Generation Forecasting Models for Wind and Solar Power (original) (raw)

Issues and Challenges in Indian Renewable Energy Forecasting and Grid Balancing

Indian Renewable Energy Sector is eyeing to add 175 GW of clean energy, mainly through solar PV and wind resources. Increased penetration of renewable energy is expected to pose challenges to grid operator and can endanger stability of the grid. Mr. Ninad K. Gaikwad and Dr. Sagarkumar Agravat takes a view on challenges to energy forecasting in India and progress of the work at GERMI

A Statistical Analysis Model of Wind Power Generation Forecasting for Western region of India

2023

Wind energy has witnessed an upswing, with the improvement in current technology and cost-effective electricity production but due to uncertain wind behaviour and weather trends, it is essential to forecast wind energy. The paper presents the Autoregressive Integrated Moving Average model, a statistical analysis model, to forecast future power generation values, for the Kutch region of Gujarat, India. The historical wind power generation data and weather parameters have been taken into consideration for the predictive analysis of future trends in power generation. Wind power generation is dependent on various weather factors like wind speed, wind direction, temperature, humidity, air density, etc. The historical data obtained from Central Electricity Authority (CEA), India, and weather data collected from regional weather stations have been made into use for the forecast. A summary of the results is shown using the performance metrics for model evaluation, indicating that the model can forecast wind power generation with higher accuracy.

A Statistical Analysis Model of Wind Power Generation Forecasting for the Western Region of India

Comparative Study of Time-Series Forecasting Models for Wind Power Generation in Gujarat, India

The rapid rate of transformation in the power sector of India has placed a significant emphasis on robust grids and distributed generation units. The observable shift in the energy sector, especially in wind and solar energy, also requires smooth integration of Distributed Generation units with the existing power grid. Precise wind power generation forecast, therefore, becomes an important and complex task for the strategic planning and management of the systems. We, thus, aim towards a system that can actually provide precise wind power forecasts by applying machine learning techniques. This work proposes a comparative and comprehensive analysis of Artificial Neural Network (ANN), Recurrent Neural Network (RNN), Long Short-Term Memory (LSTM), Gated Recurrent Unit (GRU), and Autoregressive Integrated Moving Average (ARIMA) model. The experimentations and modelling are performed considering meteorological and historical power generation data. The study is concentrated in Kutch, Gujar...

The Generation/Load Forecasting Methods for Renewable Energy Resources

In the past the main challenge to transmission load forecasting so that they could, as accurately as possible, predict their energy demands under normal operation so that the (N-1) or (N-2) reliability criteria are met. This means that there is a sufficient stand-by reserve available if it is needed in case the worst case single, or double, contingency (or equipment failures) occurs so that the needed load is fully supplied [1]. This requirement, depending on the type of scheduled generation and the amount of actual require reserves, can be met fairly efficiently. With the growth of renewable generation resources such as Wind turbines and Solar Photovoltaic Panels (PV) there has been a new complexity added to this forecasting. The variability that comes from the uncertainties in this type of generation has proven tricky to model. In the evolving electricity markets decisions concerning the scheduling of selling and buying of power, the scheduling of generation, and investments are made at risks. This is due to high volatility and the unpredictable patterns of renewable resources, highly volatile prices and increased difficulty of predicting demand as the end users begin to respond more dramatically to system conditions and electricity prices [1]. In the past many methods for load forecasting have been developed, many of which are based on various statistical methods such as regression, exponential smoothing, stochastic process, auto-regressive and moving averages (ARMA) models, data mining models, and artificial neural networks (ANN) [2]. Each method has its own weakness and strength, especially in the presence of renewable generation [2]. This paper is to serve as a literature review summarizing research work that has been done in the generation and load forecasting for renewable energy systems area and demonstrate some of the existing and newly developed technical approaches that can be utilized in the generation and load forecasting in general power systems.

A review on the selected applications of forecasting models in renewable power systems

Renewable and Sustainable Energy Reviews, 2019

This paper presents a literature review on the selected applications of renewable resource and power forecasting models to facilitate the optimal integration of renewable energy (RE) in power systems. This review is drafted on the basis of the selected high quality research publications from the past decade. Although the development of forecast models for RE generation, i.e., wind and solar energy, is a well-researched area, however, the performance of these models is usually evaluated using statistical error metrics. With regard to application, determining the optimality of accurate forecasts in terms of system economics and major planning aspects is an emerging phenomenon, that chalks out the main subject area of this survey. Specifically, the application domains include: 1) optimal power system dispatch (unit commitment, generation scheduling, economic dispatch), 2) optimal sizing of energy storage system, 3) energy market policies and profit maximization of market participants, 4) reliability assessment, and 5) optimal reserve size determination in power systems. The applicationoriented review on these vital areas can be used by the power sector for familiarization with the recent trends and for analyzing the impact of forecasting improvement on optimal power system design and operation.

Analysis of Factors for Forecasting Electric Power Generation by Solar Power Plants

POWER ENGINEERING: economics, technique, ecology, 2020

The new model of the wholesale electricity market in Ukraine causes appearance the market for the day ahead. In this market, the generating company undertakes to supply a certain amount of electricity. So, it is necessary to carry on the most accurate forecast of possible electricity generation by solar power plant (SPP). Generation value depends on certain factors. A brief summary of different influence of parameters on the PV cell performance has been provided. The article analyzes and identifies the factors that should be included in the forecast mathematical model of electricity generation by a solar power plant for a certain short-term period. According to analyzed data from SPP located in the Kyiv region, such parameters are the intensity of solar radiation, temperature and humidity, wind speed, and atmospheric pressure. The degree of influence of these factors on the initial function of electric energy generation were estimated by analyzing the scatter plot diagrams of relati...

Short-term PV power forecasting in India: recent developments and policy analysis

International Journal of Energy and Environmental Engineering, 2022

With ambitious renewable energy capacity addition targets, there is an ongoing transformation in the Indian power system. This paper discusses the various applications of variable generation forecast, state-of-the-art solar PV generation forecasting methods, latest developments in generation forecasting regulations and infrastructure, and the new challenges introduced by VRE generation. Day-ahead NWP-based GHI forecasting are validated against ground measurements from single and multiple sites in India. Recommendations for improving overall the forecasting infrastructure in India are presented.

The Energy Forecasting for efficient transitioning of Electricity Generation from Renewable Energy Source

In this world of global warming, where temperature is rising day by day and where every creature is getting tempted from the unwanted climatic change, humans have invented ways to generate electricity from renewable energy sources, which has given a sight of relief to this burning earth. With the arrival of these renewable energy sources such as hydro energy, solar energy, tidal energy, geothermal energy, biogas energy, nuclear energy using uranium obtained only from the sea water, the dependency on non-renewable energy sources such as fossil fuel, and natural gas has reduced a lot as compared to few years back. With the advent of continuous change in weather conditions as and arrival of various festival seasons, the demand of electricity in different zones of country varies from time to time. In this research paper we propose an algorithm to predict the amount of energy that should be most efficiently generated by a particular energy source at a particular time for a particular area.

Generation Forecasting Models for Wind and Solar Power (original) (raw)

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