A combined project cost and system overall savings is proposed to assess the net cost of a flexible resource. The net cost of flexibility can be used as a metric to rank flexibility candidates in systems with large amounts of renewable energy. A simplified case study of the Brazilian energy system is presented, and the flexibility solutions are evaluated according to the new metric. Results show how different technologies impact the system overall costs and the importance of analyzing system needs (both short and medium terms) when planning the expansion of flexibility in hydro systems. [ABSTRACT FROM AUTHOR]

Published

2024

8. Portrait of the Decarbonization and Renewables Penetration in Oman's Energy Mix, Motivated by Oman's National Green Hydrogen Plan.

Author

Marzouk, Osama A.

Subjects

*GREEN fuels, *RENEWABLE energy sources, *SOLAR energy, *CLEAN energy, *SOLAR wind

Abstract

The aim of this study is to quantitatively describe the anticipated change in the energy mix of the Sultanate of Oman (Oman) as the country moves forward in its national plan for green hydrogen, in order to become a global producer and exporter. This aim is achieved by curating recent data about energy projects in Oman that are either operating or planned (in a construction or pre-construction stage). Then, these data are processed further to extract useful insights about how the energy mix would change if the planned projects are realized and added to the operating ones. This reveals the serious commitment of the country to accomplish its national plan for green hydrogen (GH), where the green hydrogen production ambition for 2030 is about 1.125 million tons per annum (Mtpa), using a renewable energy capacity of approximately 18 GW. This ambition increases to about 3.5 Mtpa with approximately 70 GW of renewables in 2040, and increases further to about 8 Mtpa with approximately 180 GW of renewables in 2050. As a portrait of Oman's energy mix with the assumption of successfully completing all planned energy projects, we found that the country is expected to have a total capacity of 83.1271 GW, with the share of renewables (solar and wind) reaching 83.133% (as compared to 15.0711 GW with an 8.907% renewables share for operating projects). Nearly all (precisely 99.571%) of the 68.0560 GW planned national energy capacity additions are based on solar or wind energy, while the traditional oil–gas energy is gradually phased out. Green hydrogen production dominates this surge in renewables penetration within the Omani energy mix, with 84.659% of the planned 34.3140 GW solar capacity additions linked with green hydrogen production, for operating water electrolyzers. Similarly, 98.804% of the planned 33.4500 GW wind capacity additions are linked with green hydrogen production. [ABSTRACT FROM AUTHOR]

Published

2024

9. Techno-Economic Feasibility Analysis of an Offshore Wave Power Facility in the Aegean Sea, Greece.

Author

Pompodakis, Evangelos E., Orfanoudakis, Georgios I., Katsigiannis, Yiannis, and Karapidakis, Emmanouel

Subjects

*OCEAN wave power, *POWER resources, *WAVE analysis, *RENEWABLE natural resources, *CAPITAL investments, *WAVE energy

Abstract

The decarbonization goals of each country necessitate the utilization of renewable resources, with photovoltaic (PV) and wind turbine (WT) generators being the most common forms. However, spatial constraints, especially on islands, can hinder the expansion of PV and WT installations. In this context, wave energy emerges as a viable supplementary renewable source. Islands are candidate regions to accommodate wave power resources due to their abundant wave potential. While previous studies have explored the wave energy potential of the Aegean Sea, they have not focused on the electricity production and techno-economic aspects of wave power facilities in this area. This paper aims to fill this knowledge gap by conducting a comprehensive techno-economic analysis to evaluate the feasibility of deploying an offshore wave power facility in the Aegean Sea, Greece. The analysis includes a detailed sensitivity assessment of CAPEX and OPEX variability, calculating key indicators like LCOE and NPV to determine the economic viability and profitability of wave energy investments in the region. Additionally, the study identifies hydraulic efficiency and CAPEX thresholds that could make wave power more competitive compared with traditional energy sources. The techno-economic analysis is conducted for a 45 MW offshore floating wave power plant situated between eastern Crete and Kasos—one of the most wave-rich areas in Greece. Despite eastern Crete's promising wave conditions, the study reveals that with current techno-economic parameters—CAPEX of 7 million EUR/MW, OPEX of 6%, a 20-year lifetime, and 25% efficiency—the wave energy in this area yields a levelized cost of energy (LCOE) of 1417 EUR/MWh. This rate is significantly higher than the prevailing LCOE in Crete, which is between 237 and 300 EUR/MWh. Nonetheless, this study suggests that the LCOE of wave energy in Crete could potentially decrease to as low as 69 EUR/MWh in the future under improved conditions, including a CAPEX of 1 million EUR/MW, an OPEX of 1%, a 30-year lifetime, and 35% hydraulic efficiency for wave converters. It is recommended that manufacturing companies target these specific thresholds to ensure the economic viability of wave power in the waters of the Aegean Sea. [ABSTRACT FROM AUTHOR]

Published

2024

10. Sustainable production of sophorolipid biosurfactants using renewable cellulose‐derived feedstocks.

Author

Msanne, Joseph, Ashby, Richard D., Harron, Andrew, and Czerhoniak, Alexis

Subjects

*SODIUM carboxymethyl cellulose, *CRITICAL micelle concentration, *SUSTAINABILITY, *SURFACE tension, *BIOSURFACTANTS, *GLYCOLIPIDS

Abstract

Glycolipids produced and secreted by oleaginous yeasts are renewable compounds with important physico‐chemical properties, and multiple biological and industrial applications. The large‐scale production of these compounds has been limited by high production costs and low yields. The sophorolipid‐producing yeast Pseudohyphozyma bogoriensis may possess the ability to grow in fermentation systems using carbon substrates deriving from inexpensive lignocellulosic biomass, while simultaneously secreting high value biomaterials. In this study, comparative analyses between different cellulose‐derived carbon sources including glucose, cellobiose, and sodium carboxymethyl cellulose confirmed the ability of P. bogoriensis to grow and accumulate glycolipids using these substrates. On a dry weight basis, the highest yields of about 4% (wt/wt) glycolipids were obtained when cellobiose was supplemented at 10 g/L in shake‐flask fermentations. When the unconventional carbon substrate sodium carboxymethyl cellulose was supplemented, cultures exhibited a lower glycolipid yield of 0.3% (wt/wt), but the dry weight was higher compared to other substrates. Analytical analyses using various chromatography methods confirmed the chemical profiles, whereas both monoacetylated and diacetylated sophorolipid forms with 22 carbon long‐chain hydroxy fatty acid were identified in all glycolipid extracts. Surface tension (ST) and critical micelle concentration (CMC) measurements showed that glycolipids produced on cellulose‐derived substrates exhibited similar or even superior physical properties compared with glucose. Furthermore, availability of the yeast genome sequences facilitated the identification of putative genes that may be involved in cellulose hydrolysis (e.g., cellulase‐like). Information on genomic and metabolic pathways is a prerequisite for trait improvement toward increasing the production of high value biomaterials. [ABSTRACT FROM AUTHOR]

Published

2024

11. Hydrogen Production from Wave Power Farms to Refuel Hydrogen-Powered Ships in the Mediterranean Sea.

Author

Pompodakis, Evangelos E., Orfanoudakis, Georgios I., Katsigiannis, Yiannis A., and Karapidakis, Emmanuel S.

