Your search keyword '"Durmuş Arsan, Zeynep"' showing total 6 results

1. Applying underfloor heating system for improvement of thermal comfort in historic mosques: the case study of Salepçioğlu Mosque, Izmir, Turkey

Author

Gülden Gökçen Akkurt, Zeynep Durmuş Arsan, Khaled S.M. Bughrara, TR131301, TR130569, Bughrara, Khaled S. M., Durmuş Arsan, Zeynep, Gökçen Akkurt, Gülden, Izmir Institute of Technology. Architecture, and Izmir Institute of Technology. Energy Systems Engineering

Subjects

Mediterranean climate, Architectural engineering, 020209 energy, Adaptive thermal comfort, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Civil engineering, Salepçioğlu Mosque, Underfloor heating, HVAC, 0202 electrical engineering, electronic engineering, information engineering, 0105 earth and related environmental sciences, General Environmental Science, business.industry, Radiant heating, Thermal comfort, Dynamic simulation model, General Earth and Planetary Sciences, Mediterranean area, Environmental science, Indoor air temperature, business, Historic mosque

Abstract

9th Mediterranean Conference of HVAC: Historical Buildings Retrofit in the Mediterranean Area, Climamed 2017; Matera; Italy; 12 May 2017 through 13 May 2017, Mosques differ from other types of buildings by having an intermittent operation schedule. Due to five prayer times per day throughout the year, mosques are fully or partially, yet periodically, occupied. This paper examines the potential of using an underfloor heating system for improvement of indoor thermal comfort in a historic mosque, which is naturally ventilated, heated and cooled, based on adaptive thermal comfort method. The selected Salepçioǧlu Mosque, housing valuable wall paintings, was built in 1905 in KemeraltI, Izmir, Turkey. It requires specific attention with its cultural heritage value. Firstly, indoor microclimate of the Mosque was monitored for one-year period of 2014-15. Then, dynamic simulation modelling tool, DesignBuilder v.4.2 was used to create the physical model of the Mosque. The ASHRAE Guideline 14 indices were utilized to calibrate the model, by comparing simulated and measured indoor air temperature to achieve hourly errors within defined ranges. The results of calibrated baseline model indicate that the Mosque does not satisfy acceptable thermal comfort levels for winter months that provided by the adaptive method. Then, the effect of underfloor heating was examined in the second model by the.

Published

2017

2. Investigation of indoor microclimate of historic libraries for preventive conservation of manuscripts. Case Study: Tire Necip Paşa Library, İzmir-Turkey

Author

Cem Doğan Şahin, Gülden Gökçen Akkurt, Turgay Coşkun, Zeynep Durmuş Arsan, TR131301, TR130569, Şahin, Cem Doğan, Çoşkun, Turgay, Durmuş Arsan, Zeynep, Gökçen Akkurt, Gülden, Izmir Institute of Technology. Architecture, Izmir Institute of Technology. Energy Systems Engineering, and Izmir Institute of Technology. Mechanical Engineering

Subjects

Engineering, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Geography, Planning and Development, Microclimate, Transportation, 02 engineering and technology, Civil engineering, Indoor climate, Degradation risks, 0202 electrical engineering, electronic engineering, information engineering, ASHRAE 90.1, business, Risk assessment, Historic library, Manuscripts, Environmental planning, Preventive conservation, Civil and Structural Engineering

Abstract

Conservation of library collections requires an interdisciplinary approach. Dealing with the agents of deterioration via curative and preventive conservation methods has become a significant goal with new standards and norms in recent years. Preventive conservation aims indirect physical interventions such as climate control, good housekeeping and pest management. The aim of this study is to assess the degradation potential of indoor climate on valuable manuscripts that date back to 12th century, in a historic library in Tire-Izmir, Turkey. Through the study, first the library, namely Necip Pasa Library was continuously monitored by measurements of thermo-hygrometric parameters for one year. Then, the measured data were evaluated for the risk assessment based on the control classes of ASHRAE Chapter 21 to evaluate the mechanical, chemical and biological degradation risks. Finally, the conservation-oriented measures were proposed in order to keep the manuscripts under the better conditions. Results suggest that introducing a heating, ventilation and air-conditioning system to the building should be considered as the last option since natural hygrothermal behavior of the library gives reasonably sufficient evidences to prevent the manuscripts from degradations to some extent. Therefore, passive solutions should be given higher priorities not to disturb environmental past of the historic library.

