Article
Green & Sustainable Science & Technology
Wanqing Zhang, Zi Lin, Xiaolei Liu
Summary: In this paper, a novel hybrid model incorporating Discrete Wavelet Transform, Seasonal Autoregressive Integrated Moving Average, and Long Short-Term Memory was proposed to predict offshore wind power. The model showed superior accuracy in capturing complex time series patterns, indicating its potential for efficient offshore wind energy evaluation.
Article
Green & Sustainable Science & Technology
Huaiping Jin, Lixian Shi, Xiangguang Chen, Bin Qian, Biao Yang, Huaikang Jin
Summary: A novel probabilistic wind power forecasting method based on selective ensemble of finite mixture Gaussian process regression models (SEFMGPR) is proposed in this study, which enhances prediction accuracy by constructing diverse GPR models, integrating FMGPR models, and selecting highly influential models using genetic algorithm. Additionally, an incremental adaptation mechanism is employed to alleviate performance degradation. Application results demonstrate that SEFMGPR outperforms traditional global and ensemble wind power prediction methods in handling time-varying changes and maintaining high prediction accuracy.
Article
Computer Science, Artificial Intelligence
Saurabh Ranjan Srivastava, Yogesh Kumar Meena, Girdhari Singh
Summary: The outbreak of Covid-19, caused by the SARS-COV-2 virus, has had a significant impact globally. In this study, we propose an algorithmic framework that can forecast the upcoming details of Covid-19 infection waves for a specific region. By analyzing and predicting historical data, our algorithm demonstrates strong accuracy and can assist in the allocation of medical resources and facilities by governments and healthcare institutions.
APPLIED SOFT COMPUTING
(2022)
Article
Green & Sustainable Science & Technology
Nasrullo Khasanzoda, Inga Zicmane, Svetlana Beryozkina, Murodbek Safaraliev, Sherkhon Sultonov, Alifbek Kirgizov
Summary: This study proposes an autoregression method based on the fuzzy systems concept for predicting both the speed and direction of wind flows on the Far East coast. The goal is to find a regression model that satisfies all observable fuzzy data within specified optimality criteria, improving the reliability of power supply systems.
Article
Energy & Fuels
Ju-Yeol Ryu, Bora Lee, Sungho Park, Seonghyeon Hwang, Hyemin Park, Changhyeong Lee, Dohyeon Kwon
Summary: This study developed short-term forecasting models for wind power generation using various methods and found that the SVR model has higher accuracy. Additionally, it emphasizes the importance of data curation and weather information in wind power forecasting.
Article
Construction & Building Technology
Alexander Hosovsky, Jan Pitel, Milan Adamek, Jana Mizakova, Kamil Zidek
Summary: Forecasting daily gas consumption in buildings is crucial for energy management, and a genetic-algorithm-optimized regression wavelet neural network model shows significant improvement in accuracy compared to conventional regression models, especially in week-ahead forecasting.
JOURNAL OF BUILDING ENGINEERING
(2021)
Article
Thermodynamics
Jianming Hu, Qingxi Luo, Jingwei Tang, Jiani Heng, Yuwen Deng
Summary: This paper introduces a novel interval prediction approach that combines quantile regression and conformal prediction, adapting to heteroscedastic data and ensuring valid coverage theoretically. The adopted TCN architecture in the model can handle long sequences in parallel, distinguishing it from conventional RNN-based approaches.
Article
Economics
Michal Rubaszek
Summary: The study suggests that long-term forecasts should utilize the mean reversion of real oil prices and models should not replicate the high volatility of oil prices observed in samples. The DSGE model performs better in forecasting real oil prices compared to random walk or vector autoregression models.
INTERNATIONAL JOURNAL OF FORECASTING
(2021)
Article
Green & Sustainable Science & Technology
Leandro Von Krannichfeldt, Yi Wang, Thierry Zufferey, Gabriela Hug
Summary: This paper studies an online ensemble approach for probabilistic wind power forecasting by leveraging the most recent information and combining multiple forecasting models, improving the forecasting performance.
