INVESTIGATION OF URBAN TEXTURE AND ENERGY CONSUMPTION RELATIONSHIP IN THE CONTEXT OF URBAN TRANSFORMATION: KADIKÖY CASE STUDY

Turkey is undergoing a major transformation process. This process, also called urban renewal, takes place at neighborhood and building (on-site transformation) scales. The literature focuses on transformation problem of the neighborhood scale; however, the characteristics of the problems associated with building scale transformation differ. One of these is texture differentiation. With the on-site renewal process, the existing urban texture and its micro-climate characteristics change. An existing low-rise building in the street is transformed and built as a high-rise multi-storey building, which shades the neighboring buildings in the texture. In this case, it can be predicted that the energy consumption performance of existing buildings will be affected. The aim of this study is to examine the effect of reconstructed high-rise buildings on existing buildings in the texture in terms of energy performance. The study area is chosen as Suadiye (Kadıköy, Istanbul) because of the high urban renewal activity. Using computer simulation methodology, the energy performance of a reference building was calculated for three texture scenarios: base situation (rural texture), 1960 urban texture and 2019 texture (after renewal). In this study, in which the building envelope is kept constant, the effect of the urban texture on the building energy consumption is clearly observed. According to the results of the study, lighting and heating energy consumption of the reference building increased during the transition from rural to 1960 texture. With the urban transformation law numbered 6306 enacted in 2012, it would be possible to save energy by optimizing the urban texture. However, in practice, it is seen that energy consumption of the reference building is increased more in the transformation from the 1960 texture to the 2019 texture. In other words, texture change has increased energy consumption. One of the goals of this high-cost transformation process, which is necessarily experienced with earthquake risk in the first place, was stated as providing energy savings. For this purpose, envelope insulation is mandatory in reconstructed buildings. However, independent of the building envelope, the characteristics of the urban texture also play an important role in energy consumption. For this reason, the optimization of the urban texture should be evaluated as a part of the transformation process and legal regulations should be implemented to support this. Potential impact analysis should be done before intervening in the urban texture.

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Energy performance of single family houses in Serbia: Analysis of calculation procedures

Thermal Science ◽

10.2298/tsci180726073m ◽

2019 ◽

Vol 23 (Suppl. 5) ◽

pp. 1695-1705

Author(s):

Dimitrije Manic ◽

Mirko Komatina ◽

Biljana Vucicevic ◽

Marina Jovanovic

Keyword(s):

Energy Consumption ◽

Energy Saving ◽

Dynamic Simulation ◽

Simulation Method ◽

Energy Performance ◽

Building Envelope ◽

Test Case ◽

Existing Buildings ◽

Single Family ◽

Steady State Method

Energy certification of buildings in Serbia was introduced in 2011 and energy label depends on energy need for heating per unit floor area of heated space, calculated by the fully prescribed monthly quasi-steady-state method defined by ISO 13790. In the Republic of Serbia, most of families live in single-family houses built before the energy certification of buildings was introduced. Therefore, the estimation of energy performance of the existing buildings is important for labeling, and evaluation of energy saving measures and energy strategies to be implemented. This paper examines the applicability of monthly method defined by National legislation on the existing buildings stock in Serbia, by comparing it to the more accurate dynamic simulation method. Typical single-family houses are taken as a test case, since they are responsible for about 76% of energy consumption for heating. The results show that the dynamic simulation method estimates 21% to 54% higher energy need for heating, compared to the monthly method. Also, the monthly method estimates up to 13% higher savings by typical building envelope energy saving measures, compared to the dynamic simulation. This paper recommends improvement in procedures for calculation of building energy performance index to better assess energy consumption, effects of energy saving measures, and create solid background for developing and implementing of energy saving strategies.

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Impact of roof shading on building energy performance in warm & humid climatic places of India

iCRBE Procedia ◽

10.32438/icrbe.202037 ◽

2020 ◽

pp. 50-64

Author(s):

Kuladeep Kumar Sadevi ◽

Avlokita Agrawal

Keyword(s):

