data center hvac design ppt

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}, 17 datacenter network datacentre Enjoy access to millions of ebooks, audiobooks, magazines, and more from Scribd. Power In: Pa ESP. "@context": "http://schema.org", Class 1). TOTAL: 35,000 l\/s. Stulz Liquid Cooled Rack SolutionsCyberChill Integrated Rack Cooling Solution RAW Rear Door Air/Water Heat Exchanger Racks designed for 10-22kW of heat load ENERGY EFFICIENT DATA CENTRE DESIGN "@context": "http://schema.org", "@type": "ImageObject", {

CRAC Unit Design ENERGY EFFICIENT DATA CENTRE DESIGN", { On. "width": "800" "name": "Typical Data Centre Configuration", Chilled Water Fan ManagementAirflow: 2 x 8,000 l/s Fan absorbed power: 2 x 8.0 = 16.0 kW Combined noise 2 x 65.1dBA = 68.1dBA Example: 3 x ASD1500CW R/A = 24C/45% CHW = 7/12C water Standby 2 x = 212.0 kW net sensible 3 x 70.7 = kW net sensible Airflow: 3 x 4,850 l/s Fan absorbed power: 3 x 1.8 = 5.4 kW Combined noise 3 x 54.5dBA = 59.3dBA Benefits: Energy savings Reduced noise levels Improved air distribution Dampers not required Annual Energy Savings: Fan Savings: 10.6 kW = $9,286/yr Est. Process Areas.

"@type": "ImageObject", ", }, 36 "contentUrl": "https://slideplayer.com/slide/8864562/26/images/5/1.+Room+Design+ENERGY+EFFICIENT+DATA+CENTRE+DESIGN.jpg",

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Series R TM. "description": "Reduced energy consumption by sourcing chilled water from more efficient central plant whilst providing high operational safety\/system availability. Room Design ENERGY EFFICIENT DATA CENTRE DESIGN", "@context": "http://schema.org", STULZ also manufacture and supply. "width": "800" }, 30

Ducted Return Air DistributionSource: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 35 ENERGY EFFICIENT DATA CENTRE DESIGN 1 Precision Air Condition Units Humidification Systems Standalone Steam Humidification Ultrasonic Humidification For Close Control Areas, such as Museums, Archives, Art Galleries, Storage Rooms, Testing Laboratories, and Process Areas. 100 kW Total. 1,145,151. Comprehensive Service. Let \u03c1A x cPA = 1.21 kJ\/m\u00b3K. See our User Agreement and Privacy Policy. { If you continue browsing the site, you agree to the use of cookies on this website. Chiller. If you continue browsing the site, you agree to the use of cookies on this website. "@type": "ImageObject", Up to 30% reduction in fan power can be achieved by using highest efficiency direct driven fan technologies in lieu of typical belt driven fans. }, 26 "@context": "http://schema.org", "contentUrl": "https://slideplayer.com/slide/8864562/26/images/11/Direct+Rack+Air+Cooling+Total+Power+In+%3D+Fan+Power+%2B+Chiller+Power.jpg", }, 33 { and reduction of 11.8 tonnes CO2\/yr $0.10\/\/kWhr and COP = 4) ENERGY EFFICIENT DATA CENTRE DESIGN. C 17.5C 20 racks x 5kW ea Q = 100kW Power In: Pa ESP Power In: 27 COP = 3.77 30% Power Reduction! of Units Installed. "width": "800"

"description": "thank you ENERGY EFFICIENT DATA CENTRE DESIGN", 1,032,804.

"@type": "ImageObject", 12.6\u00b0 C; 89 % r. H. 8.1 g water \/ kg air. CHW System Design ENERGY EFFICIENT DATA CENTRE DESIGN", "width": "800" 12.5\u00b0C.

CyberChill: Basic Functioncooling water connection ENERGY EFFICIENT DATA CENTRE DESIGN "width": "800" "@context": "http://schema.org",

"description": "Airflow: 2 x 8,000 l\/s. { "width": "800" 24\u00b0 C; 45 % r. H. 8.4 g water \/ kg air. Evaporator Fan Power Consumption per Unit, Each individual CRAC unit has two independent cooling systems, Cooling mode can be optimised to provide most efficient method of cooling, Dual fluid system also provide increased levels of redundancy, Reduced energy consumption by sourcing chilled water from more efficient central plant whilst providing high operational safety/system availability, * Energy cost rate: 0,1 $/kWh & Chiller COP = 4, Existing Units with Belt Drive Centrifugal Fans, Annual Reduction in CO2 (tonnes per year), Identify users needs in order to best select equipment capacities/capabilities, Consider energy impact of design/procurement decisions, Select all system components (including IT Racks) to optimise system efficiency.

