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Author: Sui Jiang Si Tu Publisher: ISBN: Category : Languages : en Pages : 142
Book Description
The need of fast and uninterrupted online services and applications in our daily life leads to rapid expansion in both quantity and capacity of data centers to handle these huge amounts of digital information. However, the energy use associated with hundreds of information technology (IT) equipment running 24/7 in data centers creates a huge burden to the global economy and environment. Globally, electricity consumption of data centers accounts for about 238 billion kWh per year which is corresponding to about 1.3% of total global electricity consumption. In a typical data center, about 30-50% of its total energy is dedicated to remove the heat from running the IT equipment all year round. Conventional cooling energy saving strategy is to utilize outdoor air directly to cool the IT equipment when outdoor temperature is lower, which known as direct airside free cooling. However, the main concerns about this approach is the breakdown of IT equipment due to poor outdoor air quality. This could be a limiting factor in certain locations for using the direct free cooling system. Therefore, an indirect free cooling approach is more interested to be used under poor outdoor air environments. In this thesis, an indirect airside free cooling based on thermosiphon loop is proposed and investigated to reduce energy consumption and improve the IT equipment reliability in a novel vertical data center (VDC) which is designed by Vert.com Inc. An energy model was established to evaluate the energy performance of this new proposed design in different selected cities across North America. The energy results show that approximately 41% to 59% of an annual overall HVAC energy are saved with the thermosiphon free cooling system depending on the local climate conditions in comparison to the data center without any free cooling implementations.Analysis of indoor airflow distribution was also conducted in this VDC project because it can help to optimize different design options and enhance cooling efficiency. Unlike other typical data centers that are designed horizontally and occupied a large footprint like warehouses, the proposed data center in this study is designed vertically like a tower with a compact rectangular form. In this thesis, two proposed locations of the indoor thermosiphon heat exchangers were compared and analyzed through CFD simulation. The simulation results indicate that there are many turbulent flows developed inside the building, especially at 90° bends, which can affect the air distribution uniformity and cooling performance through the heat exchanger.
Author: Sui Jiang Si Tu Publisher: ISBN: Category : Languages : en Pages : 142
Book Description
The need of fast and uninterrupted online services and applications in our daily life leads to rapid expansion in both quantity and capacity of data centers to handle these huge amounts of digital information. However, the energy use associated with hundreds of information technology (IT) equipment running 24/7 in data centers creates a huge burden to the global economy and environment. Globally, electricity consumption of data centers accounts for about 238 billion kWh per year which is corresponding to about 1.3% of total global electricity consumption. In a typical data center, about 30-50% of its total energy is dedicated to remove the heat from running the IT equipment all year round. Conventional cooling energy saving strategy is to utilize outdoor air directly to cool the IT equipment when outdoor temperature is lower, which known as direct airside free cooling. However, the main concerns about this approach is the breakdown of IT equipment due to poor outdoor air quality. This could be a limiting factor in certain locations for using the direct free cooling system. Therefore, an indirect free cooling approach is more interested to be used under poor outdoor air environments. In this thesis, an indirect airside free cooling based on thermosiphon loop is proposed and investigated to reduce energy consumption and improve the IT equipment reliability in a novel vertical data center (VDC) which is designed by Vert.com Inc. An energy model was established to evaluate the energy performance of this new proposed design in different selected cities across North America. The energy results show that approximately 41% to 59% of an annual overall HVAC energy are saved with the thermosiphon free cooling system depending on the local climate conditions in comparison to the data center without any free cooling implementations.Analysis of indoor airflow distribution was also conducted in this VDC project because it can help to optimize different design options and enhance cooling efficiency. Unlike other typical data centers that are designed horizontally and occupied a large footprint like warehouses, the proposed data center in this study is designed vertically like a tower with a compact rectangular form. In this thesis, two proposed locations of the indoor thermosiphon heat exchangers were compared and analyzed through CFD simulation. The simulation results indicate that there are many turbulent flows developed inside the building, especially at 90° bends, which can affect the air distribution uniformity and cooling performance through the heat exchanger.
Author: Yogendra Joshi Publisher: Springer Science & Business Media ISBN: 1441971246 Category : Science Languages : en Pages : 635
Book Description
Energy Efficient Thermal Management of Data Centers examines energy flow in today's data centers. Particular focus is given to the state-of-the-art thermal management and thermal design approaches now being implemented across the multiple length scales involved. The impact of future trends in information technology hardware, and emerging software paradigms such as cloud computing and virtualization, on thermal management are also addressed. The book explores computational and experimental characterization approaches for determining temperature and air flow patterns within data centers. Thermodynamic analyses using the second law to improve energy efficiency are introduced and used in proposing improvements in cooling methodologies. Reduced-order modeling and robust multi-objective design of next generation data centers are discussed.
Author: Publisher: ISBN: Category : Aeronautics Languages : en Pages : 1282
Book Description
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Author: Vaibhav K. Arghode Publisher: Springer ISBN: 3319258923 Category : Business & Economics Languages : en Pages : 90
Book Description
The Brief discuss primarily two aspects of air flow management in raised floor data centers. Firstly, cooling air delivery through perforated tiles will be examined and influence of the tile geometry on flow field development and hot air entrainment above perforated tiles will be discussed. Secondly, the use of cold aisle containment to physically separate hot and cold regions, and minimize hot and cold air mixing will be presented. Both experimental investigations and computational efforts are discussed and development of computational fluid dynamics (CFD) based models for simulating air flow in data centers is included. In addition, metrology tools for facility scale air velocity and temperature measurement, and air flow rate measurement through perforated floor tiles and server racks are examined and the authors present thermodynamics-based models to gauge the effectiveness and importance of air flow management schemes in data centers.
Author: American Society of Heating, Refrigerating and Air-Conditioning Engineers Publisher: American Society of Heating Refrigerating and Air-Conditioning Engineers ISBN: Category : Technology & Engineering Languages : en Pages : 480
Author: Ji-Cheng Zhao Publisher: Elsevier ISBN: 0080549969 Category : Technology & Engineering Languages : en Pages : 522
Book Description
Phase diagrams are "maps" materials scientists often use to design new materials. They define what compounds and solutions are formed and their respective compositions and amounts when several elements are mixed together under a certain temperature and pressure. This monograph is the most comprehensive reference book on experimental methods for phase diagram determination. It covers a wide range of methods that have been used to determine phase diagrams of metals, ceramics, slags, and hydrides. * Extensive discussion on methodologies of experimental measurements and data assessments * Written by experts around the world, covering both traditional and combinatorial methodologies* A must-read for experimental measurements of phase diagrams
Author: Sui Jiang Si Tu
Author: Sui Jiang Si Tu
Author: Yogendra Joshi
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Author: 
Author: 
Author: Vaibhav K. Arghode
Author: American Society of Heating, Refrigerating and Air-Conditioning Engineers
Author: 
Author: 
Author: Ji-Cheng Zhao