Effect of climatic conditions on energy consumption in direct fresh-air container data centers

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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Measurements of electric energy consumption in a low energy building in Slovak climatic conditions

Pollack Periodica ◽

10.1556/pollack.7.2012.3.3 ◽

2012 ◽

Vol 7 (3) ◽

pp. 23-32 ◽

Cited By ~ 1

Author(s):

Miloslav Bagoňa ◽

Dušan Katunský ◽

Martin Lopušniak ◽

Marián Vertaľ

Keyword(s):

Energy Consumption ◽

Electric Energy ◽

Climatic Conditions ◽

Low Energy ◽

Electric Energy Consumption

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Characterization of an Isolated Hybrid Cooled Server With Failure Scenarios Using Warm Water Cooling

ASME 2017 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems ◽

10.1115/ipack2017-74028 ◽

2017 ◽

Cited By ~ 1

Author(s):

Uschas Chowdhury ◽

Manasa Sahini ◽

Ashwin Siddarth ◽

Dereje Agonafer ◽

Steve Branton

Keyword(s):

Energy Consumption ◽

Data Centers ◽

Cooling System ◽

Warm Water ◽

Alternative Methods ◽

Inlet Temperature ◽

Cooling Efficiency ◽

Water Cooling ◽

Liquid Cooling ◽

Total Energy Consumption

Modern day data centers are operated at high power for increased power density, maintenance, and cooling which covers almost 2 percent (70 billion kilowatt-hours) of the total energy consumption in the US. IT components and cooling system occupy the major portion of this energy consumption. Although data centers are designed to perform efficiently, cooling the high-density components is still a challenge. So, alternative methods to improve the cooling efficiency has become the drive to reduce the cooling cost. As liquid cooling is more efficient for high specific heat capacity, density, and thermal conductivity, hybrid cooling can offer the advantage of liquid cooling of high heat generating components in the traditional air-cooled servers. In this experiment, a 1U server is equipped with cold plate to cool the CPUs while the rest of the components are cooled by fans. In this study, predictive fan and pump failure analysis are performed which also helps to explore the options for redundancy and to reduce the cooling cost by improving cooling efficiency. Redundancy requires the knowledge of planned and unplanned system failures. As the main heat generating components are cooled by liquid, warm water cooling can be employed to observe the effects of raised inlet conditions in a hybrid cooled server with failure scenarios. The ASHRAE guidance class W4 for liquid cooling is chosen for our experiment to operate in a range from 25°C – 45°C. The experiments are conducted separately for the pump and fan failure scenarios. Computational load of idle, 10%, 30%, 50%, 70% and 98% are applied while powering only one pump and the miniature dry cooler fans are controlled externally to maintain constant inlet temperature of the coolant. As the rest of components such as DIMMs & PCH are cooled by air, maximum utilization for memory is applied while reducing the number fans in each case for fan failure scenario. The components temperatures and power consumption are recorded in each case for performance analysis.

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Development of a numerical approach to assess the effect of coupled heat and moisture transfer on energy consumption of residential buildings in Moroccan context

Journal of Building Physics ◽

10.1177/17442591211056068 ◽

2021 ◽

pp. 174425912110560

Author(s):

Yassine Chbani Idrissi ◽

Rafik Belarbi ◽

Mohammed Yacine Ferroukhi ◽

M’barek Feddaoui ◽

Driss Agliz

Keyword(s):

Energy Consumption ◽

Building Materials ◽

Moisture Transfer ◽

Residential Buildings ◽

Building Design ◽

Energy Performance ◽

Climatic Conditions ◽

Heat And Moisture Transfer ◽

Coupled Heat And Moisture ◽

Heat And Moisture

Hygrothermal properties of building materials, climatic conditions and energy performance are interrelated and have to be considered simultaneously as part of an optimised building design. In this paper, a new approach to evaluate the energy consumption of residential buildings in Morocco is presented. This approach is based on the effect of coupled heat and moisture transfer in typical residential buildings and on their responses to the varied climatic conditions encountered in the country. This approach allows us to evaluate with better accuracy the response of building energy performance and the indoor comfort of building occupants. Annual energy consumption, cooling and heating energy requirements were estimated considering the six climatic zones of Morocco. Based on the results, terms related to coupled heat and moisture transfer can effectively correct the existing energy consumption calculations of the six zones of Morocco, which currently do not consider energy consumption due to coupled heat and moisture transfer.