IEEE TRANSACTIONS ON SUSTAINABLE ENERGY
(2022)
Article
Environmental Studies
Danyan Wen, Li Liu, Yudong Wang, Yaojie Zhang
Summary: This paper proposes two enhanced moving average (MA) technical indicators (MA-D and MA-P) to predict monthly crude oil futures returns. The results show that the enhanced MA indicators outperform the general MA and macroeconomic variables, with MA-P performing particularly well in multiple predictive models. The study also finds that the past 20 trading days contain the most valuable forecasting information, even for longer predictive horizons.
Article
Mathematics, Interdisciplinary Applications
Manuel Duarte Ortigueira, Richard L. Magin
Summary: This paper considers the equivalence of continuous-/discrete-time autoregressive-moving average (ARMA) systems. The interrelations between systems defined by continuous-time and discrete-time equations are analyzed and formulae are obtained. The bilinear transformation is used to study the spectral correspondence and equivalence between the two types of systems.
FRACTAL AND FRACTIONAL
(2022)
Article
Thermodynamics
Shilin Sun, Yuekai Liu, Qi Li, Tianyang Wang, Fulei Chu
Summary: This paper proposes a novel method to enhance the reliability of wind condition knowledge by considering the spatial information of surrounding wind turbines and achieve wind power modeling using transformer neural networks based on the multi-head attention mechanism. Experimental results show that the proposed method outperforms other approaches, especially in large steps forecasting, with significantly better average values of mean absolute error.
ENERGY CONVERSION AND MANAGEMENT
(2023)
Article
Economics
Cristiane Melchior, Roselaine Ruviaro Zanini, Renata Rojas Guerra, Dinei A. Rockenbach
Summary: This study analyzed the mortality rates due to occupational accidents in three states in the southern region of Brazil, identifying an increase in female participation in the labor market without a proportional increase in deaths. The state of Parana had the highest mortality rate. ARIMA and beta ARMA models showed similar accuracy measurements, while KARMA performed the worst.
INTERNATIONAL JOURNAL OF FORECASTING
(2021)
Article
Energy & Fuels
Tatiane C. Carneiro, Paulo A. C. Rocha, Paulo C. M. Carvalho, Luis M. Fernandez-Ramirez
Summary: With the rapid development of wind and solar power generation, the issue of intermittency becomes more prominent, and ensemble learning methods can improve predictions and be applied to wind and solar data from different locations. The ensemble model achieves better performance in predicting solar data from Brazil and Spain, as well as wind data from Brazil and Spain, compared to individual models.
Article
Environmental Studies
Krzysztof Drachal
Summary: This research aims to forecast real crude oil prices using Time-Varying Vector Autoregression models, with model averaging and selection schemes to address variable uncertainty. The study finds that the Vector Autoregression approach leads to more accurate forecasts compared to Time-Varying Regression or Dynamic Model Averaging, with a model combination scheme of multiple Vector Autoregression models outperforming a single approach.
Article
Green & Sustainable Science & Technology
Samuel Gordon, Connor McGarry, Keith Bell
Summary: Great Britain has achieved high penetrations of distributed generation, but lack of technical requirements has led to unobservable and uncontrollable DG installations. Analysis of available data sources reveals that lack of transparency and consistency hinder the development of an active distribution network. The impact of high DG on system operation and stability is discussed, emphasizing the need for coordination between transmission and distribution networks.
IET RENEWABLE POWER GENERATION
(2022)
Article
Energy & Fuels
Wang Xiang, Weijia Yuan, Lie Xu, Eoin Hodge, John Fitzgerald, Paul McKeever, Keith Bell
Summary: This paper presents a feasibility study of an offshore wind farm HVDC integration system using high-temperature superconductor DC cables. The proposed system shows effective current limiting capability against fast DC fault transients.