Energy Consumption ◽

Energy Conservation ◽

Energy Performance ◽

General Assumption ◽

Climatic Conditions ◽

Building Envelope ◽

Passive Cooling ◽

Base Case ◽

U Value ◽

The Impact

With the rise in awareness of energy efficient buildings and adoption of mandatory energy conservation codes across the globe, significant change is being observed in the way the buildings are designed. With the launch of Energy Conservation Building Code (ECBC) in India, climate responsive designs and passive cooling techniques are being explored increasingly in building designs. Of all the building envelope components, roof surface has been identified as the most significant with respect to the heat gain due to the incident solar radiation on buildings, especially in tropical climatic conditions. Since ECBC specifies stringent U-Values for roof assembly, use of insulating materials is becoming popular. Along with insulation, the shading of the roof is also observed to be an important strategy for improving thermal performance of the building, especially in Warm and humid climatic conditions. This study intends to assess the impact of roof shading on building’s energy performance in comparison to that of exposed roof with insulation. A typical office building with specific geometry and schedules has been identified as base case model for this study. This building is simulated using energy modelling software ‘Design Builder’ with base case parameters as prescribed in ECBC. Further, the same building has been simulated parametrically adjusting the amount of roof insulation and roof shading simultaneously. The overall energy consumption and the envelope performance of the top floor are extracted for analysis. The results indicate that the roof shading is an effective passive cooling strategy for both naturally ventilated and air conditioned buildings in Warm and humid climates of India. It is also observed that a fully shaded roof outperforms the insulated roof as per ECBC prescription. Provision of shading over roof reduces the annual energy consumption of building in case of both insulated and uninsulated roofs. However, the impact is higher for uninsulated roofs (U-Value of 3.933 W/m2K), being 4.18% as compared to 0.59% for insulated roofs (U-Value of 0.33 W/m2K).While the general assumption is that roof insulation helps in reducing the energy consumption in tropical buildings, it is observed to be the other way when insulation is provided with roof shading. It is due to restricted heat loss during night.

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Energy Performance of a High-Rise Residential Building Using Fibre-Reinforced Structural Lightweight Aggregate Concrete

Applied Sciences ◽

10.3390/app10134489 ◽

2020 ◽

Vol 10 (13) ◽

pp. 4489

Author(s):

Zakaria Che Muda ◽

Payam Shafigh ◽

Norhayati Binti Mahyuddin ◽

Samad M.E. Sepasgozar ◽

Salmia Beddu ◽

...

Keyword(s):

Residential Building ◽

Green Building ◽

Lightweight Aggregate ◽

Energy Performance ◽

Building Envelope ◽

Lightweight Aggregate Concrete ◽

Aggregate Concrete ◽

High Rise ◽

Passive Design ◽

Envelope Material

The increasing need for eco-friendly green building and creative passive design technology in response to climatic change and global warming issues will continue. However, the need to preserve and sustain the natural environment is also crucial. A building envelope plays a pivotal role in areas where the greatest heat and energy loss often occur. Investment for the passive design aspect of building envelopes is essential to address CO 2 emission. This research aims to explore the suitability of using integral-monolithic structural insulation fibre-reinforced lightweight aggregate concrete (LWAC) without additional insulation as a building envelope material in a high-rise residential building in the different climatic zones of the world. Polypropylene and steel fibres in different dosages were used in a structural grade expanded clay lightweight aggregate concrete. Physical and thermal properties of fibre reinforced structural LWAC, normal weight concrete (NWC) and bricks were measured in the lab. The Autodesk@Revit-GBS simulation program was implemented to simulate the energy consumption of a 29-storey residential building with shear wall structural system using the proposed fibre-reinforced LWAC materials. Results showed that energy savings between 3.2% and 14.8% were incurred in buildings using the fibre-reinforced LWAC across various climatic regions as compared with traditional NWC and sand-cement brick and clay brick walls. In conclusion, fibre-reinforced LWAC in hot-humid tropical and temperate Mediterranean climates meet the certified Green Building Index (GBI) requirements of less than 150 kW∙h∙m−2. However, in extreme climatic conditions of sub-arctic and hot semi-arid desert climates, a thicker wall or additional insulation is required to meet the certified green building requirements. Hence, the energy-saving measure is influenced largely by the use of fibre-reinforced LWAC as a building envelope material rather than because of building orientation.

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Experimental Study on the Thermal Behavior of Exterior Coating Textures of Building in Hot and Arid Climates

Sustainability ◽

10.3390/su13084175 ◽

2021 ◽

Vol 13 (8) ◽

pp. 4175

Author(s):

Islam Boukhelkhal ◽

Fatiha Bourbia

Keyword(s):

