Harputlugil, Gülsu
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Harputlugil, Gulsu Ulukavak
Harputlugil, Gülsu Ulukavak
Harputlugil, G.U.
Ulukavak Harputlugil, G.
Harputlugil, Gulsu U.
Ulukavak HARPUTLUGİL, Gülsu
Harputlugil, Gülsu Ulukavak
Harputlugil, Gulsu U. L. U. K. A. V. A. K.
Harputlugil, Gülsu Ulukavak
Harputlugil, Gülsu Ulukavak
Harputlugil, Gülsu Ulukavak
Harputlugil, G.U.
Ulukavak Harputlugil, G.
Harputlugil, Gulsu U.
Ulukavak HARPUTLUGİL, Gülsu
Harputlugil, Gülsu Ulukavak
Harputlugil, Gulsu U. L. U. K. A. V. A. K.
Harputlugil, Gülsu Ulukavak
Harputlugil, Gülsu Ulukavak
Job Title
Prof. Dr.
Email Address
gharputlugil@cankaya.edu.tr
Main Affiliation
05.02. Mimarlık
05. Mimarlık Fakültesi
01. Çankaya Üniversitesi
05.02. Mimarlık
Mimarlık
05. Mimarlık Fakültesi
01. Çankaya Üniversitesi
05. Mimarlık Fakültesi
01. Çankaya Üniversitesi
05.02. Mimarlık
Mimarlık
05. Mimarlık Fakültesi
01. Çankaya Üniversitesi
Status
Current Staff
ORCID ID
Scopus Author ID
Turkish CoHE Profile ID
Google Scholar ID
WoS Researcher ID
Files
Sustainable Development Goals
13
CLIMATE ACTION
3
Research Products
8
DECENT WORK AND ECONOMIC GROWTH
1
Research Products
3
GOOD HEALTH AND WELL-BEING
0
Research Products
15
LIFE ON LAND
0
Research Products
17
PARTNERSHIPS FOR THE GOALS
1
Research Products
14
LIFE BELOW WATER
0
Research Products
4
QUALITY EDUCATION
0
Research Products
11
SUSTAINABLE CITIES AND COMMUNITIES
2
Research Products
6
CLEAN WATER AND SANITATION
0
Research Products
10
REDUCED INEQUALITIES
2
Research Products
9
INDUSTRY, INNOVATION AND INFRASTRUCTURE
0
Research Products
12
RESPONSIBLE CONSUMPTION AND PRODUCTION
1
Research Products
2
ZERO HUNGER
0
Research Products
1
NO POVERTY
2
Research Products
7
AFFORDABLE AND CLEAN ENERGY
4
Research Products
5
GENDER EQUALITY
0
Research Products
16
PEACE, JUSTICE AND STRONG INSTITUTIONS
1
Research Products
Documents
22
Citations
80
h-index
5
Documents
16
Citations
59
Scholarly Output
18
Articles
13
Views / Downloads
474/316
Supervised MSc Theses
2
Supervised PhD Theses
0
WoS Citation Count
45
Scopus Citation Count
46
WoS h-index
4
Scopus h-index
4
Patents
0
Projects
0
WoS Citations per Publication
2.50
Scopus Citations per Publication
2.56
Open Access Source
10
Supervised Theses
2
Google Analytics Visitor Traffic
| Journal | Count |
|---|---|
| Energy Policy | 2 |
| Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi | 2 |
| Building Simulation Applications -- Building Simulation Applications, BSA 2015 - 2nd IBPSA-Italy Conference -- 4 February 2015 through 6 February 2015 -- Bozen-Bolzano -- 138235 | 1 |
| Building Simulation Conference Proceedings -- 18th IBPSA Conference on Building Simulation, BS 2023 -- 4 September 2023 through 6 September 2023 -- Shanghai -- 194744 | 1 |
| Civil Engineering and Architecture | 1 |
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Scopus Quartile Distribution
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18 results
Scholarly Output Search Results
Now showing 1 - 10 of 18
Conference Object Citation - Scopus: 2Assessing the Reliability of Turkish Building Energy Performance Tool (bep-Tr2) by Case Tests(EDP Sciences, 2019) Harputlugil, G.U.; Zeki Yilmazoglu, M.; Unlu, G.This paper aims to draw a general picture of the simplified software for calculation building energy performance based on Turkish Regulations called BEP-tr.v2, which was released at the end of 2017. Even the tool has a simplified calculation methodology, the discussion in this paper is going to be focused on assessing the accuracy of the tool by test cases. The assessing procedure for the tool has two steps. In the first step, box type cases are analyzed, and the results are compared with the results of a detailed energy simulation tool (BES) to perceive the percentage of deviations. In the second step, a current building is selected to use as a test case. The model results are compared with the real consumptions of the building to see the convergence rate of the tool (Bep-TR2). The results showed that the net energy calculation procedure of the methodology needs to be improved. © The Authors, published by EDP Sciences. This is an open access article distributed under the terms of the Creative Commons Attribution License 4.0Article Citation - WoS: 3Citation - Scopus: 3Exploring Fire Safety Conditions of Double Skin Facades(Gazi Univ, Fac Engineering Architecture, 2024) Aslar, Eylem Ezgi; Harputlugil, Gulsu UlukavakHuman health, comfort and safety are of primary importance in the built environment. Among the security measures, the most important risk is the risk of fire. For this reason, the issue of fire risk, spread and safety is considered as one of the criteria that should be considered from the building design stage. Within the scope of this study, building models with the same floor height, different plan and facade types, designed in 3D, were analyzed in the fire simulation program called PyroSim. Based on the data obtained as a