Toward Building Energy Reduction Through Solar Energy Systems Retrofit Options: An Equest Model

Abstract Office buildings are responsible for a great portion of total energy consumption. In this study, solar system based retrofitting measures such as daylighting control system (DCS), Trombe wall (TW) and photovoltaic (PV) systems are modeled to an office building located in Dayton, Ohio, United States. An energy modeling tool, eQuest is utilized to analyze the economic and environmental impacts of the proposed single retrofitting measures along with the combined measure to identify the optimized building energy reduction opportunity. Compared to the baseline energy consumption, adopting single energy efficiency measures such as PV, DCS, TW, and overhangs/fins to windows results in about 25, 10, 9, 1 percentages of energy reduction respectively. In terms of economic perspectives, overhang and fins provide the best simply payback time around 1 year. Other solar system based retrofitting measures such as TW, DCS and PV can provide economic simple payback with 1.5, 2.5, and 12 years respectively. PV turned out to be the most costly options although it provides the largest energy savings which lead to the largest CO2 reductions. Adopting the combined system along with 50 kW photovoltaic array to the rooftop results in 45 percent office building energy reduction.

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Impact of Building Orientation and Window-Wall Ratio on the Office Building Energy Consumption

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.409-410.606 ◽

2013 ◽

Vol 409-410 ◽

pp. 606-611 ◽

Cited By ~ 4

Author(s):

Zhen Yu ◽

Wei Lin Zhang ◽

Ting Yong Fang

Keyword(s):

Energy Consumption ◽

Air Conditioning ◽

Building Energy ◽

Simulation Software ◽

Office Building ◽

Building Energy Consumption ◽

Total Energy Consumption ◽

Building Orientation ◽

Heating Energy Consumption ◽

Energy Consumption Simulation

Using the energy consumption simulation software to research the HVAC in fall air conditioning mode, different building orientation and window-wall ratio of the office building energy consumption. The study found that the heating energy consumption, air-conditioning energy consumption and total energy consumption is gradually increased with the increase of the window-wall ratio under the same orientation. The result provides some reference for public buildings in setting of building orientation and window-wall ratio.

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An Exhaustive Search Energy Optimization Method for Residential Building Envelope in Different Climatic Zones of Kazakhstan

Buildings ◽

10.3390/buildings11120633 ◽

2021 ◽

Vol 11 (12) ◽

pp. 633

Author(s):

Mirzhan Kaderzhanov ◽

Shazim Ali Memon ◽

Assemgul Saurbayeva ◽

Jong R. Kim

Keyword(s):

Energy Consumption ◽

Energy Savings ◽

Residential Buildings ◽

Average Energy ◽

Optimization Method ◽

Building Envelope ◽

Energy Reduction ◽

Estimation Model ◽

Total Energy Consumption ◽

Energy Estimation

Nowadays, the residential sector of Kazakhstan accounts for about 30% of the total energy consumption. Therefore, it is essential to analyze the energy estimation model for residential buildings in Kazakhstan so as to reduce energy consumption. This research is aimed to develop the Overall Thermal Transfer Value (OTTV) based Building Energy Simulation Model (BESM) for the reduction of energy consumption through the envelope of residential buildings in seven cities of Kazakhstan. A brute force optimization method was adopted to obtain the optimal envelope configuration varying window-to-wall ratio (WWR), the angle of a pitched roof, the depth of the overhang shading system, the thermal conductivity, and the thicknesses of wall composition materials. In addition, orientation-related analyses of the optimized cases were conducted. Finally, the economic evaluation of the base and optimized cases were presented. The results showed that an average energy reduction for heating was 6156.8 kWh, while for cooling it was almost 1912.17 kWh. The heating and cooling energy savings were 16.59% and 16.69%, respectively. The frontage of the building model directed towards the south in the cold season and north in the hot season demonstrated around 21% and 32% of energy reduction, respectively. The energy cost savings varied between 9657 to 119,221 ₸ for heating, 9622 to 36,088 ₸ for cooling.