Published

2017

3. A transdisciplinary approach on the energy efficient retrofitting of a historic building in the Aegean Region of Turkey

Author

Selim Sarp Tunçoku, Zeynep Durmuş Arsan, Cem Doğan Şahin, Gülden Gökçen Akkurt, Tor Broström, TR131301, TR130569, Şahin, Cem Doğan, Durmuş Arsan, Zeynep, Tunçoku, Selim Sarp, Gökçen Akkurt, Gülden, and Izmir Institute of Technology. Energy Systems Engineering

Subjects

Consumption (economics), Cultural heritage value, Engineering, Architectural engineering, business.industry, Mechanical Engineering, Building and Construction, Energy consumption, Historic buildings, Cultural heritage, Energy efficiency, Retrofitting, Building energy simulation, media_common.cataloged_instance, Electricity, Electrical and Electronic Engineering, European union, business, Civil and Structural Engineering, media_common, Efficient energy use

Abstract

Buildings account for 40% of total energy consumption in the European Union, yet at the same time they have considerable energy saving potentials. Historic buildings should be treated different from contemporary ones when it comes to energy improvements. The specifications which underline historical, sociocultural and architectural values require certain care during realization of energy saving implementations to sustain these values. The purpose of this study is to demonstrate how the energy efficient retrofitting in historic buildings should be managed in a transdisciplinary approach with a case study conducted on the historic building in ̄zmir - Turkey. A detailed building energy simulation tool was used to determine the impacts of energy efficient retrofits. The actual energy consumption of case building was based on the utility bills regarding electricity and heating fuel consumption. Building energy simulation tool was calibrated by comparing the measured and simulated indoor air temperatures and total energy consumptions. The inappropriate retrofits, which contradict to the cultural heritage values, were eliminated with a transdisciplinary approach. Later appropriate retrofits were gathered into three packages to evaluate their effects on the energy consumption. The results show that energy saving of more than 34% can be obtained without damaging the heritage values., Swedish Energy Agency within the national R&D program for energy efficiency in historic buildings

Published

2015

4. The effect of spatial interventions on historic buildings' indoor climate (Case Study: Tire Necip Paşa Library, Izmir-Turkey)

Author

Turgay Coşkun, Gülden Gökçen Akkurt, Özcan Gülhan, Cem Doğan Şahin, Zeynep Durmuş Arsan, TR55992, TR131301, TR130569, Coşkun, Turgay, Gülhan, Özcan, Şahin, Cem Doğan, Durmuş Arsan, Zeynep, Gökçen Akkurt, Gülden, Izmir Institute of Technology. Architecture, Izmir Institute of Technology. Energy Systems Engineering, and Izmir Institute of Technology. Mechanical Engineering

Subjects

Mediterranean climate, Engineering, business.industry, 020209 energy, Environmental resource management, Psychological intervention, 02 engineering and technology, Civil engineering, Spatial intervention, Indoor climate, HVAC, 0202 electrical engineering, electronic engineering, information engineering, Dynamic simulation model, General Earth and Planetary Sciences, Mediterranean area, business, Historic library, General Environmental Science

Abstract

9th Mediterranean Conference of HVAC: Historical Buildings Retrofit in the Mediterranean Area, Climamed 2017; Matera; Italy; 12 May 2017 through 13 May 2017, The indoor climate of historic libraries should meet rigorous requirements related to human thermal comfort and conservation of books, manuscripts and cultural proper-ties. Paper based collections in historic libraries can be deteriorated chemically, mechanically and biologically because of inadequate indoor climate conditions. In this paper, Necip Paşa Library, the historic library located in Tire-Izmir, Turkey, was selected as a case study. The chemical, mechanical and biological degradation risks on the manuscripts were evaluated based on the indoor climate parameters measured for one year period. The Library, consisting of a main hall, a manuscript zone and an entrance hall, was modelled via the dynamic simulation software, Design Builder. Calibration of the model was conducted with respect to the measured indoor temperature and relative humidity values. The portico/Revak at the south facade of Library was converted into the entrance hall by wooden framed windows in 1930. To be able to see the effect of that intervention on the indoor climate (correspondingly on degradation risk of the manuscripts), a new model, namely semi-open model, was created and simulated. A remarkable change has not been observed on chemical degradation risk when the results of semi-open and existing library models were compared, while mechanical and biological degradation risks were less in semi-open model.