Subjects

*GREEN fuels, *MARITIME shipping, *HYDROGEN as fuel, *OCEAN wave power, *OFFSHORE structures

Abstract

The maritime industry is a major source of greenhouse gas (GHG) emissions, largely due to ships running on fossil fuels. Transitioning to hydrogen-powered marine transportation in the Mediterranean Sea requires the development of a network of hydrogen refueling stations across the region to ensure a steady supply of green hydrogen. This paper explores the technoeconomic viability of harnessing wave energy from the Mediterranean Sea to produce green hydrogen for hydrogen-powered ships. Four promising island locations—near Sardegna, Galite, Western Crete, and Eastern Crete—were selected based on their favorable wave potential for green hydrogen production. A thorough analysis of the costs associated with wave power facilities and hydrogen production was conducted to accurately model economic viability. The techno-economic results suggest that, with anticipated cost reductions in wave energy converters, the levelized cost of hydrogen could decrease to as low as 3.6 €/kg, 4.3 €/kg, 5.5 €/kg, and 3.9 €/kg for Sardegna, Galite, Western Crete, and Eastern Crete, respectively. Furthermore, the study estimates that, in order for the hydrogen-fueled ships to compete effectively with their oil-fueled counterparts, the levelized cost of hydrogen must drop below 3.5 €/kg. Thus, despite the competitive costs, further measures are necessary to make hydrogen-fueled ships a viable alternative to conventional diesel-fueled ships. [ABSTRACT FROM AUTHOR]

Published

2024

12. Energy Hub Model for the Massive Adoption of Hydrogen in Power Systems.

Author

Massaro, Fabio, Di Silvestre, Maria Luisa, Ferraro, Marco, Montana, Francesco, Riva Sanseverino, Eleonora, and Ruffino, Salvatore

Subjects

*GREEN fuels, *ENERGY consumption, *ELECTRIC power distribution grids, *CLEAN energy, *RENEWABLE energy sources

Abstract

A promising energy carrier and storage solution for integrating renewable energies into the power grid currently being investigated is hydrogen produced via electrolysis. It already serves various purposes, but it might also enable the development of hydrogen-based electricity storage systems made up of electrolyzers, hydrogen storage systems, and generators (fuel cells or engines). The adoption of hydrogen-based technologies is strictly linked to the electrification of end uses and to multicarrier energy grids. This study introduces a generic method to integrate and optimize the sizing and operation phases of hydrogen-based power systems using an energy hub optimization model, which can manage and coordinate multiple energy carriers and equipment. Furthermore, the uncertainty related to renewables and final demands was carefully assessed. A case study on an urban microgrid with high hydrogen demand for mobility demonstrates the method's applicability, showing how the multi-objective optimization of hydrogen-based power systems can reduce total costs, primary energy demand, and carbon equivalent emissions for both power grids and mobility down to −145%. Furthermore, the adoption of the uncertainty assessment can give additional benefits, allowing a downsizing of the equipment. [ABSTRACT FROM AUTHOR]

Published

2024

13. Recent developments on carbon neutrality through carbon dioxide capture and utilization with clean hydrogen for production of alternative fuels for smart cities.

Author

Goren, A. Yagmur, Dincer, Ibrahim, Gogoi, Subrata Borgohain, Boral, Pranab, and Patel, Dipal

Subjects

*CARBON sequestration, *GREENHOUSE gases, *ALTERNATIVE fuels, *GREEN business, *FLUE gases, *SMART cities, *CARBON offsetting

Abstract

This review comprehensively evaluates the integration of solar-powered electrolytic hydrogen (H 2) production and captured carbon dioxide (CO 2) management for clean fuel production, considering all potential steps from H 2 production methods to CO 2 capture and separation processes. It is expected that the near future will cover CO 2 -capturing technologies integrated with solar-based H 2 production at a commercially viable level, and over 5 billion tons of CO 2 are expected to be utilized potentially for clean fuel production worldwide in 2050 to achieve carbon-neutral levels. The H 2 production out of hydrocarbon-based processes using fossil fuels emits greenhouse gas emissions of 17-38 kg CO 2 /kg H 2. On the other hand,. renewable energy based green hydrogen production emits less than 2 kg CO 2 /kg H 2 which makes it really clean and appealing for implementation. In addition, capturing CO2 and using for synthesizing alternative fuels with green hydrogen will help generate clean fuels for smart cities. In this regard, the most sustainable and promising CO 2 capturing method is post-combustion with an adsorption-separation-desorption processes using monoethanolamine adsorbent with high CO 2 removal efficiencies from flue gases. Consequently, this review article provides perspectives on the potential of integrating CO 2 -capturing technologies and renewable energy-based H 2 production systems for clean production to create sustainable cities and communities. [Display omitted] • Carbon capture-storage and H 2 production technologies are comprehensively reviewed. • Clean fuel production technologies from captured CO 2 and produced H 2 are evaluated. • Renewable-powered integrated systems for clean fuel production are proposed. • Solar-powered H 2 production from water is a promising solution in integrated systems. • Promising carbon management and green energy support sustainable cities and communities. [ABSTRACT FROM AUTHOR]

Published

2024

14. Emerging issues in fisheries science by fisheries scientists.

Author

Murray, David S., Campón‐Linares, Victoria, O'Brien, Carl M., Thorpe, Robert B., Vieira, Rui P., and Gilmour, Fiona

Subjects

*SCIENTIFIC knowledge, *GLOBAL environmental change, *MARINE resource management, *SUSTAINABLE fisheries, *FISHERY sciences

Abstract

The current epoch in fisheries science has been driven by continual advances in laboratory techniques and increasingly sophisticated approaches to analysing datasets. We now have the scientific knowledge and tools to proactively identify obstacles to the sustainable management of marine resources. However, in addition to technological advances, there are predicted global environmental changes, each with inherent implications for fisheries. The 2023 symposium of the Fisheries Society of the British Isles called for "open and constructive knowledge exchange between scientists, stakeholders, managers and policymakers" (https://fsbi.org.uk/symposium-2023/), a nexus of collaborative groups best placed to identify issues and solutions. Arguably, the Centre of Environment, Aquaculture and Fisheries Science (Cefas) and their Scientific Advice for Fisheries Management (SAFM) Team sit at the centre of such a network. SAFM regularly engages with managers and stakeholders, undertakes scientific research, provides fisheries advice to the UK government, and are leading experts within the International Council for the Exploration of the Sea (ICES). As such, this paper is an opinion piece, linked to individual authors specialisms, that aims to highlight emerging issues affecting fisheries and suggest where research efforts could be focused that contribute to sustainable fisheries. [ABSTRACT FROM AUTHOR]

Published

2024

15. Leveraging Pumped Storage Power Plants for Innovative Stability Enhancement of Weakly Interconnected Power Systems.

Author

Sauhats, Antans, Utāns, Andrejs, and Žalostība, Diāna

Subjects

*PUMPED storage power plants, *RENEWABLE energy sources, *ENERGY industries, *INTERCONNECTED power systems, *ELECTRICAL load, *PHASOR measurement

Abstract

The hybrid AC/DC grid, based on a significant share of renewable energy sources, is gradually becoming an essential aspect of the modern energy system. The integration of intermittent renewable generators into contemporary energy systems is accompanied by the decommissioning of power plants containing synchronous generators. Consequently, this leads to a reduction in system inertia and an increase in the risk of stability disruption. The abrupt disconnection of the primary generator or power line can result in an unanticipated mismatch between power generation and consumption. This discrepancy can trigger substantial and swiftly evolving alterations in power distribution, angular speed, load flow, and the frequency of generators. The risks of an energy system collapse can be mitigated through automation, enabling rapid adjustments to generation and load capacities, as well as power flows, in the electrical network. This article justifies the utilisation of a power control method for high-voltage power line interconnections. The technology of hydro storage power plants and measurements of voltage phasors are employed. The potential for easing power flow restrictions and realising substantial economic benefits is supported by the results obtained using simplified dynamic model of the Baltic power system and Nord Pool electricity market model. [ABSTRACT FROM AUTHOR]

Published

2024

16. Properties, Industrial Applications and Future Perspectives of Catalytic Materials Based on Nickel and Alumina: A Critical Review.

