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Mr. Roberto Barrella
Chair of Energy and Poverty - ICAI School of Engineering, Comillas Pontifical University

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0 Energy Efficiency
0 Indicators
0 energy consumption
0 energy poverty vulnerability inequality
0 Policy Impact Evaluation

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Short Biography

Roberto Barrella is a research assistant at the Chair of Energy and Poverty, a transdisciplinary center that aims to contribute to finding solutions to energy poverty, collaborating with four research lines, energy companies, and social partners. The main topics of his research are the following: households’ energy needs, housing energy retrofitting (active and passive measures), critical review and proposals of energy poverty indicators, and energy policy proposals.

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Journal article
Published: 09 March 2021 in Sustainability
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The intensity and duration of hot weather and the number of extreme weather events, such as heatwaves, are increasing, leading to a growing need for space cooling energy demand. Together with the building stock’s low energy performance, this phenomenon may also increase households’ energy consumption. On the other hand, the low level of ownership of cooling equipment can cause low energy consumption, leading to a lack of indoor thermal comfort and several health-related problems, yet increasing the risk of energy poverty in summer. Understanding future temperature variations and the associated impacts on building cooling demand will allow mitigating future issues related to a warmer climate. In this respect, this paper analyses the effects of change in temperatures in the residential sector cooling demand in 2050 for a case study of nineteen cities across seven countries: Cyprus, Finland, Greece, Israel, Portugal, Slovakia, and Spain, by estimating cooling degree days and hours (CDD and CDH). CDD and CDH are calculated using both fixed and adaptive thermal comfort temperature thresholds for 2020 and 2050, understanding their strengths and weaknesses to assess the effects of warmer temperatures. Results suggest a noticeable average increase in CDD and CDH values, up to double, by using both thresholds for 2050, with a particular interest in northern countries where structural modifications in the building stock and occupants’ behavior should be anticipated. Furthermore, the use of the adaptive thermal comfort threshold shows that the projected temperature increases for 2050 might affect people’s capability to adapt their comfort band (i.e., indoor habitability) as temperatures would be higher than the maximum admissible values for people’s comfort and health.

ACS Style

Raúl Castaño-Rosa; Roberto Barrella; Carmen Sánchez-Guevara; Ricardo Barbosa; Ioanna Kyprianou; Eleftheria Paschalidou; Nikolaos Thomaidis; Dusana Dokupilova; João Gouveia; József Kádár; Tareq Hamed; Pedro Palma. Cooling Degree Models and Future Energy Demand in the Residential Sector. A Seven-Country Case Study. Sustainability 2021, 13, 2987 .

AMA Style

Raúl Castaño-Rosa, Roberto Barrella, Carmen Sánchez-Guevara, Ricardo Barbosa, Ioanna Kyprianou, Eleftheria Paschalidou, Nikolaos Thomaidis, Dusana Dokupilova, João Gouveia, József Kádár, Tareq Hamed, Pedro Palma. Cooling Degree Models and Future Energy Demand in the Residential Sector. A Seven-Country Case Study. Sustainability. 2021; 13 (5):2987.

Chicago/Turabian Style

Raúl Castaño-Rosa; Roberto Barrella; Carmen Sánchez-Guevara; Ricardo Barbosa; Ioanna Kyprianou; Eleftheria Paschalidou; Nikolaos Thomaidis; Dusana Dokupilova; João Gouveia; József Kádár; Tareq Hamed; Pedro Palma. 2021. "Cooling Degree Models and Future Energy Demand in the Residential Sector. A Seven-Country Case Study." Sustainability 13, no. 5: 2987.

Journal article
Published: 28 May 2020 in Energies
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Energy poverty can be defined as the inability to pay the bills that are required for maintaining the comfort conditions (usually in winter) in dwellings. The use of energy efficient systems is one way forward to mitigate this problem, with one option being the electrically driven air source heat pump water heater. This paper assesses the performance of a centralised heat pump (200 kW of heating capacity) to meet the space heating demand of block dwellings in Madrid (tier four out of five in winter severity in Spain). Two models have been developed to obtain the following variables: the hourly thermal energy demand and the off-design heat pump performance. The proposed heat pump is driven by a motor with variable rotational speed to modulate the heating capacity in an efficient way. A back-up system is also considered to meet the peak demand. A levelised cost of heating of 92.22 €/MWh is obtained for a middle-level energy efficiency in housing (class E, close to D). Moreover, the following energy-environmental parameters have been achieved: more than 74% share of renewable energy in primary energy and 131.7 g CO2 avoided per kWh met. A reduction of 60% in the heating cost per dwelling is obtained if an energy retrofit is carried out, improving the energy performance class from E to C. These results prove that the proposed technology is among the most promising measures for addressing energy poverty in vulnerable households.

ACS Style

Roberto Barrella; Irene Priego; José Ignacio Linares; Eva Arenas; José Carlos Romero; Efraim Centeno. Feasibility Study of a Centralised Electrically Driven Air Source Heat Pump Water Heater to Face Energy Poverty in Block Dwellings in Madrid (Spain). Energies 2020, 13, 2723 .

AMA Style

Roberto Barrella, Irene Priego, José Ignacio Linares, Eva Arenas, José Carlos Romero, Efraim Centeno. Feasibility Study of a Centralised Electrically Driven Air Source Heat Pump Water Heater to Face Energy Poverty in Block Dwellings in Madrid (Spain). Energies. 2020; 13 (11):2723.

Chicago/Turabian Style

Roberto Barrella; Irene Priego; José Ignacio Linares; Eva Arenas; José Carlos Romero; Efraim Centeno. 2020. "Feasibility Study of a Centralised Electrically Driven Air Source Heat Pump Water Heater to Face Energy Poverty in Block Dwellings in Madrid (Spain)." Energies 13, no. 11: 2723.