Litcius/Paper detail

Will Plans to Ease Energy Poverty Go Up in Smoke? Assessing the Hungarian NECP through the Lens of Solid Fuel Users’ Vulnerabilities

Anna Zsófia Bajomi, Nóra Feldmár, Sergio Tirado Herrero

2021Sustainability14 citationsDOIOpen Access PDF

Abstract

Hungary has one of the highest incidences of energy poverty in the European Union, and a high share of Hungarian low-income households rely on solid fuels. This paper first maps the energy vulnerabilities of Hungarian solid fuel users using six energy vulnerability factors. The mapping underlines that solid fuel users are more exposed to energy vulnerability than average households. This is followed by an analysis of energy-poverty-related objectives and measures outlined in the Hungarian National Energy and Climate Plan (NECP), a key policy document of the green energy transition. The paper outlines that the NECP fails to comply with the requirement of setting energy poverty alleviation objectives. Furthermore, the outlined energy-poverty-related policies and measures fail to provide systematic solutions to energy-poverty drivers, especially those solid fuel users’ vulnerabilities. Hungary’s general antiegalitarian policy environment and the weak design of energy poverty measures in the NECP suggest severe deficiency regarding a just energy transition guarantee. A just energy transition in Hungary is therefore endangered by the fact that EU energy poverty alleviation requirements fall under soft-law coordination mechanisms that make such requirements hardly enforceable in a member state with an antipoor policy bias that is reluctant to tackle energy poverty.

Topics & Concepts

Energy povertyFuel povertyPovertyVulnerability (computing)Energy policyEuropean unionBusinessEconomicsEconomic growthEngineeringComputer securityComputer scienceRenewable energyEconomic policyPathologyElectrical engineeringPanacea (medicine)MedicineAlternative medicineProtocol (science)Energy and Environment ImpactsHybrid Renewable Energy SystemsSocial Acceptance of Renewable Energy