Double plus-zero energy historic building and improvement of hygrothermal conditions for the Palaeontology Museum of Naples

2020 ◽  
pp. 174425912092301
Author(s):  
Diana D’Agostino ◽  
Filippo de’ Rossi ◽  
Concetta Marino ◽  
Francesco Minichiello ◽  
Francesco Russo
Keyword(s):  
Thermal Comfort ◽  
Primary Energy ◽  
Building Envelope ◽  
Photovoltaic System ◽  
Zero Energy ◽  
Air Conditioning System ◽  
Current Configuration ◽  
Non Invasive ◽  
Zero Energy Building ◽  
Energy Simulations

The theme of the energy requalification of historic buildings is addressed considering the Palaeontology Museum of Naples (Southern Italy). It is assessed whether, through non-invasive methods and without intervening on the building envelope, it is possible to obtain internal hygrothermal parameters suitable to allow both occupants’ thermal comfort and satisfactory conservation conditions for the archaeological finds. In addition, a relevant reduction of energy requirements and CO2 equivalent emissions is required. Dynamic energy simulations are conducted regarding both the current configuration and the various possible modifications concerning the air conditioning system; the model is calibrated by comparison with real energy consumption data. The electric and primary energy are compared for the various cases. Furthermore, the internal hygrothermal conditions for occupants’ thermal comfort and for conservation of the archaeological finds are analysed. Finally, the possibility of inserting a suitable and minimally invasive photovoltaic system is evaluated and an almost ‘Double Plus-Zero Energy Building’ is obtained.

scholarly journals Transformation of an Office Building into a Nearly Zero Energy Building (nZEB): Implications for Thermal and Visual Comfort and Energy Performance

Energies ◽  
2019 ◽  
Vol 12 (5) ◽  
pp. 895 ◽  
Author(s):  
Ilaria Ballarini ◽  
Giovanna De Luca ◽  
Argun Paragamyan ◽  
Anna Pellegrino ◽  
Vincenzo Corrado
Keyword(s):  
Thermal Comfort ◽  
Energy Savings ◽  
Energy Performance ◽  
Primary Energy ◽  
Building Envelope ◽  
Office Building ◽  
Indoor Environmental Quality ◽  
Visual Comfort ◽  
Zero Energy ◽  
Efficiency Measures

Directive 2010/31/EU promotes the refurbishment of existing buildings to change them into nearly zero-energy buildings (nZEBs). Within this framework, it is of crucial importance to guarantee the best trade-off between energy performance and indoor environmental quality (IEQ). The implications of a global refurbishment scenario on thermal and visual comfort are assessed in this paper pertaining to an existing office building. The retrofit actions applied to achieve the nZEB target consist of a combination of envelope and technical building systems refurbishment measures, involving both HVAC and lighting. Energy and comfort calculations were carried out through dynamic simulation using Energy Plus and DIVA, for the thermal and visual performance assessments, respectively. The results point out that energy retrofit actions on the building envelope would lead to significant improvements in the thermal performance, regarding both energy savings (−37% of the annual primary energy for heating) and thermal comfort. However, a daylighting reduction would occur with a consequent higher electricity demand for lighting (36%). The research presents a detailed approach applicable to further analyses aimed at optimizing the energy efficiency measures in order to reduce the imbalance between visual and thermal comfort and to ensure the best performance in both domains.

scholarly journals Energy and thermal modeling of building façade integrated photovoltaics

2018 ◽  
Vol 22 (Suppl. 3) ◽  
pp. 921-932 ◽  
Author(s):  
Konstantinos Ordoumpozanis ◽  
Theodoros Theodosiou ◽  
Dimitrios Bouris ◽  
Katerina Tsikaloudaki
Keyword(s):  
Electricity Generation ◽  
Measured Data ◽  
Building Envelope ◽  
Zero Energy ◽  
Large Area ◽  
Finite Volume Model ◽  
Volume Model ◽  
Urban Buildings ◽  
Zero Energy Building ◽  
Integrated Performance

Electricity generation on site is a design challenge aiming at supporting the concept of energy-autonomous building. Many projects worldwide have promoted the installation of photovoltaic panels on urban buildings, aiming at utilizing a large area to produce electricity. In most cases, photovoltaics are considered strictly as electricity generators, neglecting their effect to the efficiency and to the thermal behaviour of the building envelope. The integrated performance of photovoltaic ventilated fa?ades, where the photovoltaics are regarded as part of a complicated envelope system, provides design challenges and problems that cannot be overlooked within the framework of the Nearly Zero Energy Building concept. In this study, a finite volume model for photovoltaic ventilated fa?ades is developed, experimentally validated and found to have a significant convergence to measured data.

scholarly journals Evaluation of Primary Energy from Photovoltaics for a Nearly Zero Energy Building (nZEB): A Case Study in Lithuania

Proceedings ◽  
2020 ◽  
Vol 51 (1) ◽  
pp. 5
Author(s):  
Rokas Tamašauskas ◽  
Jolanta Šadauskienė ◽  
Dorota Anna Krawczyk ◽  
Violeta Medelienė
Keyword(s):  
Energy Consumption ◽  
Primary Energy ◽  
Primary Energy Consumption ◽  
Renewable Energy Resources ◽  
Zero Energy ◽  
Energy Factor ◽  
Average Value ◽  
Pv Systems ◽  
Zero Energy Building ◽  
The Difference

The European Commission has set the target in the Energy Efficiency Directive (EED) to reduce EU primary energy consumption in 2020 by 20%. A crucial aspect of the overall assessment of energy saving measures that affect electricity demand is the primary energy factor that is used for evaluation of primary energy consumption from renewable energy resources in a Nearly Zero Energy Building (nZEB). The analysis of the resources has revealed that energy from photovoltaics is evaluated using different methods. Therefore, this article’s aim is to investigate and evaluate the primary energy factor of energy from photovoltaics using the data of produced and consumed energy of 30 photovoltaic (PV) systems operating in Lithuania. Investigation results show that the difference of non-renewable primary energy factor between the PV systems due to capacities is 35%. In addition, the results of the studies show that the average value of the primary energy factor of PV systems in Lithuania is 1.038.