result of the analyzes, the results of the temperature, smoke and flame spread at the time of fire according to the facade and plan types are presented in tables. As a result of the data obtained, it was determined that box-type systems in double-layer facades are the most problematic facade type in terms of evacuation of living creatures. In terms of smoke spread, it has been revealed that the systems that continue uninterruptedly along the facade pose a problem when the access and spread to other floors are taken into account. It is necessary to consider fire safety as a design problem. It is considered that more detailed studies should be carried out in our country on this subject, that the project should be designed by considering the simulations from the decision stage to the implementation stage of the building, and that the regulations should be developed in order to be a good guide in both the design and implementation stages.Conference Object Re-Thinking of Energy Consumption Classification by the Patterns of Occupant Behaviour in Dwellings: a Conceptual Framework(Free University of Bozen Bolzano, 2015) Harputlugil, G.U.; Harputlugil, Timuçin; Harputlugil, T.; Harputlugil, Gülsu; MimarlıkThe aim of this paper is to present the conceptual framework of a TUBİTAK funded project titled "Developing a New Methodology to Improve Housing Quality in Turkey Based on Effects of Occupant Behavior on Energy and Comfort of the Dwellings". Although the objective of the project is the development of new methodologies and tools to be used for the definition of effects of behavior profiles of housing occupants on the energy consumption and usage of this knowledge for building new houses and renovation of existing buildings, here the first step of research has been executed. By defining sensitivity of occupant behavior on energy consumption, it is planned to classify different models of occupant behavior. With data provided, the aim is to develop an "occupant behavior labeling" which rates occupants instead of buildings. To provide the mentioned data, sensitivity analysis of existing occupant behavior will be analysed based on the Monte Carlo Methodology. This methodology is one of the most used methodologies to analyse accurate distribution of possible outputs relied on inputs based on probability. Inputs for this research are (1) number of occupants for each space (for weekdays and weekend) (2) behaviour for ventilation (Window open/closed and mechanical ventilation on/off) (3) control of heating systems (radiator on/off and/or thermostat degree). These data will be provided with survey and data logging of chosen a house occupant group. As a consequence of the research, the aim is not only to rate the behavior of housing occupants but also determine occupancy groups/labels. With this approach, based on occupant's behavior labeling, the aim is to realize fast and affective applications for renovation of existing buildings. Moreover, by evaluation/assessment of houses which will be designed in the future based on determined occupant profiles allow to produce high performance dwellings. © 2015 by Bozen-Bolzano University Press Free University of Bozen-Bolzano All rights reserved.Article A Holistic Approach To Different Regulations for Acoustic Improvements in Industrial Facilities(SAGE Publications Inc., 2024) Yaman, M.; Ulukavak Harputlugil, G.; Kurtay, C.With the developing technology and mechanization, the number of industrial facilities has increased. It is important for the worker’s physical and mental health to be in suitable working conditions. This paper analyses the regulations applied in the examination and evaluation of the acoustic environment in industrial facilities. The European Parliament and Council Directive, the United States, Singapore, Canada, Australia, Mexico, Japan, and WHO principles were analysed in detail. Simultaneously, analyses were conducted on the auditory perception of the workers in industrial facilities. As a result of the study, 85, 87, and 90 dBA noise exposure levels were determined for 8 h in different regulations examined. It has been determined that the regulative systems for the auditory perception of the workers in industrial facilities are insufficient. It was found necessary to develop regulation systems for evaluating noise exposure levels and the auditory perception of the workers together. It is important for the occupational health and safety of workers to develop a holistic approach in the update and revision of international regulation and to evaluate the control mechanisms within this scope. The protection of mental and physical health of the workers is presented as the most fundamental requirement. Moreover, it should be ensured that the noise control measures that can be taken (at the source, at the transmission path, and at the receiver) are formed by reducing the noise exposure and increasing the auditory perception of the workers in a positive