The Development of the Smart Gas Distribution: General Trends and the Latvian Context

A necessity to reduce greenhouse gas (hereinafter – GHG) emissions and energy import dependency, while coping with increasing energy demand, affordability issues and many other factors, causes the European Union (hereinafter – EU) energy policy makers to identify development trends that would help h...

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Veröffentlicht in:	Latvian Journal of Physics and Technical Sciences 2020-12, Vol.57 (6), p.23-39
Hauptverfasser:	Savickis, J., Zemite, L., Jansons, L., Bode, I., Dzelzitis, E., Broks, A., Vempere, L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Data processing Digitization Energy industry Energy policy Gases Greenhouse effect Greenhouse gases Modernization Natural gas smart energy systems smart gas distribution smart gas metering Supply chains synergy Trends
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container_title	Latvian Journal of Physics and Technical Sciences
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creator	Savickis, J. Zemite, L. Jansons, L. Bode, I. Dzelzitis, E. Broks, A. Vempere, L.
description	A necessity to reduce greenhouse gas (hereinafter – GHG) emissions and energy import dependency, while coping with increasing energy demand, affordability issues and many other factors, causes the European Union (hereinafter – EU) energy policy makers to identify development trends that would help harmonize future energy market and technological changes with ever growing pressure of universal data processing digitalisation. In order to stimulate data processing digitalisation in energy, the European Commission has proclaimed a support to the development of all kind of the smart energy systems, where simultaneous use of the natural gas and renewable gases (hereinafter – RG) will play one of the major sustainability ensuring roles. Firstly, it will help achieve designated energy efficiency goals and, secondly, enable cost saving synergetic solutions at the early stages of the energy supply chain decarbonisation. Synergy of the natural gas and RG emphasises the need for a modern, smart and sustainable energy infrastructure to allow developing more flexible back-up and balancing power capacity, storage solutions and innovative demand-response mechanisms. This paper addresses some trends in development of the smart gas distribution (hereinafter – SGD) as part of the smart energy systems both in the EU and Latvia, with a particular focus on smart energy concepts, smart gas metering and grid modernisation.
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subjects	Data processing Digitization Energy industry Energy policy Gases Greenhouse effect Greenhouse gases Modernization Natural gas smart energy systems smart gas distribution smart gas metering Supply chains synergy Trends
title	The Development of the Smart Gas Distribution: General Trends and the Latvian Context
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