References
- * Legea nr.10 privind calitatea in constructii (Law no. 10 regarding quality in constructions)
- * Legea 372 din 13/12/2005 privind performanta energetica a cladirilor (Law 372 of 13/12/2005 on the energy performance of buildings)
- **Mc001/2007 – Metodologia de calcul al performantei energetice a cladirilor (Mc001/2007 – Methodology for calculating the energy performance of buildings)
- **NP008/1997 – Normativ privind igiena compozitiei aerului in spatii cu diverse destinatii, in functie de activitatile desfasurate in regim de iarna/vara (NP008/1997 – Regulations regarding the hygiene of air composition in spaces with various destinations, depending on the activities carried out in the winter/summer regime)
- **MP 013/2001 – Metodologie privind stabilirea ordinii de prioritate a masurilor de reabilitare termica a cladirilor si instalatiilor aferente. Program cadru al programului national de reabilitare si modernizare termica a cladirilor si instalatiilor aferente. (MP 013/2001 – Methodology regarding the establishment of the order of priority of thermal rehabilitation measures of buildings and related installations. Framework program of the national program for thermal rehabilitation and modernization of buildings and related installations.)
- **GT 040-02 – Ghid de evaluare a gradului de izolare termica a elementelor de la cladiri existente in vederea reabilitarii termice. (GT 040-02 – Guide for evaluating the degree of thermal insulation of elements from existing buildings for the purpose of thermal rehabilitation.)
- **GT 043-02 – Ghid privind imbunatatirea calitatilor termoizolatoare ale ferestrelor la cladirile civile existente. (GT 043-02 – Guide on improving the thermal insulation qualities of windows in existing civil buildings.)
- **C107/0-2002 – Normativ pentru proiectarea si executia lucrarilor de izolatii termic la cladiri. (C107/0-2002 – Regulations for the design and execution of thermal insulation works in buildings.)
- **C107/3-2005 – Normativ privind calculul termotehnic al elementelor de constructie ale cladirilor. (C107/3-2005 – Normative regarding thermotechnical calculation of construction elements of buildings.)
- **C107/5-2005 – Normativ privind calculul termotehnic al elementelor de constructie ale cladirilor. (C107/5-2005 – Normative regarding thermotechnical calculation of construction elements of buildings.)
- ***SR 4839-1997 – Instalatii de incalzire. Numarul anual de grade - zile. (SR 4839-1997 – Heating installations. The annual number of degree-days.)
- ***SR1907/1-97 – Instalatii de incalzire. Necesarul de caldura de calcul. Prescriptii de calcul. (SR1907/1-97 – Heating installations. Calculation heat requirement. Calculation prescriptions.)
- ***STAS 7462/2 – Fizica constructiilor. Higrotermica. Parametri climatici exteriori. (STAS 7462/2 – Physics of constructions. Hygrothermal. External climatic parameters.)
- Jones, M. et al. (2021). “Energy Efficiency in Building Renovations: A Comprehensive Review.”
- Green, A. (2021). “Assessing the Impact of Energy Retrofits on Building Energy Performance.”
- Johnson, R. et al. (2022). “Renewable Energy Integration in Building Rehabilitation: Challenges and Opportunities.”
- Sustainable Buildings Institute (2021). “Best Practices for Energy-Efficient Building Retrofits.”
- International Energy Agency (2022). “Energy Efficiency 2022: Progress and Outlook.”
- Building Performance Institute (2021). “Energy Retrofitting: Strategies for Enhancing Building Performance.”
- European Union Energy Efficiency Directive (2022). “Guidelines for Building Energy Performance Improvements.”
- United Nations Environment Programme (2022). “Global Status Report for Buildings and Construction: Towards a Zero-Emission, Efficient, and Resilient Buildings and Construction Sector.”
- Energy and Environmental Science Journal (2021). “Recent Advances in Building Energy Retrofit Technologies.”
- International Journal of Sustainable Building Technology and Urban Development (2021). “Innovations in Sustainable Building Renovation: Case Studies and Lessons Learned.”
- U.S. Department of Energy. (2022). “Guidelines for Building Energy Audits and Retro-Commissioning.”
- Energy Policy Journal (2021). “Policy Instruments for Encouraging Energy-Efficient Building Renovations: A Comparative Analysis.”
- Stanca, S. (2023). “Improving Energy Efficiency in a Building Using Passive Energy-Saving Measures” Journal of applied engineering sciences VOL. 13(26), ISSUE 2/2023, ISSN: 2247-3769 / e-ISSN: 2284-7197, ART.NO. 384 pp. 269-274, DOI: 10.2478/jaes-2023-0034
- Abbas, Y. (2023). “Enhancing mechanical behaviour and durability of high performance concrete with silica fume, ground blast furnace slag, and marble powder” Journal of applied engineering sciences VOL. 13(26), ISSUE 2/2023, ISSN: 2247-3769 / e-ISSN: 2284-7197 ART.NO. 368, pp. 137-146, DOI: 10.2478/jaes-2023-0018
- Hanga-Fărcaş, I.F. (2023). “The building certification system – a tool of sustainable development of University campuses” . VOL. 13(26), ISSUE 1/2023, ISSN: 2247-3769 / e-ISSN: 2284-7197 ART.NO. 364, pp. 105-112, DOI: 10.2478/jaes-2023-0014
- Balaras, Constantinos & Dascalaki, Elena & Droutsa, Popi & Micha, Meletia & Kontogiannidis, Simon & Argiriou, Athanassios. (2017). Paper - Energy Use Intensities for Non-Residential Buildings. 10.13140/RG.2.2.19431.96166.