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The Prediction of Annual Energy Consumption by the Supply Air Temperature of Cooling Systems in Modular Data Centers

Journal of The Korean Society of Living Environmental System ◽

10.21086/ksles.2021.2.28.1.58 ◽

2021 ◽

Vol 28 (1) ◽

pp. 58-64

Author(s):

Yong-Ho Jung

Keyword(s):

Energy Consumption ◽

Air Temperature ◽

Data Centers ◽

Cooling Systems ◽

Modular Data ◽

Modular Data Centers

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Energy aware dynamic virtual machine consolidation in cloud data centers

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i2.8.10519 ◽

2018 ◽

Vol 7 (2.8) ◽

pp. 550 ◽

Cited By ~ 3

Author(s):

G Anusha ◽

P Supraja

Keyword(s):

Energy Consumption ◽

Virtual Machine ◽

Data Centers ◽

Energy Aware ◽

Large Power ◽

Complex Tasks ◽

Cloud Data ◽

Network Bandwidth ◽

Virtual Machine Consolidation ◽

Cloud Data Centers

Cloud computing is a growing technology now-a-days, which provides various resources to perform complex tasks. These complex tasks can be performed with the help of datacenters. Data centers helps the incoming tasks by providing various resources like CPU, storage, network, bandwidth and memory, which has resulted in the increase of the total number of datacenters in the world. These data centers consume large volume of energy for performing the operations and which leads to high operation costs. Resources are the key cause for the power consumption in data centers along with the air and cooling systems. Energy consumption in data centers is comparative to the resource usage. Excessive amount of energy consumption by datacenters falls out in large power bills. There is a necessity to increase the energy efficiency of such data centers. We have proposed an Energy aware dynamic virtual machine consolidation (EADVMC) model which focuses on pm selection, vm selection, vm placement phases, which results in the reduced energy consumption and the Quality of service (QoS) to a considerable level.

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Design and optimization of heating, cooling and lightening systems for a residential villa at Saman city, Iran

Journal of Engineering Design and Technology ◽

10.1108/jedt-01-2018-0003 ◽

2019 ◽

Vol 17 (1) ◽

pp. 41-52 ◽

Cited By ~ 2

Author(s):

Javad Riahi Zaniani ◽

Shahab Taghipour Ghahfarokhi ◽

Mehdi Jahangiri ◽

Akbar Alidadi Shamsabadi

Keyword(s):

Energy Consumption ◽

Light Intensity ◽

Design Methodology ◽

Climatic Conditions ◽

Content Type ◽

Design And Optimization ◽

Simulation Results ◽

Annual Reduction ◽

Reduction Of Energy Consumption ◽

Heating Loads

Purpose This paper, using energy softwares, designed of Iran and optimized a residential villa in Saman city located in Chaharmahal and Bakhtiari Province. Design/methodology/approach Having used the ideas of Climate Consultant software, the basic designing was conducted by Design Builder Software, and the cooling and heating loads and lighting tools and equipment were calculated. Then, the amount of consuming of heating, cooling and lighting load of the building was optimized through insulation of walls and ceiling, using green roof, double glazing UPVC windows, light intensity sensor and variable refrigerant flow (VRF) system. Findings Simulation results for the stated scenarios showed an annual reduction in energy consumption of 21.1, 7.9, 26.41, 27.3 and 72.3 per cent, respectively. Also, by combining all the five scenarios, an optimal state was achieved which, from the results, brought about an annual reduction of 86.9 per cent in the energy consumption. Originality/value The authors hope that the results of the current paper could be helpful for designers and engineers in reduction of energy consumption for designing a building in similar climatic conditions.

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Energy Consumption Modeling and Prediction in the Cloud Data Centers

Journal of Engineering Science and Technology Review ◽

10.25103/jestr.133.25 ◽

2020 ◽

Vol 13 (3) ◽

pp. 224-234

Author(s):

Sara Diouani ◽

◽

Hicham Medromi

Keyword(s):

Energy Consumption ◽

Data Centers ◽

Cloud Data ◽

Modeling And Prediction ◽

Cloud Data Centers ◽

Energy Consumption Modeling

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A new clustering and visualization method to evaluate urban energy planning scenarios

10.31224/osf.io/b9znk ◽

2018 ◽

Author(s):

Sara Torabi Moghadam ◽

Silvia Coccolo ◽

Guglielmina Mutani ◽

Patrizia Lombardi ◽

Jean Louis Scartezzini ◽

...

Keyword(s):

Energy Consumption ◽

Urban Areas ◽

Energy Demand ◽

Planning Process ◽

Energy Transition ◽

Climatic Conditions ◽

Energy Planning ◽

Transition Strategies ◽

Urban Energy ◽

The City

The spatial visualization is a very useful tool to help decision-makers in the urban planning process to create future energy transition strategies, implementing energy efficiency and renewable energy technologies in the context of sustainable cities. Statistical methods are often used to understand the driving parameters of energy consumption but rarely used to evaluate future urban renovation scenarios. Simulating whole cities using energy demand softwares can be very extensive in terms of computer resources and data collection. A new methodology, using city archetypes is proposed, here, to simulate the energy consumption of urban areas including urban energy planning scenarios. The objective of this paper is to present an innovative solution for the computation and visualization of energy saving at the city scale.The energy demand of cities, as well as the micro-climatic conditions, are calculated by using a simplified 3D model designed as function of the city urban geometrical and physical characteristics. Data are extracted from a GIS database that was used in a previous study. In this paper, we showed how the number of buildings to be simulated can be drastically reduced without affecting the accuracy of the results. This model is then used to evaluate the influence of two set of renovation solutions. The energy consumption are then integrated back in the GIS to identify the areas in the city where refurbishment works are needed more rapidly. The city of Settimo Torinese (Italy) is used as a demonstrator for the proposed methodology, which can be applied to all cities worldwide with limited amount of information.

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