Energy Consumption ◽

Surface Temperature ◽

External Surface ◽

Thermal Characteristics ◽

Energy Performance ◽

Building Envelope ◽

Interior Space ◽

Design Elements ◽

Aesthetic Appearance ◽

Reduction Of Energy Consumption

The building envelope is the barrier between the interior and exterior environments. It has many important functions, including protecting the interior space from the climatic variations through its envelope materials and design elements, as well as reduction of energy consumption and improving indoor thermal comfort. Furthermore, exterior building sidings, in addition to their aesthetic appearance, can have useful textures for reducing solar gains and providing good thermal insulation performance. This research examined and evaluated the effect of external siding texture and geometry on energy performance. For this objective, a field in situ testing and investigation of surface temperature was carried out on four samples (test boxes) with different exterior textures and different orientations, under the climate zone of Constantine–Algeria during the summer period. The results indicated significant dependability between the exterior texture geometry, the percentage of shadow projected, and external surface temperature. The second part of the research involved a similar approach, exploring the effect of three types of particles with the same appearance but with different thermal characteristics. It was concluded that the natural plant aggregates “palm particles” had the best performance, which contributed to a significant reduction of external surface temperature reaching 4.3 °C, which meant decreasing the energy consumption.

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Development of Energy Benchmarks for Office Buildings Using the National Energy Consumption Database

Energies ◽

10.3390/en13040950 ◽

2020 ◽

Vol 13 (4) ◽

pp. 950 ◽

Cited By ~ 1

Author(s):

Hye Gi Kim ◽

Sun Sook Kim

Keyword(s):

Energy Consumption ◽

Energy Performance ◽

Performance Assessments ◽

Statistical Characteristics ◽

Limited Information ◽

Existing Buildings ◽

Evaluation Systems ◽

Floor Area ◽

Consumption Data ◽

Performance Benchmark

In an effort to improve the energy efficiency of existing buildings, it is necessary to first evaluate the energy performance of those buildings. Since it is difficult to obtain detailed information on existing buildings, the challenge is how to conduct reliable energy performance assessments with this limited information. As a result, many countries have adopted evaluation systems based on measured energy consumption data for existing buildings. This study aims to analyze the building energy consumption and characteristics using Korea’s national building database and provide an energy performance benchmark for continuous management of the energy performance of existing buildings. We analyzed the relationship between the basic statistical characteristics of the information collected from the national integrated energy database and energy consumption. The total floor area was found to be closely related to energy consumption, and various regression analysis methods were applied and compared to develop a benchmark to explain the trends of energy consumption according to the increase in total floor area. Finally, the developed benchmarks were used to evaluate energy consumption and examine the feasibility of the benchmarks.

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A Comparative Study: Energy Performance Analysis of Conventional Office Buildings at Lucknow

Journal of Design and Built Environment ◽

10.22452/jdbe.vol20no1.3 ◽

2020 ◽

Vol 20 (1) ◽

pp. 24-34

Author(s):

Farheen Bano ◽

Vandana Sehgal

Keyword(s):

Energy Consumption ◽

Time Use ◽

Energy Savings ◽

Energy Performance ◽

Building Envelope ◽

Office Buildings ◽

Energy Audit ◽

Energy Usage ◽

Factors Affecting ◽

Using Data

In this study, the energy consumption of three government and three private office buildings in Lucknow was investigated, and the energy performance index (EPI) for each building was determined. The main purpose of this research was to assess the energy usage of the buildings and identify factors affecting the energy usage. An analysis was performed using data from an energy audit of government buildings, electricity bills of private office buildings, and an on-site visit to determine building envelope materials and its systems. The annual energy consumption of buildings has been evaluated through EPI. The EPI, measured in kilowatt hour per square meter per year, is annual energy consumption in kilowatt hours divided by the gross floor area of the building in square meters. In this study, the energy benchmark for day-time-use office buildings in composite climate specified by Energy Conservation Building Code (ECBC) has been compared with the energy consumption of the selected buildings. Consequently, it has been found that the average EPI of the selected buildings was close to the national energy benchmark indicated by ECBC. Moreover, factors causing inefficient energy consumption were determined, and solutions for consistent energy savings are suggested for buildings in composite climate.

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Impact of orientation and building envelope characteristics on energy consumption case study of office building in city of Nis

Thermal Science ◽

10.2298/tsci18s5499v ◽

2018 ◽

Vol 22 (Suppl. 5) ◽

pp. 1499-1509

Author(s):

Miomir Vasov ◽

Jelena Stevanovic ◽

Veliborka Bogdanovic ◽

Marko Ignjatovic ◽

Dusan Randjelovic

Keyword(s):