Author

Busca, Guido, Spennati, Elena, Riani, Paola, and Garbarino, Gabriella

Subjects

*NICKEL oxide, *INDUSTRIAL capacity, *ALUMINUM hydroxide, *SURFACE properties, *SURFACES (Technology)

Abstract

The bulk and surface properties of materials based on nickel and aluminum oxides and hydroxides, as such or after reduction processes, are reviewed and discussed critically. The actual and potential industrial applications of these materials, both in reducing conditions and in oxidizing conditions, are summarized. Mechanisms for reactant molecule activation are also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

17. Why will some promising renewables technologies enter a "Valley of Death," from which they never emerge?

Author

Hecht, Jeff

Subjects

*SCIENCE writers, *HIGH technology, *SOLAR cells

Abstract

A science writer who has been covering advanced technology for over 40 years gives a different, rarely seen view of tech startups: how they work, the common problems they seem to encounter – and why there are so many "Valley of Death" pitfalls waiting for them. [ABSTRACT FROM AUTHOR]

Published

2023

18. Bayesian Hierarchical Modeling of Individual Effects: Renewables and Non-Renewables on Global Economic Growth.

Author

Ngoc Thach, Nguyen

Subjects

*RENEWABLE energy sources, *FREQUENTIST statistics, *ECONOMIC expansion, *SUSTAINABLE design, *MULTICOLLINEARITY

Abstract

Examining the relationship between renewable and non-renewable energy sources and economic growth is crucial for designing sustainable growth policies in the context of global sustainability efforts. Previous studies relying on frequentist inference have faced challenges in disentangling the individual effects of these energy sources on economic growth due to their high degree of correlation, often leading to biased results. The Bayesian approach offers an alternative estimation method to address this multicollinearity issue. This study aims to demonstrate one of the advantages of the Bayesian hierarchical framework in handling multicollinearity by using a sample of 72 countries to evaluate the distinct impacts of renewable and non-renewable energy on economic growth. By incorporating specific priors into a Bayesian model to guide the estimation process, the findings confirm that both energy sources play significant roles in driving economic growth, with renewable energy sources exhibiting a comparatively weaker effect. These results align with theoretical expectations, indicating that renewables make a limited contribution to economic growth due to high investment costs, intermittency issues, and supply chain constraints. This study establishes a solid foundation for sustainable growth policy formulation by providing robust evidence. Plain language summary: In studying the energy-growth nexus, the Bayesian approach offers a robust and reliable estimation method to address multicollinearity issues, which makes it impossible for frequentist methods. The study aims to demonstrate one of the advantages of the Bayesian hierarchical framework in handling multicollinearity on a sample of 72 countries to access energy on economic growth. Renewable and non-renewable energy sources are significant drivers of economic growth, but renewable energy sources exert a comparatively weaker effect. These results are consistent with theoretical expectations that renewables make a limited contribution to economic growth owing to high investment costs, intermittency issues, and supply chain constraints. The study provides a robust empirical foundation for sustainable growth policy formulation. The main limitation of the study is the use of empirical rather than informative priors. [ABSTRACT FROM AUTHOR]

Published

2024

19. A Route for Bioenergy in the Sahara Region: Date Palm Waste Valorization through Updraft Gasification.

Author

Djaafri, Mohammed, Salem, Fethya, Kalloum, Slimane, Desideri, Umberto, Bartocci, Pietro, Khelafi, Mostefa, Atabani, Abdulaziz E., and Baldinelli, Arianna

Subjects

*DATE palm, *VERTICAL drafts (Meteorology), *PALMS, *PROCESS capability, *LIGNOCELLULOSE, *BIOMASS gasification, *COAL gasification, *AIR pollution

Abstract

The Adrar region (Algeria) has a total of 397,800 date palm trees (Phoenix dactylifera L.). Due to annual palm cleaning, large quantities of lignocellulosic biomass are produced. Depending on the variety, an average of 65 kg of biowaste is obtained per palm tree. Since the value of this biowaste is underrated, most of the palms are burned outdoors, causing air and visual pollution. This work explores the gasification potential of lignocellulosic waste from date palms (Phoenix dactylifera L. Takarbouche variety) into useful energy. The technology investigated is air updraft fixed-bed gasification, thanks to an originally designed and built reactor, with the capability to process 1 kg of feedstock. Four types of palm waste—namely, palms, petioles, bunch, and bunch peduncles—are first characterized (bulk density, proximate analysis, fixed carbon, elemental composition, and calorific value) and then used as feedstock for two gasification tests each. The syngas produced for the four date palm wastes is combustible, with an outlet temperature between 200 and 400 °C. The operating temperature inside the gasifier varies according to the feature of the biomass cuts (from 174 °C for the peduncles to 557 °C for palms). The experimental setup is also equipped with a cyclone, allowing for the recovery of some of the tar produced during the tests. Finally, the results show that the residence time has a positive effect on the conversion rate of date palm waste, which can significantly increase it to values of around 95%. [ABSTRACT FROM AUTHOR]

Published

2024

20. Selling sunshine: Emerging challenges in the certification of hydrogen.

Author

Chandler, John and Paterson, John

Abstract

Development of a hydrogen economy as part of the response to the challenges especially of climate change and energy security will depend upon the solution not only of technical problems, but also of legal and regulatory problems. Whereas these are most obviously related to health and safety, this paper focuses on the fact that support for hydrogen is increasingly contingent upon the method of its production and specifically upon the level of greenhouse gas emissions involved. The paper examines emerging arrangements in Australia and the EU as examples of likely future key hydrogen exporters and importers, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

21. Electricity Retail Rate Design in a Decarbonizing Economy: An Analysis of Time-of-use and Critical Peak Pricing.

Author

Schittekatte, Tim, Mallapragada, Dharik, Joskow, Paul L., and Schmalensee, Richard

Abstract

Currently, the main component of most U.S. consumers' electricity bills is based on a constant price per kWh consumed. As intermittent renewable resources and flexible loads that can be shifted within days (such as electric vehicle charging) gain prominence in the electricity system, the efficiency gains to be realized from basing bills instead on wholesale spot prices increase. There is little political support for this change, however. We focus on second-best alternatives: time-of-use (TOU) rates and critical peak pricing (CPP). We introduce alternative assessment criteria that focus on intra-day load shifting. Using historical data, we find that TOU rates can reasonably replicate the intra-day load-shifting incentives provided under spot pricing. Thus, TOU rates, especially when complemented with CPP involving load control during infrequent scarcity price events, can be considerably more socially valuable than previously estimated. [ABSTRACT FROM AUTHOR]

Published

2024

22. Climate policy costs of spatially unbalanced growth in electricity demand: the case of datacentres in Ireland.

Author

Fitiwi, Desta, Longoria, Genaro, and Lynch, Muireann Á.

Subjects

*ELECTRIC power consumption, *GOVERNMENT policy on climate change, *ABATEMENT (Atmospheric chemistry), *CARBON pricing, *ENERGY consumption, *POWER resources, *POLLUTION control costs

Abstract

We investigate the power system and climate policy implications of the anticipated expansion in electricity demand from datacentres. We perform a joint optimization of Generation and Transmission Expansion Planning for the island of Ireland considering uncertainty in future datacentre growth under various climate policies. Datacentre expansion imposes significant extra costs on the power system. A renewable energy target is more costly than a technology-neutral carbon reduction policy due to the restriction to invest solely in renewable energy, and the divergence in costs increases non-linearly in electricity demand. A carbon reduction policy is more robust to uncertainties in projected demand than a renewable policy. The increased demand from datacentres, which is relatively constant, is best matched by a power supply with constant output, generally fossil-fuelled power plants, potentially in combination with carbon capture and sequestration technology, than variable supply. Datacentre demand increases power system costs by 6% under a carbon reduction policy, and by 9% to 15% under renewable energy targets. However, the abatement cost of carbon under renewable targets decreases at higher levels of demand, while the opposite is true for the abatement cost under technology-neutral targets. High renewable targets crowd out other low-carbon options, namely CCS, leading to a higher cost solution for the same reduction in emissions, although this result is sensitive to increases in fossil fuel prices. The results suggest that climate-related energy policy should focus on technology-neutral carbon reduction policies. The climate impacts of datacentres on energy demand and thus supply requirements should also feature in climate and energy policy discussions. Climate policy that focuses on renewable energy only is more expensive than a technology-neutral climate policy The costs of a renewable-only focused climate policy increase non-linearly as demand increases [ABSTRACT FROM AUTHOR]

Published

2024

23. "H is For Hope" sounded a lot better than "D is For Despair": Interview with Elizabeth Kolbert about climate change.