IEEE TRANSACTIONS ON ENERGY CONVERSION
(2022)
Article
Green & Sustainable Science & Technology
Robert Hamilton, Panagiotis N. Papadopoulos, Waqquas Bukhsh, Keith Bell
Summary: Increasing renewable generation affects the stability boundary and requires more stability assessment due to the inherent variability of renewables. This paper proposes a methodology using decision tree regressors to estimate the Critical Clearing Time (CCT) on a locational basis and identifies important system variables for CCT estimation. Accurate estimation of locational CCTs is achieved with low error rates.
IEEE TRANSACTIONS ON SUSTAINABLE ENERGY
(2022)
Review
Green & Sustainable Science & Technology
J. McMorland, M. Collu, D. McMillan, J. Carroll
Summary: This paper provides a review of the existing literature on the models for operations and maintenance of floating offshore wind (FOW). It categorizes the publications into cost modeling, O&M modeling, and safety/limiting factors. The case studies used in these publications show a development trend in Northern Europe. The paper discusses the key differences between floating and bottom-fixed applications and presents recommendations for future research.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
(2022)
Article
Engineering, Electrical & Electronic
Samuel Gordon, Connor McGarry, James Tait, Keith Bell
Summary: This study explores the impact of distributed generation on the Under-Frequency Load Shedding (UFLS) scheme and evaluates its effectiveness and the risk of over-shedding. Additionally, the study assesses alternative solutions that are more readily available to improve the UFLS scheme.
IEEE TRANSACTIONS ON POWER DELIVERY
(2022)
Review
Green & Sustainable Science & Technology
Jade McMorland, Callum Flannigan, James Carroll, Maurizio Collu, David McMillan, William Leithead, Andrea Coraddu
Summary: This paper explores new wind turbine technologies and designs to reduce the cost of energy from offshore wind farms. The XRC and MRS turbines are potential routes to achieve lower cost of energy, with significant savings in operation and maintenance costs. The study examines the replacement costs of major components for different turbine types and presents the benefits of the concepts. Additionally, the paper reviews existing decision support systems for offshore wind farm planning and discusses their applicability and modifications needed for modeling XRC and MRS.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
(2022)
Article
Energy & Fuels
David Rowell, Brian Jenkins, James Carroll, David McMillan
Summary: Offshore wind is expected to experience significant growth in the coming years, especially in the UK where the government has set ambitious targets for offshore wind installation. As many proposed wind development sites are in deeper waters, floating wind sites are necessary to tap into the higher wind speeds. However, this also presents challenges in terms of increased wave heights and tougher operating conditions. This study focuses on assessing the accessibility of potential floating wind sites compared to existing fixed bottom sites, using Scottish waters as a case study. The findings suggest that accessibility will be a greater challenge for floating wind farm sites, requiring increased access to vessels that can operate in larger wave heights.
Article
Energy & Fuels
Fraser Anderson, David McMillan, Rafael Dawid, David Garcia Cava
Summary: This article proposes a Bayesian data-modelling approach for evaluating operational efficiency at offshore wind farms. The method utilizes an operational database from a large offshore wind farm with an advanced data management system. By training a Bayesian hierarchical model using the combined datasets in the database, the model can predict weekly lost production due to corrective maintenance and time-based availability. The study focuses on evaluating the impact of technician work shift patterns, particularly the night shifts strategy employed at the site during winter. The research findings demonstrate that for this particular wind farm, there is an approximate annual increase of 0.64% in time-based technical availability. Additionally, the article explores the influence of different modeling assumptions on cost savings, including failure rate, electricity price, number of technicians working night shift, additional staff wages, months of 24/7 working, and extra vessel provision. The results vary significantly among the investigated scenarios, highlighting the necessity of considering farm-specific factors.