Energy Consumption ◽

Early Stage ◽

Building Energy ◽

Energy Performance ◽

Building Envelope ◽

Office Building ◽

Climatic Data ◽

Building Energy Efficiency ◽

Maximum Difference ◽

Heating And Cooling

Buildings are one of the biggest energy consumers in urban environments, so its efficient use represents a constant challenge. In public objects and households, a large part of the energy is used for heating and cooling. The orientation of the object, as well as the overall heat transfer coefficient (U-value) of transparent and non-transparent parts of the envelope, can have a significant impact on building energy needs. In this paper, analysis of the influence of different orientations, U-values of envelope elements, and size of windows on annual heating and cooling energy for an office building in city of Nis, Serbia, is presented. Model of the building was made in the Google SketchUp software, while the results of energy performance were obtained using EnergyPlus and jEplus, taking into ac-count the parameters of thermal comfort and climatic data for the area of city of Nis. Obtained results showed that, for varied parameters, the maximum difference in annual heating energy is 15129.4 kWh, i. e per m2 27.75 kWh/m2, while the maximum difference in annual cooling energy is 14356.1 kWh, i. e per m2 26.33 kWh/m2. Considering that differences in energy consumption are significant, analysis of these parameters in the early stage of design process can affect on increase of building energy efficiency.

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ENERGY RETROFITS FOR IMPROVING ENERGY EFFICIENCY IN BUILDINGS: A REVIEW OF HVAC AND LIGHTING SYSTEMS

10.31705/wcs.2021.25 ◽

2021 ◽

Author(s):

M.R. Amjath ◽

◽

H. Chandanie ◽

S.D.I.A. Amarasinghe ◽

◽

...

Keyword(s):

Energy Efficiency ◽

Energy Consumption ◽

Energy Use ◽

Implementation Process ◽

Energy Performance ◽

Existing Buildings ◽

Energy Auditing ◽

Lighting Systems ◽

Effective Decision Making ◽

And Performance

It has been observed that inefficient buildings consume three to five times more energy than efficient buildings. Subsequently, improving the Energy Efficiency (EE) of existing buildings, which account for a significant portion of the energy consumption of the building sector, has become a top priority. Also, Heating, Ventilation, and Air Conditioning (HVAC) and lighting systems typically account for three-quarters of a building's energy consumption. Hence, focus on the energy efficiency improvements associated with these subsystems is entailed to optimise the energy use of buildings in comparison to other energy consumers. Energy Retrofit (ER) is defined as the main approach in improving the energy efficiency of buildings to achieve energy reduction goals. Nevertheless, there is a general lack of awareness regarding ER. Thus, the purpose of this article is to bridge this research gap by critically reviewing the applicable literature on ER. The paper first analysed the role of retrofits in buildings concerning optimising energy performance. The paper also discusses the implementation process of ER, which includes five steps viz. pre-retrofit survey, energy auditing, and performance assessment, identification of suitable and feasible retrofit options, site implementation and commissioning, and validation and verification. Further, different types of ER applicable to HVAC and lighting systems are discussed. In their endeavor to enhance the EE of existing buildings, practitioners could apply the findings of this study, as a basis to understand the available ER types and as a measure to gauge the efficiency of existing buildings, which will facilitate effective decision-making.

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Energy Efficient Improvements of Existing Buildings through Building Envelope Upgrade Case Study of High Rise Block of Flats on 76, Boulevard Partizanski Odredi in Karpos IV, Skopje

South East European Journal of Architecture and Design ◽

10.3889/seejad.2016.10020 ◽

2016 ◽

Vol 2016 ◽

pp. 1-180

Author(s):

Katerina Petrushevska

Keyword(s):

Energy Efficiency ◽

Energy Efficient ◽

Energy Performance ◽

Building Envelope ◽

Living Room ◽

Building Stock ◽

Existing Building ◽

High Rise ◽

Class B

AIM: This research examines the important issue of energy efficient improvements to the existing building stock through building envelope upgrade. To facilitate this, the energy performance characteristics of the existing building stock were identified with a view to establishing an existing building stock type, where building envelope upgrades can contribute to a higher level of energy efficiency improvements. The literature review along with the selected building precedents was used to establish the best current practice for building envelope upgrades.MATERIAL AND METHODS: Established building precedents and identified best practice for building envelope upgrade, a high rise block of flats was identified and used as a case study, with the current and predicted, following building envelope upgrade, energy performance of the building calculated. This has allowed us to identify the possible energy efficiency improvements for this type of building following the building envelope upgrade. RESULTS: In the projected case, the building with energy class - "D" become class "B". In addition, increased quality of the living room in the attic was enabled. It was possible to obtain a decrease of the heating energy from 130.76 kWh/m²a to 37.73 kWh/m²a or to jump in the class "B" of energetic passport.CONCLUSION: This research contributes to the local implementation of the global agenda for sustainable development, design and construction, and it demonstrates the possible way and level of energy efficiency improvements to the least efficient building stock through existing building envelope upgrade.

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