view. © The Author(s) 2024.Article Citation - WoS: 4Effects of Occupant Behavior on the Energy Performance of Dwellings: a Sensitivity Analysis(Locke Science Publ Co inc, 2016) Harputlugil, Gülsu; Harputlugil, Gulsu Ulukavak; Bedir, Merve; MimarlıkThis paper focuses on the influence of occupant behavior on the energy performance of dwellings in the Dutch context. The aim of this study was to identify, how the energy performance of a dwelling is sensitive to the behavior of its occupants. To this end, the study's methodology adopted the Monte Carlo method of analysis, one of the most commonly used means of analyzing the approximate distribution of possible results on the basis of probabilistic inputs. Data related to occupant behavior were generated from a survey of 313 households in The Netherlands. The Dutch reference row house was used to test the behavioral patterns, and the test results were determined through simulation-based modeling. The key input parameters were presence, heating control patterns (thermostat and radiators), and ventilation control patterns (windows, grilles, and mechanical ventilation), while minimum indoor resultant temperature and heating energy demand served as the key output parameters. The results showed that both heating energy demand and minimum indoor resultant temperature were most sensitive to the thermostat setting and most robust in relation to the radiator setting.Conference Object Rethinking Natural Ventilation Strategies in Buildings Through Simulation(International Building Performance Simulation Association, 2023) Coşar, M.; Harputlugil, G.U.; De Wilde, P.Natural ventilation using passive approaches can increase indoor air quality without the need for mechanical systems. In the paper, mechanical ventilation has been ignored due to the associated energy use and greenhouse gas emissions. Instead, the study focusses on natural ventilation that can be created with architectural solutions. Specifically, the indoor air quality of a typical office building in Ankara, Türkiye was determined based on measurements, a building occupant survey, and the natural ventilation conditions as well as design alternatives were analysed by modelling and simulating the building using Autodesk CFD. From the simulation results, it was understood that current form of windows were not found suitable for effective and sufficient natural ventilation. As a result, not only design strategies that will increase the natural ventilation potential are put forward, but also strategies for façade elements have been produced in means of wind catchers. © 2023 IBPSA.All rights reserved.Article Prediction Models With Multiple Linear Regression for Improving Acoustic Performance of Textile Industry Plants(Polska Akad Nauk, Polish Acad Sciences, inst Fundamental Tech Res Pas, 2025) Yaman, Muammer; Kurtay, Cuneyt; Harputlugil, Gulsu U. L. U. K. A. V. A. K.In industrial plants noise is a major threat to the mental and physical health of employees. The risk increases more due to the presence of high noise sources and the presence of too many employees in textile industry plants. This paper aims to predict the consequences of variables that may arise in the plants for acoustic improvement in textile industry plants. For this purpose, scenario plants have been created according to architectural properties and source-transmission path-receiver characteristics. The acoustic analyses of the scenario plants were performed in the ODEON Auditorium, and A-weighted sound pressure level (LA), noise reduction (NR), and reverberation time (RT) were determined. From the data, prediction equations were created with a multiple linear regression (MLR) model. To test the prediction equations, acoustic measurements were made, and acoustics improvements were carried out at a textile industry plant located in Turkiye. When the obtained results, the success, validity, and reliability of the prediction method are provided. In conclusion, the effect of architectural properties and the surface absorption on acoustic improvements in the textile industry was revealed. It was emphasized that prediction methods can be used to determine the effectiveness of interventions that can be applied in different facilities and can be improved in future studies.Article Analysis of Condensation Risk in a Wall Section in the Context of Climate Change Scenarios(Horizon Research Publishing, 2024) Saricioglu, P.; Aycam, İ.; Harputlugil, G.U.The effects of climate change can be seen in many areas. Although there are many causes of climate change (changes in solar radiation, differences in the Earth’s orbit, continental shifts and changes in the atmosphere), one of the most noticeable causes in the 21st century is anthropogenic effects. One area where these impacts can be seen is the construction sector in buildings and building façades. Climate change will change assumptions about façade design in the coming decades. For this reason, it