Published

2017

5. Identification of the building parameters that influence heating and cooling energy loads for apartment buildings in hot-humid climates

Author

Yusuf Yıldız, Zeynep Durmuş Arsan, TR131301, Yıldız, Yusuf, Durmuş Arsan, Zeynep, and Izmir Institute of Technology. Architecture

Subjects

Engineering, Apartment, business.industry, Mechanical Engineering, Monte Carlo method, Apartment buildings, Building and Construction, Heat transfer coefficient, Structural engineering, Energy performance, Pollution, Civil engineering, Industrial and Manufacturing Engineering, Glazing, General Energy, Latin hypercube sampling, Solar gain, Sensitivity and uncertainty analyses, Passive solar building design, Sensitivity (control systems), Electrical and Electronic Engineering, business, Building parameters, Civil and Structural Engineering

Abstract

Identifying the building parameters that significantly impact energy performance is an important step for enabling the reduction of the heating and cooling energy loads of apartment buildings in the design stage. Implementing passive design techniques for these buildings is not a simple task in most dense cities; their energy performance usually depends on uncertainties in the local climate and many building parameters, such as window size, zone height, and features of materials. For this paper, a sensitivity analysis was performed to determine the most significant parameters for buildings in hot-humid climates by considering the design of an existing apartment building in Izmir, Turkey. The Monte Carlo method is selected for sensitivity and uncertainty analyses with the Latin hypercube sampling (LHC) technique. The results show that the sensitivity of parameters in apartment buildings varies based on the purpose of the energy loads and locations in the building, such as the ground, intermediate, and top floors. In addition, the total window area, the heat transfer coefficient (U) and the solar heat gain coefficient (SHGC) of the glazing based on the orientation have the most considerable influence on the energy performance of apartment buildings in hot-humid climates.

Published

2011

6. An approach for developing sensitive design parameter guidelines to reduce the energy requirements of low-rise apartment buildings

Author

Koray Korkmaz, Türkan Göksal Özbalta, Zeynep Durmuş Arsan, Yusuf Yıldız, TR114477, TR131301, Yıldız, Yusuf, Korkmaz, Koray, Durmuş Arsan, Zeynep, and Izmir Institute of Technology. Architecture

Subjects

Engineering, Architectural engineering, Low-rise, Apartment, business.industry, Mechanical Engineering, Global warming, Natural ventilation, Building and Construction, Energy consumption, Management, Monitoring, Policy and Law, Guideline, Hot-humid climate, Glazing, Apartment houses, General Energy, Latin hypercube sampling, Cooling loads, Climate change, business, Sensitivity analysis, Energy (signal processing)

Abstract

High levels of energy consumption in residential buildings and global warming are important issues. Thus the energy performance of buildings should be improved in the early stages of design. This article describes an approach for developing guidelines on sensitive and robust design parameters for the present, the 2020s, the 2050s and the 2080s. Such guidelines can help architects to design low-rise apartment buildings that require less energy for various purposes, such as heating or cooling. The article consists of a general literature review, interviews with architects, the generation of case-specific information and a mock-up presentation and a meeting with professionals. An example guideline that aims to reduce annual cooling energy loads under global warming in low-rise apartment buildings located in hot-humid climates is presented to demonstrate how the proposed approach can be applied. For this guideline, case-specific information was generated, and a global sensitivity analysis based on Monte Carlo Analysis and the Latin Hypercube Sampling technique was performed. The results show that the suggested approach is feasible and could be used to provide helpful information to architects during the design of low-rise apartment buildings with high energy performance. The most sensitive design parameters that affect annual cooling energy loads in low-rise apartment buildings were natural ventilation, window area, and the solar heat-gain coefficient (SHGC) of the glazing. The results are relevant for the present, the 2020s, the 2050s and the 2080s.

Published

2012