Author

Drollette Jr., Dan

Subjects

*DESPAIR, *ICE floes, *INSECT eggs

Abstract

Elizabeth Kolbert, author of "The Sixth Extinction: An Unnatural History," discusses climate change in an interview with Bulletin executive editor Dan Drollette Jr. They explore the reliance on techno-solutions and the challenges of transitioning away from fossil fuels. Kolbert also discusses her latest book, "H is For Hope: Climate Change From A to Z," which presents climate change topics in an easily digestible format with illustrations. She emphasizes the importance of journalists reporting the truth about climate change, regardless of whether it is positive or negative, and expresses concern about the potential consequences of another Trump administration on climate action. [Extracted from the article]

Published

2024

24. When burning wood to generate energy makes climate sense.

Author

Abt, Robert, Galik, Christopher, and Baker, Justin

Subjects

*WOOD pellets, *WOOD, *ATMOSPHERIC carbon dioxide, *CARBON sequestration, *BIOMASS burning, *CARBON emissions

Abstract

Over the last 20 years, IPPC reports have made it clear that the world must move beyond simply reducing the amount of carbon dioxide emitted into the atmosphere to actively removing it from the skies. (Solar and wind can reduce carbon emissions, but they do not remove greenhouse gases from the atmosphere). New BioEnergy Carbon Capture and Storage (BECCS) technologies have been emerging that can remove carbon dioxide emissions from the atmosphere and sequester them permanently underground. Indeed, many long-term scenarios for transitioning from today's fossil fuel-dependent society to a future net zero society hinge on BECCS. But a key question is what bioenergy feedstock to use. In some cases, powering these facilities by burning biomass that comes from plantations in the US South is an option. Consequently, the study of the origins, production, and use of the fuel consumed by the world's largest biomass-fired power plant in Drax, England, provides a useful case study of the potential advantages and disadvantages of the burning of biomass – wood pellets made from trees, bark, roots, stumps, millwaste, sawdust, and other woody vegetation – in place of fossil fuel to generate power for processes such as BECCS. [ABSTRACT FROM AUTHOR]

Published

2022

25. Method for Spatiotemporal Solar Power Profile Estimation for a Proposed U.S.–Caribbean–South America Super Grid under Hurricanes †.

Author

Itiki, Rodney, Stenvig, Nils, Kuruganti, Teja, and Di Santo, Silvio Giuseppe

Subjects

*HURRICANES, *SOLAR oscillations, *SYSTEMS design, *SOLAR energy, *CARBON dioxide mitigation

Abstract

Solar photovoltaic (PV) generation technology stands out as a scalable and cost-effective solution to enable the transition toward decarbonization. However, PV solar output, beyond the daily solar irradiance variability and unavailability during nights, is very sensitive to weather events like hurricanes. Hurricanes nucleate massive amounts of clouds around their centers, shading hundreds of kilometers in their path, reducing PV power output. This research proposes a spatiotemporal method, implemented in MATLAB R2023b coding, to estimate the shading effect of hurricanes over a wide distribution of PV solar plants connected to a high-voltage power infrastructure called the U.S.–Caribbean–South America super grid. The complete interconnection of the U.S., the Caribbean, and South America results in the lowest power valley levels, i.e., an overall percentual reduction in PV power output caused by hurricane shading. The simulations assess the impact of hurricanes in 10 synthetic trajectories spanning from Texas to Florida. The Caribbean would also experience lower power valleys with expanded interconnectivity schemes. The U.S.–Caribbean–South America super grid reduces Caribbean variability from 37.8% to 8.9% in the case study. The proposed spatiotemporal method for PV power profile estimation is a valuable tool for future solar power generation expansion, transmission planning, and system design considering the impact of hurricanes. [ABSTRACT FROM AUTHOR]

Published

2024

26. Policy persistence vis-à-vis a crisis: the curious case of Slovak energy policy after the Russian invasion of Ukraine.

Author

Mišík, Matúš and Oravcová, Veronika

Abstract

The Russian invasion of Ukraine that started on 24 February 2022 has had a dramatic impact on the energy policy of the European Union and its member states. Nonetheless, not all EU members have radically overhauled their energy sectors and policies. Looking at the period between February 2022 and December 2023, this paper argues that Slovakia’s energy sector has remained unchanged in comparison to developments within the EU and beyond. Slovakia has continued to purchase natural gas from Russia, having negotiated an exemption from the EU sanctions on Russian oil, and gas consumption decreased only minimally in the winter of 2022/2023. Furthermore, it maintained at best a lukewarm position on renewable energy sources and even struggled to implement those energy efficiency measures that were included in the post-pandemic recovery plans. Slovakia also did not reconsider its coal phase-out deadline of 2023 and its (already very supportive) nuclear policy. We explain this policy persistence with the help of a revised lock-in concept which, in the case of Slovakia, is mostly connected to nuclear energy (ʻnuclear lock-in’), which locks out alternative energy sources, especially renewables. [ABSTRACT FROM AUTHOR]

Published

2024

27. Energy efficiency of buildings in Central and Eastern Europe: room for improvement.

Author

Mišík, Matúš, Oravcová, Veronika, and Vicenová, Radka

Abstract

Following the invasion of Ukraine and the associated energy policy tensions with Russia, the EU began looking at how it could replace Russian energy sources. One of the proposed solutions is to decrease energy consumption. Buildings have been the principal target, owing to their high energy usage – especially of natural gas, which the EU is particularly keen on reducing. This literature review article summarises existing knowledge on the potential energy savings that can be made through energy efficiency improvements to existing buildings in Central and Eastern Europe. The countries in this region share common traits due to their Communist past and associated legacy of poor energy efficiency, both generally and in buildings in particular. At the same time, Central and Eastern Europe contains a range of geographical and climatic regions, and so, the findings of this paper are applicable to other regions. This bibliometric analysis identifies three main areas (insulation, heating source and policy) in which the academic literature has identified potential for energy efficiency improvements to buildings. On the basis of these findings, this paper looks at the policy implications for reducing energy consumption in buildings and thus helps the EU to become less dependent on energy supplies from Russia. [ABSTRACT FROM AUTHOR]

Published

2024

28. GREEN DEAL AND SOLAR ENERGY-PROSPECTS FOR BULGARIAN RURAL AREAS.

Author

HRISTOV, Krum, BELUHOVA-UZUNOVA, Rositsa, ATANASOV, Dimo, LAVCHIEV, Svetoslav, and MRANKOV, Georgi

Subjects

*ENERGY development, *REGIONAL development, *RENEWABLE energy sources, *JOB creation, *RURAL development

Abstract

Renewable energy is essential for the European Union. The targets presented by the Green Pact are closely related to the development of renewable energy, and it has a vital role in achieving climate neutrality in the EU. Solar energy's importance has increased in the past years. It can help achieve the goals presented in the EU and contribute to the sustainable development of rural areas with unrealized potential. The aim of the study is to outline the dynamics and tendencies in solar energy development in the EU and Bulgarian energy mix and highlight perspectives in the context of rural areas. The results show challenges related to green transition in Bulgaria. Renewable energy, especially solar and wind, has increased in its role in the last few years. However, it should be noted that the country's development began from a lower starting point. Bulgaria is dependent on fossil fuels, and more than 80% of electricity is produced from coal, which is one of the substantial sources of pollution. However, some positive tendencies and possibilities exist for boosting rural economies and employment creation. [ABSTRACT FROM AUTHOR]

Published

2024

29. A Hybrid Energy Storage System Integrated with a Wave Energy Converter: Data-Driven Stochastic Power Management for Output Power Smoothing.