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Investigation and Evaluation of Energy Consumption Performance for Hospital Buildings in China

Sustainability ◽

10.3390/su11061724 ◽

2019 ◽

Vol 11 (6) ◽

pp. 1724 ◽

Cited By ~ 7

Author(s):

Ru Ji ◽

Shilin Qu

Keyword(s):

Energy Consumption ◽

Evaluation System ◽

Energy Use ◽

Energy Savings ◽

Building Energy ◽

Total Energy Consumption ◽

Electricity Use ◽

Hospital Building ◽

Save Energy ◽

Air Conditioning Systems

Energy use in hospitals is higher than other public buildings, so it is essential to investigate and evaluate its energy consumption performance to save energy. In this paper, a comprehensive investigation was conducted to study energy consumption of hospitals in China. The investigation results show that electricity use accounts for the maximum share in total energy consumption of hospitals, especially in south China. Improving air conditioning systems is the most direct and effective way for realizing hospital building energy savings. What’s more, a new evaluation system of energy-saving performance for hospital buildings was developed. This evaluation system could evaluate performance of energy use in hospital, find out the weakness of energy use, and provide improving suggestions. Furthermore, a kind of visual software was given by our paper, which can be used intuitively by practitioners to evaluate building energy consumption performance of a hospital.

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The modifications to the requirements on energy savings and thermal insulation of buildings in Poland in the years 1974-2021

Budownictwo i Architektura ◽

10.35784/bud-arch.1680 ◽

2015 ◽

Vol 14 (1) ◽

pp. 145-154 ◽

Cited By ~ 2

Author(s):

Anna Życzyńska ◽

Tomasz Cholewa

Keyword(s):

Heat Transfer ◽

Energy Consumption ◽

Energy Demand ◽

Energy Savings ◽

Building Energy ◽

The European Union ◽

Transfer Coefficients ◽

Total Energy Consumption ◽

Heat Transfer Coefficients ◽

Technical Requirements

Residential and public buildings use for heating more than 40% of the total energy consumption in the European Union. Therefore, this paper discusses the modifications to the building energy standard, which is currently in force. It is based on the requirements included in the Polish technical building regulations and standards. The proper energy-saving police have been implemented to this kind of consumers to diminish the energy consumption. The analysis pertains to the values of heat transfer coefficients of building partitions as well as the indexes of the energy demand for various types of buildings. The analysis was conducted between 1974 and 2013. Moreover; the changes within this range, which will come into force in 2014 and will continue to 2021, which act in accordance with the technical requirements suitable for buildings, were also discussed. Furthermore, minimal thicknesses of insulation materials which enable meeting this requirements of a heat transfer coefficient for building partitions, were examined in the article.

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Energy savings potential of new aeration system: Full scale trials

Water Practice & Technology ◽

10.2166/wpt.2012.098 ◽

2012 ◽

Vol 7 (4) ◽

Author(s):

A. Lazić ◽

V. Larsson ◽

Å. Nordenborg

Keyword(s):

Control System ◽

Energy Consumption ◽

Total Energy ◽

Energy Savings ◽

Treatment Plant ◽

Full Scale ◽

Total Energy Consumption ◽

Aeration System ◽

Fine Bubble ◽

Aeration Control

The objective of this work is to decrease energy consumption of the aeration system at a mid-size conventional wastewater treatment plant in the south of Sweden where aeration consumes 44% of the total energy consumption of the plant. By designing an energy optimised aeration system (with aeration grids, blowers, controlling valves) and then operating it with a new aeration control system (dissolved oxygen cascade control and most open valve logic) one can save energy. The concept has been tested in full scale by comparing two treatment lines: a reference line (consisting of old fine bubble tube diffusers, old lobe blowers, simple DO control) with a test line (consisting of new Sanitaire Silver Series Low Pressure fine bubble diffusers, a new screw blower and the Flygt aeration control system). Energy savings with the new aeration system measured as Aeration Efficiency was 65%. Furthermore, 13% of the total energy consumption of the whole plant, or 21 000 €/year, could be saved when the tested line was operated with the new aeration system.

