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This book provides a novel and holistic perspective on the deployment of prepaid electricity meter technology among energy impoverished (vulnerable) households based in developing or under-developed communities of Sub-Saharan Africa. It explores and reviews the nexus between the technology and socio-economic development, technology acceptance and rejection in low-income households, and ultimately proposes a contextual model to avert or assuage energy poverty in the region using the technology. Science is applied as a convenient, valid, and reliable model to generate bespoke, contextual, and relevant knowledge for policy makers on the development of prepaid meter market in the region. The knowledge shared contributes to extant discourse and debates around the effectiveness of the technology within indigent household settings. The book is intended for energy/electricity utilities, prepaid electricity businesses, policy developers, and other interested parties whose work is related to prepaid electricity meters.
In Electric Meters: Victorian Physiological Poetics Jason R. Rudy connects formal poetic innovations to developments in the electrical and physiological sciences, arguing that the electrical sciences and bodily poetics cannot be separated, and that they came together with special force in the years between the 1830s, which witnessed the invention of the electric telegraph, and the 1870s, when James Clerk Maxwell's electric field theory transformed the study of electrodynamics. Combining formal poetic analysis with cultural history, Jason Rudy traces the development of Victorian physiological poetics from the Romantic poetess tradition through to the works of Alfred Tennyson, the "Spasmodic" poets, Elizabeth Barrett Browning, Gerard Manley Hopkins, and Algernon Swinburne, among others.
Today, the global power demand relies on a delicate balance between conventional and renewable energy systems, necessitating both efficient power generation and the effective utilization of these energy resources through appropriate energy storage solutions. Integrating microgrid systems into the utility grid has become a critical facet of modern power systems. The intermittent and unpredictable nature of these energy sources poses a formidable challenge for academic scholars and researchers. This compels them to explore under-investigated areas, including energy source estimation, storage elements, load pattern prediction, coordination among distributed sources, and the development of energy management algorithms for precise and efficient control. AI Approaches to Smart and Sustainable Power Systems tackles these issues using cutting-edge AI techniques. It examines the most effective methods to optimize voltage, frequency, power, fault diagnosis, component health, and overall power system quality and reliability. AI empowers predictive and preventive maintenance for a sustainable energy future. The book focuses on emerging research areas, including renewable energy, power flow calculations, demand scheduling, real-time performance validation, and AI integration into modern power systems, accompanied by insightful case studies.
Sets out the findings of the Government's energy review, announced in November 2005, to assess developments in energy sector policy since the Government's Energy White Paper was published in 2003.
In the research project NEDS – Sustainable Energy Supply Lower Saxony, conceivable transition paths towards a power supply based on renewable energies in Lower Saxony by 2050 are developed and examined for their sustainability and feasibility. Both the different technical focal points and the joint development of methods and models represent important aspects of the project. A comprehensive method for the integrated development and evaluation of energy scenarios is developed and applied to Lower Saxony. As a basic framework, five future scenarios for the target year 2050 are developed. Based on the qualitative future scenarios and three chosen alternatives, quantitative assumptions are made for the simulation and evaluation. The simulation results of the system model form the basis for the system evaluation. Defined system states for the transition years are simulated and then compared using a multi-criteria decision analysis based on sustainability criteria. In dem Forschungsprojekt NEDS – Nachhaltige Energieversorgung Niedersachsen werden denkbare Transitionspfade hin zu einer auf erneuerbaren Energien basierenden Stromversorgung in Niedersachsen bis 2050 entwickelt und auf ihre Nachhaltigkeit und Umsetzbarkeit untersucht. Sowohl die unterschiedlichen fachlichen Schwerpunkte als auch die gemeinsame Entwicklung von Methodik und Modellen stellen wichtige Aspekte im Projekt dar. Es wird eine umfassende Methodik zur integrierten Entwicklung und Bewertung von Energieszenarien erarbeitet und auf Niedersachsen angewendet. Als Grundgerüst werden fünf Zukunftsszenarien für das Zieljahr 2050 entwickelt. Aus den qualitativen Zukunftsszenarien und drei ausgewählten Alternativen werden quantitative Annahmen für die Simulation und Bewertung erstellt. Die Ergebnisse der Simulationen des Systemmodells bilden die Grundlage für die Systembewertung. Definierte Systemzustände für die Transitionsjahre werden simuliert und anschließend mithilfe einer multikriteriellen Bewertungsmethode anhand von Nachhaltigkeitskriterien verglichen.