Author

Pelosi, Dario, Gallorini, Federico, Alessandri, Giacomo, and Barelli, Linda

Subjects

*ENERGY storage, *WAVE energy, *STOCHASTIC approximation, *WIND power, *SOLAR energy, *OCEAN energy resources

Abstract

Beyond solar and wind energy, wave energy is gaining great interest due to its very high theoretical potential, although its stochastic nature causes intermittent and fluctuating power production. Energy storage system (ESS) integration to wave energy converter (WEC) plants represents a promising solution to mitigate this issue. To overcome the technological limits of the single storage devices, the hybridization of complementary ESSs represents an effective solution, extending the operating range over different timeframes. This paper analyzes the benefits of Li-ion battery–supercapacitor hybrid ESS integration into a grid-connected WEC, aiming at smoothing the produced power oscillations. The hybridization concept involves coupling a power-intensive technology, such as a supercapacitor devoted to managing fluctuations at higher frequency, with a battery technology exploited to manage power variations over longer timeframes to mitigate degradation issues. In this study, a multi-objective data-driven power management strategy, based on the simultaneous perturbation stochastic approximation (SPSA) algorithm, is implemented to minimize power fluctuations in terms of power ramp (representing the power variation between two consecutive values with a 1 s time step), both at the Point of Common Coupling (PCC) and the Li-ion battery terminals, thanks to the supercapacitor peak-shaving function. The SPSA management strategy, together with a suitable sizing procedure, allows a reduction of more than 70% in the power oscillations at the PCC with respect to those at the WEC terminals, while decreasing battery stress by more than 25% if compared to a non-hybrid ESS consisting of a Li-ion battery. This shows how supercapacitor features can extend battery lifespan when integrated in a hybrid ESS. [ABSTRACT FROM AUTHOR]

Published

2024

30. A cost-emission based scheme for residential energy hub management considering comfortable lifestyle and responsible demand.

Author

Salmani, Zohre, Lasemi Imeni, Mahyar, Ghazizadeh, Mohammad Sadegh, and Lasemi, Mohammad Ali

Subjects

*ENERGY management, *CONSUMPTION (Economics), *ENVIRONMENTAL protection, *ENERGY storage, *POWER resources, *HOME energy use

Abstract

Due to different and frequently competing goals, managing multiple energy carriers in residential buildings in a coordinated manner is one of the key obstacles to the optimal operation of smart cities. This paper offers a novel conceptual cost-based scheme for optimal energy-gas use in a smart home in the context of residential energy hubs in response to this challenge, considering a significant trade-off between cost reduction and environmental conservation. The suggested model takes into account a variety of energy conversion resources, including energy and heat storage systems, rooftop photovoltaic modules, combined heat and power units, as well as responsible electrical and thermal loads. In addition, an effective stochastic scenario-based approach is used to address the significant uncertainty related to photovoltaic production. By incorporating a weighted summation mixed objective function under various system constraints and user preferences, the suggested framework lowers domestic energy consumption and utility costs while also providing the resident with optimal task scheduling and comfort, which can ensure a high quality of life. The suggested scheme is tested on a real-world case study with energy hubs, and as anticipated, it introduces its applicability and effectiveness in the proposed residential energy hub problem's optimal energy management. The simulation results show that it is possible to reduce energy procurement costs by up to 47.86% and emissions costs by up to 31.29% while still providing the desired level of comfort for the households. [ABSTRACT FROM AUTHOR]

Published

2024

31. "DESARROLLO RURAL SOSTENIBLE Y RENOVABLES: CUESTIONES MÁS ALLÁ DE LA ZONIFICACIÓN".

Author

Terrón Santos, Daniel

Subjects

*CITIES & towns, *RURAL development, *RENEWABLE energy sources, *SUSTAINABILITY, *RURAL geography, *ZONING, *DEMOGRAPHIC change

Abstract

The overcrowding of cities has led to the depopulation of rural areas, which has made them a testing ground for the location, in many cases without measure, of renewable energy installations. Something that should have a positive character, runs the risk of ending up irreparably affecting the areas where they are located, which is also unacceptable. Beyond the approach to the problem, the present work, by means of the figure of the social licence, brings possible solutions closer, with verifiable and effective examples. [ABSTRACT FROM AUTHOR]

Published

2024

32. Offshore wind: Poised for the big time. An interview with Anthony Kirincich.

Author

Drollette, Dan

Subjects

*OFFSHORE wind power plants, *SMART power grids, *SUSTAINABLE development, *RENEWABLE energy sources, *WIND power industry

Abstract

The Vineyard Wind offshore wind farm is going to be about 15 nautical miles out to sea from Martha's Vineyard. Especially when going from the five windmills of that experimental offshore wind farm of Block Island to the 62 of Vineyard Wind - and another 130 windmills they're planning for Vineyard Wind South. That's because these are the ones that are most economically viable right now, which is why you see fixed-bottom offshore wind turbines in the proposals for every offshore windfarm lease area. They have expertise in the actual equipment, understanding how to make an offshore wind farm happen, what surveys and observations you need to make beforehand.... But then you add the nuances of the ocean environment that we have, the continental shelf, the boulders, and the shallowness of the waters. [Extracted from the article]

Published

2021

33. The five things that must happen for renewables to fit into the grid: Interview with Greg Nemet.

Author

Drollette Jr., Dan

Subjects

*BATTERY storage plants, *SMART power grids, *MICROGRIDS, *SUSTAINABLE development, *RENEWABLE energy sources, *ENERGY economics

Abstract

Keywords: Electrical grid; infrastructure; green economy; renewables; climate change; climate policy; Greg Nemet EN Electrical grid infrastructure green economy renewables climate change climate policy Greg Nemet 307 311 5 11/18/21 20211101 NES 211101 What does the United States need to do to start a renewables revolution and get its electrical grid to 50, 60, or even 90 percent green energy? Nemet dives into whether there is anything we can learn from the experiences regarding photovoltaics that could apply to this nationwide effort to transition from fossil fuels to renewables. And storing electricity in big lithium batteries is becoming way more feasible than it once was, because battery prices have come down even more than solar - something like a 90-percent drop in lithium battery costs in the last 10 years. [Extracted from the article]

Published

2021

34. Assessment of biomass-based green hydrogen production potential in Kazakhstan.

Author

Tleubergenova, Akmaral, Han, Bao-Cang, and Meng, Xiang-Zhou

Subjects

*CLEAN energy, *ANIMAL waste, *AGRICULTURAL wastes, *HYDROGEN production, *SUSTAINABLE development, *AGRICULTURAL productivity, *CARBON offsetting

Abstract

Green hydrogen production from biomass is an eco-friendly and sustainable solution for reducing carbon emissions and promoting sustainable development. This paper presents potential green hydrogen production from available biomass resources, including agricultural crops and livestock waste in Kazakhstan in 14 regions. The study explores the potential of biomass-to-hydrogen production in Kazakhstan, including the availability and quality of biomass resources and environmental sustainability. The gasification process is chosen as the most efficient technology for biomass resource consumption to obtain green hydrogen. This is the first study in Kazakhstan contributes assessment of the geographic distribution of available biomass resources in the country. The total amount of green hydrogen production from agricultural waste is 432 tonnes/km2/year. Turkestan, Kyzylorda, Almaty, East Kazakhstan, Zhambyl, and North Kazakhstan are listed as regions with the highest green hydrogen production potential with an annual 122.2, 71, 57.6, 35.3, 29, and 28.5 tonnes/km2/year, respectively. Annual green hydrogen production from livestock waste is 5262 × 10−6 tonnes/km2/year which equals to 856 tonnes/year. The top three three regions with H 2 production are Turkestan, Almaty and East Kazakhstan regions with 208, 112.5, and 93 tonnes/year, respectively. The results provide a perspective contribution for different regions to the sustainable energy future and carbon neutrality in the country. • Estimation of H 2 production potential from biomass resources in Kazakhstan. • Gasification technology appears as the most promising alternative for H 2 production. • First study in Kazakhstan assesses the geographic distribution of available resources. [ABSTRACT FROM AUTHOR]

Published

2024

35. Hydrogen fuel cell vehicles as a sustainable transportation solution in Qatar and the Gulf cooperation council: a review.