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INTRA-APPLICATION ENERGY REDUCTION FOR MICROPROCESSOR LOW-POWER DESIGN

Journal of Circuits System and Computers ◽

10.1142/s0218126609005010 ◽

2009 ◽

Vol 18 (01) ◽

pp. 181-198 ◽

Cited By ~ 1

Author(s):

XIAO XIN XIA ◽

TENG TIOW TAY

Keyword(s):

Energy Consumption ◽

Low Power ◽

Sampling Method ◽

Energy Savings ◽

Low Power Design ◽

Energy Reduction ◽

Software Optimization ◽

Application Identification ◽

Instructions Per Cycle ◽

Important Design

Energy consumption is one of the most important design constraints for modern microprocessors, and designers have proposed many energy-saving techniques. Looking beyond the traditional hardware low-power designs, software optimization is becoming a significant strategy for the microprocessor to lower its energy consumption. This paper describes an intra-application identification and reconfiguration mechanism for microprocessor energy reduction. Our mechanism employs a statistical sampling method during training runs to identify code sections among application that have appropriate IPC (Instructions per Cycle) values and could make contributions to program runtime energy reduction, and then profiles them to dynamically scale the voltage and frequency of the microprocessor at appropriate points during execution. In our simulation, our approach achieves energy savings by an average of 39% with minor performance degradation, compared to a processor running at a fixed voltage and speed.

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Energy analysis using carrier HAP program and Deep Lake Water Cooling (DLWC) feasibility analysis for Ryerson University

10.32920/ryerson.14656392.v1 ◽

2021 ◽

Author(s):

Md. Ziaur Rahman

Keyword(s):

Energy Consumption ◽

Total Energy ◽

Lake Water ◽

Building Energy ◽

Energy Simulation ◽

Base Case ◽

Water Cooling ◽

Ghg Emission ◽

Deep Lake ◽

Total Energy Consumption

The objective of this project is to determine the total annual energy summary in terms of cost and Greenhouse Gas (GHG) emission of 16 buildings at Ryerson University (RU). In addition, the Deep Lake Water Cooling (DLWC) feasibility analysis of RU is another objective of this project in terms of total energy consumption and amount of gas emission reduction. The total audit area of RU was 86% of the total campus area. Building energy simulation program, Carrier HAP (Hourly Analysis Program), has been used to make an integrated evaluation of building energy consumption. An energy simulation involves hour-by-hour calculations for all 8,760 hours in a year. In this project, an energy audit was conducted for the 16 existing buildings to establish the base case model, "Ryerson University", to determine its annual energy consumption across all usage. There are two sources of energy used at RU. Electricity uses for lighting, plug load, miscellaneous and cooling, and remote steam is used for cooling and heating. For the base case model, total energy consumption was 251 TJ. To reduce the total energy consumption of the base case model, HVAC systems were investigated to analyze their energy-based performance and impact on the GHG emission. There is no Heat Recovery Ventilation (HRV) system coming from the investigation of HVAC system. The sensitivity analysis was conducted using HRV system with air system. By using HRV system with air system, total of 5.6% energy would be saved for cooling and 76% energy would be saved for heating of RU. The energy intensity was determined to be 1.04 GJ/m² only for 16 buildings of RU and comparatively it is lower than other universities in Canada which have a range of 1.64 GJ/m² to 2.26 GJ/m². In the DLWC system, cool lake water at 4°C was used for building air conditioning. To reduce the cooling energy costs, DLWC system was considered as an alternative chilled water source. The Rogers Business Building (RBB) already has DLWC system. For DLWC system, chilled water was served by Enwave to the RBB. According to base case analysis of the RBB with conventional chillers, the electricity consumption was 924594 kWh for RBB due to chillers. With the implementation of DLWC system for the rest of the 15 buildings, total energy saving due to cooling would be 89.2% and GHG emission reduction would be 89% for CO₂, 70% for NOx and 70.4% for SOx due to elimination of chillers.