is important to develop climate change projections for existing and new buildings. For this purpose, the literature has three basic climate models. Therefore, the aim of this study is to compare the condensation risk for a wall section in a city with a humid-temperate climate (Zonguldak, Turkey) using HadGEM, MPI and GFDL climate models according to RCP8.5 scenario data for the historical period 2015 and the future year 2081. Within the scope of the study, the average temperatures and relative humidity values were obtained from GDM (General Directorate of Meteorology) by choosing 2081 and 2015, which are frequently used in climate change studies based on the literature. In the method, the projection results for the historical and future periods were compared and became the basis for the next stage. In the next step, based on the literature, the condensation control in the wall section was compared for the past and future using the Glaser method, which is frequently used in condensation control in wall sections and included in the TS 825 standard created for Turkey, which corresponds to EN ISO 13788 and DIN 4108 standards. According to the results, the humidity and temperature fluctuations in the future period and increase in averages are important problems that need to be addressed in detail in façade design and the impact of condensation risk. Therefore, according to the condensation control calculations made in the wall section detail, condensation risk occurs in the future period. Consequently, assumptions in façade design will need to change for existing and future buildings to accommodate condensation risk. © 2024 by authors, all rights reserved.Article Citation - WoS: 7Citation - Scopus: 8A Novel Approach for Renovation of Current Social Housing Stock Based on Energy Consumption in Turkey: Significance of Occupant Behaviour(Taylor & Francis Ltd, 2019) Harputlugil, Timucin; Pedergnana, Matthieu; Sarioglu, Esra; Harputlugil, Guelsu UlukavakThe goal of this research is to attempt establishing occupant behaviour profiles and how that behaviour impacts energy consumption with regard to indoor comfort levels in the current social housing stock in Turkey. The data consists of a large statistical survey that included four housing complexes situated in different climate regions in Turkey. Another more detailed survey was given to occupants of housing blocks in Ankara. Apartments were also monitored during a one-week period in summer and again in winter. All collected data were evaluated by sensitivity analysis. The results showed that occupant presence at home and operating windows had the most profound effect on internal loads and comfort levels whole year. Additionally, the transparency level of curtains, impacts the indoor temperature during the winter time. The results were used to develop a web-based tool which is going to be a guide for renovation strategies of current housing stock.Master Thesis Türkiye'deki Farklı İklim Bölgeleri için Pasif Yapı Tasarım Stratejileri(2025) Arslan, Emine Hilal; Harputlugil, Gülsu UlukavakBu tez, Türkiye'nin iklimsel çeşitliliğini yansıtan dört farklı iklim bölgesinde (Antalya, İstanbul, Ankara, Kars) pasif güneş tasarımı stratejilerinin uygulanabilirliğini karşılaştırmalı olarak incelemiştir. Artan nüfus ve hızlı kentleşmenin binaların enerji talebini artırdığı, bu nedenle fosil yakıt tüketimi ve sera gazı emisyonlarının ciddi boyutlara ulaştığı vurgulanmıştır. Amaç, bölgesel iklim verilerine dayalı pasif tasarım ilkelerini tanımlamak, enerji tüketimini azaltma potansiyelini ortaya koymak ve mimarlara somut öneriler sunmaktır. Araştırma, önce literatür taraması yoluyla pasif tasarım tekniklerini tanımlamış; ardından dört ilin iklim verileri (sıcaklık, nem, güneşlenme süresi, rüzgâr) ile Climate Consultant programı önerileri karşılaştırılmıştır. Devamında Ankara'daki ofis binası örneği üzerinden ayrıntılı alan araştırması yapılmış; diğer üç ilde tasarlanan yapılar bu modelle kıyaslanmıştır. Sonuçlar, her bölgeye özgü farklı stratejilerin benimsendiğini göstermiştir: Antalya ve İstanbul'da gölgelendirme elemanlarının etkin kullanımı, geniş çapraz havalandırma ve açık plan; Ankara'da gece havalandırması, termal kütle dengesi ve toprak barınağı; Kars'ta ağır termal kütle, eğimli çatı ve süper yalıtım uygulamaları öncelikli olmuştur. Tüm illerde, hakim rüzgâr yönünde akslandırma, güney cephe optimizasyonu, yerel iklime özel olarak belirlenmiş cam/zemin oranı ve iklime uygun malzeme seçimleri ortak ilkeler olarak kaleme alınmıştır. Bu çalışmanın bulguları, bölgesel pasif tasarım ilkelerinin enerji tasarrufu üzerinde önemli etkileri olduğunu ortaya koymaktadır. Tez, mimarlık pratiğine yönelik ayrıntılı bir pasif tasarım rehberi sunarken, gelecekte saha testleri ve farklı bina tipolojilerinde uygulama adımlarını da önermektedir. Anahtar Kelimeler: Pasif Güneş sistemleri, Enerji verimliliği, İklime dayalı tasarım, Biyoklimatik mimari, Sürdürülebilir mimari