Author

Mendez, Carlos, Contestabile, Marcello, and Bicer, Yusuf

Subjects

*SUSTAINABLE transportation, *FOSSIL fuel subsidies, *FUEL cells, *CHOICE of transportation, *FUEL cell vehicles, *BUS transportation, *COLOR codes

Abstract

This work explores various alternative vehicles, their advantages and disadvantages, and ranks them based on factors such as performance, economy, and market acceptance regionally. The study also analyzes the transportation schemes and modal split usage in Qatar and the Gulf Cooperation Council region. The predominant use of passenger vehicles and buses for mass transportation is highlighted, and the status of alternative transport usage in each country is presented. The potential for hydrogen-based vehicles is discussed, along with the means of production and storage, color code, and associated technologies, considering its ranking among the top options within a regional context. It is concluded that the Gulf Cooperation Council countries, including Qatar, have national visions to reduce their environmental impact, particularly in transportation and energy production. Given that passenger vehicles are the region's most commonly used mode of transportation, the adoption of hydrogen fuel cell vehicles can help reduce emissions. This study suggests implementing a few regional policies such as gradual reduction of gasoline and other fossil fuels subsidies, financial incentives for clean fuels and fuel cell vehicles, diversification of alternative fueled public transport, and additional restrictions on vehicles' tailpipe emissions. • Qatar & GCC clean transportation status compared. • Detailed analysis of GCC transport modes provided. • Alternative vehicles ranked by environment, performance, economy, and market acceptance. • Hydrogen evaluated as sustainable transport solution for Qatar and GCC. [ABSTRACT FROM AUTHOR]

Published

2023

36. Renewable Energy Transition Task Solution for the Oil Countries Using Scenario-Driven Fuzzy Multiple-Criteria Decision-Making Models: The Case of Azerbaijan.

Author

Nuriyev, Mahammad, Nuriyev, Aziz, and Mammadov, Jeyhun

Subjects

*RENEWABLE energy transition (Government policy), *MULTIPLE criteria decision making, *TOPSIS method, *ENERGY development, *POWER resources

Abstract

The renewable energy transition of oil- and gas-producing countries has specific peculiarities due to the ambivalent position of these countries in the global energy market, both as producers and consumers of energy resources. This task becomes even more challenging when the share of oil and gas in the country's GDP is very high. These circumstances pose serious challenges for long-term energy policy development and require compromising decisions to better align the existing and newly created energy policies of the country. The scale, scope, and pace of changes in the transition process must be well balanced, considering the increasing pressure of economic and environmental factors. The objective of this paper is to develop models that allow the selection of the most appropriate scenario for renewable energy transition in an oil- and gas-producing country. The distinguishing feature of the proposed model is that alternatives in the decision matrix are presented as scenarios, composed of a set of energy resources and the level of their use. Linguistic descriptions of the alternative scenarios are formalized in the form of fuzzy statements. For the problem solution, four different Multiple-Criteria Decision-Making (MCDM) methods were used: the fuzzy simple additive weighting (F-SAW) method, the distance-based fuzzy TOPSIS method (Technique of Order Preference Similarity to the Ideal Solution), the ratio-analysis-based fuzzy MOORA method (Multi-Objective Optimization Model Based on the Ratio Analysis), and the fuzzy multi-criteria optimization and compromise solution method VIKOR (Serbian: VIekriterijumsko Kompromisno Rangiranje). This approach is illustrated using the example of the energy sector of Azerbaijan. The recommended solution for the country involves increasing natural gas (NG) moderately, maintaining hydro, and increasing solar notably and wind moderately. [ABSTRACT FROM AUTHOR]

Published

2023

37. Renewables, Energy Mix and Inflation in the European Union Countries.

Author

Markowski, Łukasz and Kotliński, Kamil

Subjects

*LITERATURE reviews, *PRICE inflation, *PARTICLE size determination, *ENERGY shortages, *COUNTRIES, *PRICES, *INFLATIONARY universe

Abstract

One of the effects of the 2022 energy crisis was a high increase in inflation. According to a review of the literature on the subject, a factor that may increase the economy's resistance to external price shocks is the relatively high share of renewable sources in energy production. The aim of this paper is to assess the relationship between the share of renewables in energy production and the level of HICP and core inflation in a cross-sectional approach in the crisis year of 2022 within the EU countries. This study used regression methods, cluster analysis and dispersion measures. As a result of the analysis, it was found that in 2022 (using a cross-sectional approach), there was a statistically significant relationship between the above-mentioned variables. A higher share of renewables by 1 p.p. meant lower HICP by 0.13 p.p. and lower core inflation by 0.1 p.p. "Wind" and "solar" had the greatest importance in the multiple regression equation. It can also be stated that in 2022, countries with a similar energy mix structure were characterized as having a similar rate of inflation. It is therefore justified to increase the share of renewables in energy production, because it brings not only positive environmental but also economic effects. [ABSTRACT FROM AUTHOR]

Published

2023

38. A Pragmatic Approach to the Economic Assessment of Green Synthetic Methane Power in the Baltics.

Author

Sauhats, Antans, Petrichenko, Roman, and Zima-Bockarjova, Marija

Subjects

*SYNTHETIC natural gas, *GAS power plants, *CLIMATE change mitigation, *POWER resources, *NATURAL gas, *METHANE as fuel, *METHANE, *RESERVOIRS

Abstract

The synthesis of methane from hydrogen and carbon dioxide creates an energy resource that is suitable for long-term storage. Once this process is powered by renewable electricity, it produces a clean fuel for producing electricity and heat and supports large-scale renewable energy deployment, energy transition and climate change mitigation. This paper proposes a pragmatic approach to assessing the economic potential of synthetic methane-based power. Today, natural gas plays an important role in the Baltic region due to the existing infrastructure, which includes a transmission and distribution pipeline network, gas power plants and a large underground storage reservoir. Replacing natural gas with synthetic methane would fulfil carbon emission reduction ambitions. In this paper, we simulate electricity producers' actions at market conditions and consider the generation portfolio in the Baltics and the interconnections with Scandinavia and Poland operating in the NORDPOOL electricity market. As a result of these calculations, we obtain the volume of the synthetic gas, the production costs, the volume of gas storage, the installed capacity of the gas power plant, and the investments required to ensure energy transition and system adequacy. These results are essential for the informed decisions made by policymakers, investors and system operators. [ABSTRACT FROM AUTHOR]

Published

2023

39. Net-Zero Policy vs Energy Security: The Impact on GCC Countries.

Author

Bigerna, Simona, D'Errico, Maria Chiara, Polinori, Paolo, and Simshauser, Paul

Abstract

Gulf Cooperation Council countries have accumulated large oil portfolio revenues. However, the world economy is seeking to reduce carbon emissions, and in turn, its reliance on fossil fuel resources through investments in renewable energy resources. The aim of this research is to analyze oil portfolio risk from an exporters' perspective, highlighting how relevant determinants, such as the increasing penetration of renewables in the importer counterparties, and financial and policy uncertainty, increase the volatility of oil export portfolios. We construct oil portfolios for four Gulf Cooperation Council countries (Kuwait, Oman, Saudi Arabia, United Arab Emirates) from 2008 to 2018, and compute volatility spillovers à la Diebold and Yilmaz. Then, the effects of policy and economic variables on volatility spillover indices are estimated using different panel linear regression models. We find rising renewable market shares significantly affects oil export portfolio risks and reduces adverse impacts on importing countries of oil market fluctuations. [ABSTRACT FROM AUTHOR]

Published

2023

40. The Global Technical, Economic, and Feasible Potential of Renewable Electricity.

Author

Angliviel de La Beaumelle, Nils, Blok, Kornelis, de Chalendar, Jacques A., Clarke, Leon, Hahmann, Andrea N., Huster, Jonathan, Nemet, Gregory F., Suri, Dhruv, Wild, Thomas B., and Azevedo, Inês M.L.