Villa Castelli - Transformation of Historical Building into Nearly Zero Energy Building

2019 ◽  
Vol 887 ◽  
pp. 148-155
Author(s):  
Paola Penna ◽  
Oscar Stuffer ◽  
Alexandra Troi ◽  
Valentina Carí
Keyword(s):  
Renewable Energy ◽  
Renewable Energy Sources ◽  
Building Envelope ◽  
Energy Sources ◽  
Uniform Structure ◽  
Zero Energy ◽  
Historical Building ◽  
Zero Energy Building ◽  
Energy Needs ◽  
Heritage Building

What Americas Cup and a heritage building have in common? They both aim at innovative technologies and cutting-edge solutions. The owner of the project, an ex-crew member of the most famous sailing match race in the world, pushed the planning team to develop extraordinary solutions for his house. The house, Villa Castelli, is an historical listed building located on the Como lake. During its history, it has been transformed many times, giving as results a non-uniform structure composed by different construction technologies. The aims of the owner were: an overall refurbishment particularly focused on energy efficiency, the exploitation of renewable energy sources based on-site production and a fixed budget. To reach these goals, the energy needs have been reduced improving the performance of the thermal envelope. Then, the building's technical systems have been re-developed in order to exploit as much as possible available renewable energy sources. From the very beginning, it was clear that, for finding optimal solutions, a multidisciplinary approach was necessary. The design approach should be the result of a shared approach integrating different fields, such as creative design, technology, knowledge of material properties, building physics. The great synergy among building envelope retrofitting, innovative technological solutions and the deployment of renewable energy sources allows the transformation of this historical listed building into an outstanding example of a nearly zero energy building (nZEB).

scholarly journals Energy-related conditions and envelope properties for sustainable buildings

2016 ◽  
Vol 64 (4) ◽  
pp. 697-707 ◽  
Author(s):  
R. Geryło
Keyword(s):  
New Technologies ◽  
Heat Storage ◽  
Primary Energy ◽  
Building Envelope ◽  
General Description ◽  
Assessment Methodology ◽  
Zero Energy ◽  
Thermal Transmittance ◽  
Latent Heat Capacity

AbstractThe assessment methodology for the sustainability of buildings is based on the analysis of environmental, social and economic performance. The main purpose of the paper is the presentation of energy-related conditions and envelope properties as well as methodology aspects. The first part of the paper presents the literature review on sustainability and zero-energy buildings. The second part is devoted to describe different energy indicators for the evaluation of primary energy requirements and energy characteristic. The last section describes the general methodology for characterization of energetic properties of the building envelope and gives examples from literature of the effect of applications in a building’s envelope an aerogel based thermal insulation for higher thermal transmittance and a PCM for higher latent heat capacity with general description of results obtained by other authors. The crucial measure is the use of high thermal performance components for the building’s envelopes combined with the heat storage potential. In the context of sustainability, energy related conditions constitute a new set of indicators for identifying the usefulness and the efficiency of new technologies.

Towards nearly zero energy building concept – visual comfort and energy efficiency assessments in a classroom

2021 ◽  
Vol ahead-of-print (ahead-of-print) ◽  
Author(s):  
Norhayati Mahyuddin ◽  
Mozhgan Samzadeh ◽  
Suzaini M. Zaid ◽  
Norafida Ab Ghafar
Keyword(s):  
Energy Efficiency ◽  
Primary Energy ◽  
Building Energy Efficiency ◽  
Visual Comfort ◽  
Zero Energy ◽  
Content Type ◽  
Artificial Lighting ◽  
Zero Energy Building ◽  
Efficiency Cost ◽  
Simple Action

PurposeThis paper aims to raise awareness on how a simple action by the occupant can significantly influence building energy efficiency, cost and CO2 emissions to the environment. Classrooms in schools are the primary energy consumers (45.4%) due to the use of artificial lighting, despite Malaysia's tropical climate being ideal for daylight exploitation. This paper focuses on assessing the workplane daylight distribution quality and quantity in baseline and existing conditions of a typical pre-school classroom in Kuala Lumpur as a model-based exploration strategy towards nearly Zero Energy Buildings.Design/methodology/approachThe adopted method is based on the calculation of average daylight factor (DF), daylight illuminance level (IL) and uniformity ratio (UR) parameters affected by the internal fixed drapes through computational and in situ measurements according to the requirements of the law and respective standards comprising the MS1525:2019, GBI and BREEAM.FindingsThe results show how user behaviour can turn a well-daylit area (Net Lettable Area>90%) into a poor-daylit area (NLA<5%) by sacrificing natural daylight. All the parameters' values were significantly decreased from 10% (UR) up to 88% (ADF). Full dependency on artificial lighting has imposed a total of RM18858.90 and CO2 emissions of 25,362 kg for all pre-schools' classrooms in the country per day.Social implicationsThe paper develops the occupants' awareness on their contribution to climate change and global warming through the information and transparency provided.Originality/valueThe evidence indicates that a simple action by the occupant can significantly influence visual comfort, EE, cost and CO2 emissions to the environment.

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