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A design approach towards sustainable buildings in Algeria

Smart and Sustainable Built Environment ◽

10.1108/sasbe-04-2019-0057 ◽

2019 ◽

Vol 9 (3) ◽

pp. 229-245

Author(s):

Sofiane Rahmouni ◽

Rachid Smail

Keyword(s):

Energy Consumption ◽

Simulation Software ◽

Cold Climate ◽

Design Approach ◽

Office Building ◽

Design Stage ◽

Building Performance ◽

Sustainable Buildings ◽

Content Type ◽

Efficiency Measures

Purpose The purpose of this paper is to achieve the national strategic agenda’s criteria that aim for accomplishing sustainable buildings by estimating the effects of energy efficiency measures in order to reduce energy consumption and CO2 emission. Design/methodology/approach A design approach has been developed based on simulation software and a modeled building. Therefore, a typical office building is considered for testing five efficiency measures in three climatic conditions in Algeria. This approach is conducted in two phases: first, the analysis of each measure’s effect is independently carried out in terms of cooling energy and heating energy intensities. Then, a combination of optimal measures for each climate zone is measured in terms of three sustainable indicators: final energy consumption, energy cost saving and CO2 emission. Findings The results reveal that a combination of optimal measures has a substantial impact on building energy saving and CO2 emission. This saving can rise to 41 and 31 percent in a hot and cold climate, respectively. Furthermore, it is concluded that obtaining higher building performance, different design alternatives should be adapted to the climate proprieties and the local construction materials must be applied. Originality/value This study is considered as an opportunity for achieving the national strategy, as it may contribute in improving office building performance and demonstrating a suitable tool to assist stakeholders in the decision making of most important parameters in the design stage for new or retrofit buildings.

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

Energies ◽

10.3390/en12050895 ◽

2019 ◽

Vol 12 (5) ◽

pp. 895 ◽

Cited By ~ 14

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.

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An Ontology-Based Framework for Building Energy Management with IoT

Electronics ◽

10.3390/electronics8050485 ◽

2019 ◽

Vol 8 (5) ◽

pp. 485 ◽

Cited By ~ 3

Author(s):

Clement Lork ◽

Vishal Choudhary ◽

Naveed Ul Hassan ◽

Wayes Tushar ◽

Chau Yuen ◽

...

Keyword(s):

Energy Consumption ◽

Energy Management ◽

Management System ◽

Energy Savings ◽

Environmental Parameters ◽

Building Energy ◽

Building Energy Efficiency ◽

Commercial Building ◽

Building Energy Management ◽

Building Management

In this paper, we develop an ontology-based framework for energy management in buildings. We divide the functional architecture of a building energy management system into three interconnected modules that include building management system (BMS), benchmarking (BMK), and evaluation & control (ENC) modules. The BMS module is responsible for measuring several useful environmental parameters, as well as real-time energy consumption of the building. The BMK module provides the necessary information required to understand the context and cause of building energy efficiency or inefficiency, and also the information which can further differentiate normal and abnormal energy consumption in different scenarios. The ENC module evaluates all the information coming from BMS and BMK modules, the information is contextualized, and finally the cause of energy inefficiency/abnormality and mitigating control actions are determined. Methodology to design appropriate ontology and inference rules for various modules is also discussed. With the help of actual data obtained from three different rooms in a commercial building in Singapore, a case study is developed to demonstrate the application and advantages of the proposed framework. By mitigating the appropriate cause of abnormal inefficiency, we can achieve 5.7%, 11.8% and 8.7% energy savings in Room 1, Room 2, and Room 3 respectively, while creating minimum inconvenience for the users.

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