Review
Green & Sustainable Science & Technology
J. McMorland, M. Collu, D. McMillan, J. Carroll, A. Coraddu
Summary: As offshore wind farms move further from shore and enter their post-subsidy operating period, it is expected that operational expenditure will increase. To address this challenge, a more flexible and cost-effective maintenance solution is needed, such as opportunistic maintenance. This work provides an overview of maintenance strategies used in other industries and reviews specific work on offshore wind maintenance. The study proposes a comprehensive definition of opportunistic maintenance and suggests the introduction of a market-based opportunity.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
(2023)
Article
Energy & Fuels
Fraser Anderson, Rafael Dawid, David McMillan, David Garcia-Cava
Summary: This article introduces a Bayesian reliability modelling approach that considers time-dependent variables. The approach is used to investigate the impact of annual services on wind turbine failure intensity over time. The study also explores the effects of seasonality, year of operation, and position in the array on failure intensity. The results demonstrate a spike in failure intensity before annual servicing and a reduction afterwards. There is also a significant decrease in failure intensity year-on-year and a preference for modeling time to failure using a Weibull distribution. The study highlights the benefits of employing a Bayesian regime for uncertainty quantification.
Article
Engineering, Electrical & Electronic
Fulin Fan, Bruce Stephen, Keith Bell, David Infield, Stephen McArthur
Summary: To exploit the additional capacity of legacy transmission assets, network owners have developed techniques for real-time thermal rating (RTTR) of overhead lines. These techniques use effective weather conditions (EWCs) to assess conductor temperature equilibrium and are sensitive to measurement errors (MEs). This paper describes two EWC-based approaches for RTTR estimation and evaluates their accuracy under different conditions. Additionally, a Monte Carlo-based approach is developed to model the propagation of measurement uncertainties to RTTR estimates.
IEEE TRANSACTIONS ON POWER DELIVERY
(2023)
Proceedings Paper
Energy & Fuels
Kaiser Saeed, Jade McMorland, Maurizio Collu, Andrea Coraddu, James Carroll, David McMillan
Summary: This paper presents key operations and maintenance (O&M) modelling inputs for fixed-bottom and floating offshore wind power generation. It discusses major repair strategies, limitations, and constraints, and highlights the need for rethinking weather risks, vessel technologies, and operational costs. The paper also reviews existing models adapted for different types of offshore wind power and analyzes O&M inputs for a tow to shore operation. Findings show ambiguity in literature regarding tug speeds and turbine system disconnection/reconnection times. The study includes a case analysis of ScotWind sites to investigate the sensitivities of these parameters. Recommendations for future practices and additional considerations for O&M modelling in floating offshore wind power are provided.
EERA DEEPWIND OFFSHORE WIND R&D CONFERENCE, DEEPWIND 2022
(2022)
Proceedings Paper
Energy & Fuels
Brian Jenkins, Ian Belton, James Carroll, David McMillan
Summary: The major replacement rates of large components in next generation offshore wind turbines are expected to be higher in medium-speed turbine configurations and floating turbines.
EERA DEEPWIND OFFSHORE WIND R&D CONFERENCE, DEEPWIND 2022
(2022)
Proceedings Paper
Energy & Fuels
P. Jamieson, C. Simao Ferreira, P. Dalhoff, S. Stoertenbecker, M. Collu, E. Salo, D. McMillan, J. McMorland, L. Morgan, A. Buck
Summary: The upscaling of wind turbines can reduce infrastructure and maintenance costs of offshore wind farms. Multi rotor systems offer a way to achieve larger capacity. The article presents an innovative design based on vertical axis wind turbines to address issues and reduce costs.
WINDEUROPE ANNUAL EVENT 2022
(2022)
Article
Energy & Fuels
James Dixon, Waqquas Bukhsh, Keith Bell, Christian Brand
Summary: This paper investigates the impact of plug-in frequency on the potential benefits of vehicle-to-grid (V2G) technology for electric vehicles. The study finds that maximizing plug-in frequency can significantly reduce charging costs and slightly decrease carbon emissions. Therefore, owners are financially and environmentally incentivized to maximize their plug-in frequency, thus maximizing the storage resource of V2G.
