217 books about Power Resources and 13
start with W
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Wave and Tidal Generation Devices: Reliability and availability
Peter Tavner
The Institution of Engineering and Technology, 2017
Library of Congress TK1081.T39 2017 | Dewey Decimal 621.312134
There are many wave and tidal devices under development but as yet very few are actually in revenue earning production. However the engineering problems are gradually being solved and there is an appetite to invest in these renewable generation technologies for harsher environments. To some extent the wave and tidal generation industry is following in the wake of the wind industry, particularly learning from the growing experience of offshore wind farm deployment. This book combines wind industry lessons with wave and tidal field knowledge to explore the main reliability and availability issues facing this growing industry.
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Wide Area Monitoring of Interconnected Power Systems
Arturo Román Messina
The Institution of Engineering and Technology, 2022
Power systems are becoming increasingly complex, handling rising shares of distributed intermittent renewable generation, EV charging stations, and storage. To ensure power availability and quality, the grid needs to be monitored as a whole, by wide area monitoring (WAM), not just in small sections separately. Parameter oscillations need to be detected and acted upon. This requires sensors, data assimilation and visualization, comparison with models, modelling, and system architectures for different grid types.
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Wide Area Monitoring of Interconnected Power Systems
Arturo Román Messina
The Institution of Engineering and Technology, 2015
Library of Congress TK447.M47 2015 | Dewey Decimal 621.3191
This book provides a compact yet comprehensive treatment of advanced data-driven signal processing techniques for the analysis and characterization of both ambient power system data and transient oscillations resulting from major disturbances. Inspired by recent developments in multi-sensor data fusion, multi-temporal data assimilation techniques for power system monitoring are proposed and tested in the context of modern wide-area monitoring system architectures. Recent advances in understanding and modeling nonlinear, time-varying power system processes are reviewed and factors affecting the performance these techniques are discussed.
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Wide Area Monitoring, Protection and Control Systems: The enabler for smarter grids
Alfredo Vaccaro
The Institution of Engineering and Technology, 2016
Library of Congress TK3105.W53 2016 | Dewey Decimal 621.31
Wide area monitoring, protection and control systems (WAMPACs) have been recognized as the most promising enabling technologies to meet challenges of modern electric power transmission systems, where reliability, economics, environmental and other social objectives must be balanced to optimize the grid assets and satisfy growing electrical demand. To this aim WAMPAC requires precise phasor and frequency information, which are acquired by deploying multiple time synchronized sensors, known as Phasor Measurement Units (PMUs), providing precise synchronized information about voltage and current phasors, frequency and rate-of-change-of-frequency.
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Wind and Solar Based Energy Systems for Communities
Rupp Carriveau
The Institution of Engineering and Technology, 2018
A sustainable community energy system is an approach to supplying a local community - ranging from a few homes or farms to entire cities - with its energy requirements from renewable energy or high-efficiency co-generation energy sources. Such systems are frequently based on wind power, solar power, biomass, either singly or in combination. Community energy projects have been growing in numbers in several key regions.
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Wind Energy Modeling and Simulation: Atmosphere and plant, Volume 1
Paul Veers
The Institution of Engineering and Technology, 2020
In order to optimise the yield of wind power from existing and future wind plants, the entire breadth of the system of a plant, from the wind field to the turbine components, needs to be modelled in the design process. The modelling and simulation approaches used in each subsystem as well as the system-wide solution methods to optimize across subsystem boundaries are described in this reference. Chapters are written by technical experts in each field, describing the current state of the art in modelling and simulation for wind plant design. This comprehensive, two-volume research reference will provide long-lasting insight into the methods that will need to be developed for the technology to advance into its next generation.
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Wind Energy Modeling and Simulation: Turbine and system, Volume 2
Paul Veers
The Institution of Engineering and Technology, 2020
In order to optimise the yield of wind power from existing and future wind plants, the entire breadth of the system of a plant, from the wind field to the turbine components, needs to be modelled in the design process. The modelling and simulation approaches used in each subsystem as well as the system-wide solution methods to optimize across subsystem boundaries are described in this reference. Chapters are written by technical experts in each field, describing the current state of the art in modelling and simulation for wind plant design. This comprehensive, two-volume research reference will provide long-lasting insight into the methods that will need to be developed for the technology to advance into its next generation.
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Wind Power Integration: Connection and system operational aspects
Brendan Fox
The Institution of Engineering and Technology, 2014
Library of Congress TJ820.W57674 2014 | Dewey Decimal 621.312136
The rapid growth of wind generation has many implications for power system planning, operation and control. Network development, voltage rise, protection, monitoring and control are connection problems common to all wind power generation.
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Wind Power Integration: Connection and system operational aspects
Brendan Fox
The Institution of Engineering and Technology, 2007
Library of Congress TJ820.W57674 2007 | Dewey Decimal 621.312136
The rapid growth of wind generation has many implications for power system planning, operation and control. This would have been a considerable challenge for the old nationalised power companies; it has become an even greater challenge in today's liberalised electricity markets.
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Wind Power Modelling: Power plants and grid integration, Volume 3
Paul Veers
The Institution of Engineering and Technology, 2019
Wind Power Modelling: Power plants and grid integration is the third book in a comprehensive three-volume set on wind farm power modelling; the key to efficient wind plant design and wind power growth. The set covers every aspect - from wind flow over turbine component design to grid integration. With chapters from eminent international experts, the set is written for researchers in academia and industry involved with all facets of wind power modelling. Covering generation, storage technologies and grid models, this volume will be of particular interest to practitioners in the utilities sector.
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Wind Turbine System Design: Nacelles, drivetrains and verification, Volume 1
Jan Wenske
The Institution of Engineering and Technology, 2022
Wind energy is a pillar of the strategy to mitigate greenhouse gas emissions and stave off catastrophic climate change, but the market is under tremendous pressure to reduce costs. This results in the need for optimising any new wind turbine to maximise the return on investment and keep the technology profitable and the sector thriving. Optimisation involves selecting the best component out of many, and then optimising the system as a whole. Key components are the nacelles and drive trains, and the verification of their work as a system.
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Wireless Power Transfer: Theory, technology, and applications
Naoki Shinohara
The Institution of Engineering and Technology, 2018
Wireless Power Transfer (WPT) enables power to be transferred from a grid or storage unit to a device without the need for cable connections. This can be performed by inductive coupling of magnetic fields as well as by direct radiative transfer via beams of electromagnetic waves, commonly radiowaves, microwaves or lasers. Inductive coupling is the most widely used wireless technology with applications including charging handheld devices, RFID tags, chargers for implantable medical devices, and proposed systems for charging electric vehicles. Applications of radiative power transfer include solar power satellites and wireless powered drone aircraft.
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Wood Pole Overhead Lines
Brian Wareing
The Institution of Engineering and Technology, 2005
Library of Congress TK3242.W37 2005 | Dewey Decimal 621.31922
Wood Pole Overhead Lines provides comprehensive coverage of medium voltage wood pole overhead lines. It includes guidance on the planning and mechanical design of overhead lines, as well as details of statutory requirements and the latest UK and European standards affecting UK design of wood pole networks, Sag/tension calculations are explained, and details of the latest work on safe design tension limits to avoid conductor fatigue from vibration are included. The basic characteristics of bare and covered conductors are discussed as well as upgrading possibilities, condition assessment and the latest work on 'health indices' for overhead lines. Other topics include wood pole decay and mitigation methods, maintenance schedules, live line working and basic lightning protection.
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