Subjects

*WIND power, *POWER resources, *ELECTRICITY, *RENEWABLE natural resources, *SOLAR thermal energy, *ENERGY conversion, *SOLAR energy

Abstract

Renewable electricity generation will need to be rapidly scaled to address climate change and other environmental challenges. Doing so effectively will require an understanding of resource availability. We review estimates for renewable electricity of the global technical potential, defined as the amount of electricity that could be produced with current technologies when accounting for geographical and technical limitations as well as conversion efficiencies; economic potential, which also includes cost; and feasible potential, which accounts for societal and environmental constraints. We consider utility-scale and rooftop solar photovoltaics, concentrated solar power, onshore and offshore wind, hydropower, geothermal electricity, and ocean (wave, tidal, ocean thermal energy conversion, and salinity gradient energy) technologies. We find that the reported technical potential for each energy resource ranges over several orders of magnitude across and often within technologies. Therefore, we also discuss the main factors explaining why authors find such different results. According to this review and on the basis of the most robust studies, we find that technical potentials for utility-scale solar photovoltaic, concentrated solar power, onshore wind, and offshore wind are above 100 PWh/year. Hydropower, geothermal electricity, and ocean thermal energy conversion have technical potentials above 10 PWh/year. Rooftop solar photovoltaic, wave, and tidal have technical potentials above 1 PWh/year. Salinity gradient has a technical potential above 0.1 PWh/year. The literature assessing the global economic potential of renewables, which considers the cost of each renewable resource, shows that the economic potential is higher than current and near-future electricity demand. Fewer studies have calculated the global feasible potential, which considers societal and environmental constraints. While these ranges are useful for assessing the magnitude of available energy sources, they may omit challenges for large-scale renewable portfolios. [ABSTRACT FROM AUTHOR]

Published

2023

41. Interview: CalPERS' Anne Simpson on the climate change power of investment managers.

Author

Drollette, Dan

Subjects

*PORTFOLIO managers (Investments), *CLIMATE change, *OLD age pensions, *PENSION trusts, *INTERNATIONAL organization

Abstract

In this interview, Anne Simpson, director of global governance at CalPERS, California's public employees' pension fund, explains her approach to encouraging fossil fuel companies to clean up their acts. [ABSTRACT FROM AUTHOR]

Published

2021

42. Tom Steyer on clean energy: It's where the big money is going.

Author

Drollette, Dan

Subjects

*PRESIDENTIAL candidates, *TRANSITION economies, *PRIVATE sector, *FOSSIL fuels, *PHILANTHROPISTS

Abstract

In this interview with the Bulletin's Dan Drollette Jr., investor, philanthropist, and former presidential candidate Tom Steyer talks about how to make the transition to a green economy just for workers, companies, and governments – and, speaking as a billionaire, what he thinks the private sector can do. [ABSTRACT FROM AUTHOR]

Published

2021

43. Primary Energy Consumption Patterns in Selected European Countries from 1990 to 2021: A Cluster Analysis Approach.

Author

Kosowski, Piotr, Kosowska, Katarzyna, and Janiga, Damian

Subjects

*ENERGY consumption, *CONSUMPTION (Economics), *CLUSTER analysis (Statistics), *RENEWABLE energy sources, *NUCLEAR energy, *ENERGY security

Abstract

This study delves into the structure of primary energy consumption in European countries, utilizing data from the Eurostat database, and focuses on the years 1990 and 2021. Through cluster analysis, countries were categorized based on their consumption patterns, revealing significant insights into energy security. The findings indicate a discernible shift away from solid fossil fuels, with renewable energy sources witnessing the most substantial growth. Natural gas, serving as a transitional fuel, has seen a rise in consumption, while nuclear energy's development remained relatively stagnant. Oil, despite its declining share, remains a crucial component in the European energy mix. The study also highlights the challenges and implications of over-reliance on a single energy source, emphasizing the need for a diversified energy strategy. The analysis underscores the importance of diversifying primary energy sources to ensure energy security. While renewable sources are environmentally favorable, their inherent instability necessitates backup from other energy sources. Solid fossil fuels, despite their availability, face challenges due to environmental concerns. Natural gas, while flexible, requires extensive infrastructure and is highly politicized. Nuclear energy, despite its potential as an ideal complement to renewables, faces barriers in terms of investment and public perception. Oil, though convenient, is a fossil source with associated CO2 emissions and largely needs to be imported. In conclusion, the study advocates for a well-diversified set of energy sources tailored to individual country-specific situations, emphasizing the importance of strategic planning in energy consumption to ensure long-term energy security. [ABSTRACT FROM AUTHOR]

Published

2023

44. A Christian perspective on the place of nuclear energy in achieving net zero and national security.

Author

DUTCH, ROBERT S.

Subjects

*NATIONAL security, *NUCLEAR energy, *NUCLEAR power plants, *ELECTRIC power production, *AIR pollution, *GOVERNMENT policy

Abstract

We need energy. But what are potential solutions to achieving net zero? This paper presents a Christian perspective and overview of nuclear energy in the UK, and other countries, within the context of government policies to achieve net-zero emissions while ensuring national security. The growth of renewables is well-known but nuclear energy’s positive contribution is often unrecognised in our energy mix for producing electricity. Nuclear provides clean, low-carbon baseload electricity and has its place alongside variable renewables in tackling climate change. Besides large reactors, small modular reactors (SMRs) are being considered within energy strategies. Beyond electricity generation, future nuclear plants offer cogeneration. Furthermore, nuclear plants do not create the air pollution associated with fossil-fuel emissions. This paper encourages people to become more informed about the place of nuclear energy by looking at an evidence-based approach and encourages discussion in an open, honest, and respectful way about its merits in protecting people and our planet. [ABSTRACT FROM AUTHOR]

Published

2023

45. A Model-Aware Comprehensive Tool for Battery Energy Storage System Sizing.

Author

Spiller, Matteo, Rancilio, Giuliano, Bovera, Filippo, Gorni, Giacomo, Mandelli, Stefano, Bresciani, Federico, and Merlo, Marco

Subjects

*BATTERY storage plants, *HYBRID systems, *ENERGY dissipation, *INTERNAL rate of return, *ENERGY storage, *HYBRID power

Abstract

This paper presents a parametric procedure to size a hybrid system consisting of renewable generation (wind turbines and photovoltaic panels) and Battery Energy Storage Systems (BESS). To cope with the increasing installation of grid-scale BESS, an innovative, fast and flexible procedure for evaluating an efficient size for this asset has been developed. The tool exploits a high-fidelity empirical model to assess stand-alone BESS or hybrid power plants under different service stacking configurations. The economic performance has been evaluated considering the revenue stacking that occurs when participating in up to four distinct energy markets and the degradation of the BESS performances due to both cycle- and calendar-aging. The parametric nature of the tool enables the investigation of a wide range of system parameters, including novel BESS control logic, market prices, and energy production. The presented outcomes detail the techno-economic performances of a hybrid system over a 20-year scenario, proposing a sensitivity analysis of both technical and economic parameters. The case study results highlight the necessity of steering BESS investment towards the coupling of RES and accurate planning of the service stacking. Indeed, the implementation of a storage system in an energy district improves the internal rate of return of the project by up to 10% in the best-case scenario. Moreover, accurate service stacking has shown a boost in revenues by up to 44% with the same degradation. [ABSTRACT FROM AUTHOR]