- Uda, Subrata Aditama K.A., Mochamad Agung Wibowo and Jati Utomo Dwi Hatmoko. “Embodied and Operational Energy Assessment Using Structural Equation Modeling for Construction Project.” Civil Engineering and Architecture 9 (2021): 670-681.
- Alhazzaa, Kifah. “ENERGY EFFICIENT REHABILITATION OF A HISTORIC BUILDING IN TUCSON, ARIZONA: INVESTIGATING THE POTENTIAL FOR ENERGY CONSERVATION WHILE PRESERVING THE BUILDING’S HISTORICAL INTEGRITY.” JOURNAL OF ARCHITECTURE AND URBANISM (2023):
- Scalisi, Francesca and Cesare Sposito. “Measure the Embodied Energy in Building Materials: An Eco-Sustainable Approach for Construction.” Renewable Energy and Sustainable Buildings (2019).
- Antonini, Ernesto. “Building’s Operational Versus Embodied Energy: Needs and Barriers for a More Reliable Environmental Impact Balance.” (2021).
- Palumbo, Elisabetta and Stefano Politi. “Improving building envelope efficiency: interaction between embedded energy and operational energy.” Techne. Journal of Technology for Architecture and Environment 16 (2018): 247-257.
- Scolaro, Antonello Monsù and Stefania De Medici. “Downcycling and Upcycling in Rehabilitation and Adaptive Reuse of Pre-Existing Buildings: Re-Designing Technological Performances in an Environmental Perspective.” Energies 14 (2021): 6863.
- Takva, Y., Ç. Takva and Zeynep Yeşim Ilerisoy. “Sustainable Adaptive Reuse Strategy Evaluation for Cultural Heritage Buildings.” International Journal of Built Environment and Sustainability (2023)
- Suarez-Riera, Daniel, Luciana Restuccia, Devid Falliano, Giuseppe Andrea Ferro, Jean-Marc Tuliani, Matteo Pavese and Luca Lavagna. “An Overview of Methods to Enhance the Environmental Performance of Cement-Based Materials.” Infrastructures (2024)
- Tsepilova, Olga. “RESEARCH OF METHODS FOR DETERMINING A FUNCTION DURING ADAPTIVE REUSE OF INDUSTRIAL COMPLEXES.” Bulletin of Belgorod State Technological University named after. V. G. Shukhov (2022)
- Tabrizi, Toktam Bashirzadeh, Glen Hill and Mathew H. Aitchison. “Using LCA to assist the selection of wall systems in the early stage of building design.” (2016).
- Kifah Alhazzaa “Energy-Efficient Rehabilitation of a Historic Building in Tucson, Arizona: Investigating the Potential for Energy Conservation While Preserving the Building’s Historical Integrity. Journal of Architecture and Urbanism.” (2023) DOI: https://doi.org/10.3846/jau.2023.16197
- Balaras, C., Dascalaki, E., Droutsa, P., Micha, M., Kontogiannidis, S., & Argiriou, A. “Energy Use Intensities for Non-Residential Buildings.” (2017) DOI: 10.24094/kghk.017.48.1.369
- Mohammad Ali Karbasforoushha, Mohammad Khajehzadeh, Thira Jearsiripongkul, Suraparb Keawsawasvong, Mahdiyeh Eslami, “A comprehensive review of building energy optimization using metaheuristic algorithms”, (2024), Journal of Building Engineering, Volume 98, 111377, ISSN 2352-7102. https://doi.org/10.1016/j.jobe.2024.111377 .
- L.F. Cabeza, A. Castell, M. Medrano, I. Martorell, G. Pérez, I. Fernández, “Experimental study on the performance of insulation materials in Mediterranean construction”, (2010), Energy and Buildings, Volume 42, Issue 5, Pages 630-636, ISSN 0378-7788, https://doi.org/10.1016/j.enbuild.2009.10.033 .
- Francesco Pomponi, Alice Moncaster, “Circular economy for the built environment: A research framework”, (2017), Journal of Cleaner Production, Volume 143, Pages 710-718, ISSN 0959-6526, https://doi.org/10.1016/j.jclepro.2016.12.055 .
- Pawel Wargocki, David P. Wyon, “Ten questions concerning thermal and indoor air quality effects on the performance of office work and schoolwork”, (2017), Building and Environment, Volume 112, Pages 359-366, ISSN 0360-1323, https://doi.org/10.1016/j.buildenv.2016.11.020 .