Published

2023

46. Mapping of Energy Community Development in Europe: State of the Art and Research Directions.

Author

Roberto, Roberta, Ferruzzi, Gabriella, Negro, Viviana, and Noussan, Michel

Subjects

*ENERGY development, *COMMUNITY development, *POLITICAL leadership, *SOCIAL innovation, *SOCIAL goals

Abstract

Within the framework of defining a new energy paradigm to address climate change and other global challenges, the energy community model is gaining interest in several countries, especially in Europe. This article analyses the literature and experiences of organisational forms that fall under the definition of energy communities in a broad sense, in relation to their ability to bring improvements to the social, environmental and economic dimensions, and to ensure durability and replicability. The main elements that constitute a complete, albeit simplified, model of energy community are identified and analysed. The legislative and regulatory frameworks, technologies and social innovation frameworks, identified here as enabling elements, are discussed, as well as the elements of the energy community business models and the impacts generated at the environmental and energy, economic and social levels. The transformation potential of energy communities is confirmed as more than promising. However, in order to develop as a sustainable and replicable model capable of achieving social and environmental goals, as well as economic stability, further significant research and experimentation, following a cross-sectoral and multidisciplinary approach and strong political leadership, are needed. [ABSTRACT FROM AUTHOR]

Published

2023

47. Process Optimization and Biomethane Recovery from Anaerobic Digestion of Agro-Industry Wastes.

Author

Kaur, Harjinder and Kommalapati, Raghava R.

Subjects

*RENEWABLE natural gas, *PROCESS optimization, *FLY ash, *ANAEROBIC digestion, *RENEWABLE energy sources, *FOOD waste, *COTTON gins & ginning

Abstract

Among the sustainable initiatives for renewable energy technologies, anaerobic digestion (AD) is a potential contender to replace fossil fuels. The anaerobic co-digestions of goat manure (GM) with sorghum (SG), cotton gin trash (CGT), and food waste (FW) having different mixing ratios, volumes, temperatures, and additives were optimized in single and two-stage bioreactors. The biochemical methane potential assays (having different mixing ratios of double and triple substrates) were run in 250 mL serum bottles in triplicates. The best-yielding ratio was up-scaled to fabricated 2 L bioreactors. The biodegradability, biomethane recovery, and process efficacy are discussed. The co-digestion of GM with SG in a 70:30 ratio yielded the highest biomethane of 239.3 ± 15.6 mL/gvs, and it was further up-scaled to a two-stage temperature-phased process supplemented with an anaerobic medium and fly ash (FA) in fabricated 2 L bioreactors. This system yielded the highest biomethane of 266.0 mL/gvs, having an anaerobic biodegradability of 67.3% in 70:30 GM:SG co-digestion supplemented with an anaerobic medium. The BMP of the FA-amended treatment may be lower because of its high Ca concentration of 205.74 ± 3.6. The liquid fraction of the effluents can be applied as N and P fertigation. The Ca concentration was found to be 24.3, 25.1, and 6.3 g/kg in GM and GM:SG (TS) and SG solid fractions, respectively, whereas K was found to be 26.6, 10.8, and 7.4 g/kg. The carbon to nitrogen ratio of solid fraction varied between 2.0 and 24.8 for return to the soils to enhance its quality. This study involving feedstock acquisition, characterization, and their anaerobic digestion optimization provides comprehensive information and may assist small farmers operating on-farm anaerobic digesters. [ABSTRACT FROM AUTHOR]

Published

2023

48. Zero-Carbon AC/DC Microgrid Planning by Leveraging Vehicle-to-Grid Technologies.

Author

Gagangras, Anuja, Manshadi, Saeed D., and Farokhi Soofi, Arash

Subjects

*MICROGRIDS, *RENEWABLE energy sources, *CARBON nanofibers, *MATHEMATICAL optimization

Abstract

This paper explores the strategic planning required for a zero-carbon-emission AC/DC microgrid, which integrates renewable energy sources and electric vehicles (EVs) within its framework. It considers the rapidly growing adoption of EVs and the advent of vehicle-to-grid (V2G) technology, which allows EVs to return energy to the grid during peak demand. The study aims to apply optimization techniques to minimize the installation cost associated with various microgrid components. In the case of microgrids, there are decision-making scenarios where multiple alternatives are present; optimization is a valuable technique for efficiently planning and designing microgrids. This work showcases case studies and sensitivity analysis plots, illustrating how output power fluctuates due to uncertainty in renewable energy sources and the absence of EVs. The findings show how V2G contributes to the demand when renewable generation is low. The sensitivity analysis also provides insights into how the unit cost is affected by demand fluctuations. In summary, the principal contribution of this study is developing a comprehensive planning framework for AC/DC microgrids. This framework considers the escalating adoption of EVs and offers practical solutions for future microgrid designs. [ABSTRACT FROM AUTHOR]

Published

2023

49. Strategic Analysis of the Renewable Electricity Transition: Power to the World without Carbon Emissions?

Author

Thompson, Shirley

Subjects

*CARBON emissions, *GREENHOUSE gases, *FOSSIL fuel subsidies, *SUSTAINABLE development, *RENEWABLE energy transition (Government policy), *CARBON offsetting, *SOLAR energy

Abstract

This paper explores the role of electricity in the transition to renewable energy to mitigate climate change. A systematic literature review with the Scopus database identified 92 papers relevant to the renewable electricity transition. A PESTLE (Political, Economic, Sociological, Technological, Legal, and Environmental) review of the papers provided a multidisciplinary analysis. The Paris Agreement created a global movement for carbon neutrality to address the threats of climate change, calling for a transition to renewable electricity to lead the way and expand into new sectors and regions. Although smaller renewable technologies are ramping up, complexities thwarting the transition include locked-in assets, high upfront costs, variability of solar and wind energy, infrastructure, difficulty in decarbonizing transportation and industry, material resource constraints, and fossil fuel support. This research found that renewables are not replacing fossil fuels to date but adding further energy demands, so that greenhouse gas emissions rose in 2021 despite an increased renewable electricity share. Without a major shift in the trillions of dollars of subsidies and investment away from fossil fuels to renewables, catastrophic climate change is predicted. This paper found that the Paris Agreement's commitment to net-zero carbon and the transition to renewable electricity are undermined by record-high levels of subsidies and financing for fossil fuel industry expansion. Transitioning to a climate-neutral economy requires an investment away from fossil fuels into renewable energy ecosystems. Renewable electricity provides possibilities to realize sustainable development goals, climate stabilization, job creation, a green economy, and energy security with careful planning. [ABSTRACT FROM AUTHOR]

Published

2023

50. Planning for the Future of Onshore Wind Farms through Adopting a Broader Temporal Approach.

Author

Windemer, Rebecca

Subjects

*OFFSHORE wind power plants, *WIND power plants, *LANDSCAPE changes, *WIND power, *COMMUNITY change

Abstract

Onshore wind farms are reaching the end of their operational or consent life and we need to consider how to plan for the future. This paper draws upon detailed empirical data from four UK case studies to understand the range and impact of changes that occur over the life of operational wind farms, including economic, policy, landscape and community changes and how these changes impact decisions regarding the future. In doing so it reveals the challenges of using time-limited consents without adequate consideration of the future. It also demonstrates the benefits for planning of adopting a multiple temporalities approach. [ABSTRACT FROM AUTHOR]

Published

2023