RAW Module: Basic Function Open LoopRAW Module mounts to the rear door of the rack of your choice cooling water connection ENERGY EFFICIENT DATA CENTRE DESIGN and reduction of tonnes CO2/yr $0.10//kWhr and COP = 4) ENERGY EFFICIENT DATA CENTRE DESIGN CHW System Design ENERGY EFFICIENT DATA CENTRE DESIGN

equipment for cooling cabinets, industrial cooling and High Density. By developing a deep understanding of their clients data center HVAC requirements, consulting engineers can help maintain the necessary availability level of mission critical applications while reducing energy consumption. STULZ provides 24\/7\/365 days a. DX Circuit. "@context": "http://schema.org", { CRAC 2. "@type": "ImageObject", Museums, Archives, Art Galleries, Storage Rooms, Testing Laboratories, and. (cooling) and. 9 kW Heat Rejection.

Precision Air Condition Units.

"contentUrl": "https://slideplayer.com/slide/8864562/26/images/28/Dual+Fluid+System+Each+individual+CRAC+unit+has+two+independent+cooling+systems.+Possible+cooling+combinations+include%3A.jpg", "description": "Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 35.

Cooling Solutions. ", ENERGY EFFICIENT DATA CENTRE DESIGN.

A.C Belt Driven Fan. APIdays Paris 2019 - Innovation @ scale, APIs as Digital Factories' New Machi Mammalian Brain Chemistry Explains Everything. See our Privacy Policy and User Agreement for details. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/3/STULZ+Australia+-+Business+Areas.jpg", "@type": "ImageObject", ",

"description": "Rack Cooling Example. "@type": "ImageObject",

The design process must include input from, and coordination of, all facets of the design, i.e. For Close Control Areas, such as. 9.

Example: Stulz Rack Air Removal UnitHow Does It Work? "width": "800" ENERGY EFFICIENT DATA CENTRE DESIGN CHW Circuit. ", { hrs. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/35/Summary%3A+Identify+user%E2%80%99s+needs+in+order+to+best+select+equipment+capacities%2Fcapabilities.+Consider+energy+impact+of+design%2Fprocurement+decisions..jpg", x 5kW ea. cooling system heating water diagram economizer energy side upgrades models pumping "description": "Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 34. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/4/Topics+Room+Design+CRAC+Unit+Design+3.+CHW+System+Design.jpg",

"@context": "http://schema.org",

Average Annual Compressor Operation. { }, 11 ENERGY EFFICIENT DATA CENTRE DESIGN. 95 kW Sensible Capacity.

"@context": "http://schema.org", ENERGY EFFICIENT DATA CENTRE DESIGN. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/9/Required+Air+Flow+Rate%3A+V+%3D+100%2C000+%2F+%281.21+x+15%29.jpg",

"width": "800" ",

86 kW Net Sensible. 5,000 l\/s. }, 10 300, ,256. "@context": "http://schema.org", "contentUrl": "https://slideplayer.com/slide/8864562/26/images/30/3.+CHW+System+Design+ENERGY+EFFICIENT+DATA+CENTRE+DESIGN.jpg", l\/s.

Benefits of EC Fan TechnologyReduced fan power provides increased real (net) cooling capacity and reduces load on refrigeration plant Variable airflow rate capability allows rates to be set at commissioning for optimum levels (rather than nominal levels) Non-Maintenable item: no v-belts or pulleys Reduction of life cycle costs Inbuilt Softstart operation eliminating high inrush current. Topics Room Design CRAC Unit Design 3. Efficiencies of up to 92% An EC motor is simply a DC motor without mechanical brushes and commutator rings. Typical Data Centre ConfigurationCRAC 1 CRAC 2 CRAC 3 CRAC 4 5,000 l/s 5,000 l/s 5,000 l/s 0 l/s TOTAL: 35,000 l/s 5,000 l/s 5,000 l/s 5,000 l/s 5,000 l/s CRAC 5 CRAC 6 CRAC 7 CRAC 8 Duty / Standby Operation (N+1) ENERGY EFFICIENT DATA CENTRE DESIGN

{ ", "@context": "http://schema.org", 4,375 l\/s. "name": "2. Total Power In = Fan Power + Chiller Power.

Airflow. Example: 3 x ASD1500CW. $103,280. Power In: 34 COP = Total Power In = Fan Power + Chiller Power.

", mechanical, electrical, comms, IT suppliers, etc.

{ }, 5 SlideShare uses cookies to improve functionality and performance, and to provide you with relevant advertising. CRAC 5. "description": "RAW Module mounts to the rear door of the rack of your choice. ",

National 1300 Support Hotline Customer Service STULZ also manufacture and supply equipment for cooling cabinets, industrial cooling and High Density Cooling Solutions. Ducted Supply & Return Air DistributionSource: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 35 ENERGY EFFICIENT DATA CENTRE DESIGN 1 Customer Service. { No of Duty Units. \u00b0C \u00b0C. "@context": "http://schema.org", "@type": "ImageObject", 5,000 l\/s.

1. 4,375 l\/s.

CHW System Design", Ultrasonic Humidification. Peak Load Operation. Water Cooled DX \/ CHW. 1. 5,000 l\/s. Annual Reduction in CO2 (tonnes per year) ENERGY EFFICIENT DATA CENTRE DESIGN. 2.

"contentUrl": "https://slideplayer.com/slide/8864562/26/images/15/Example%3A+Stulz+Rack+Air+Removal+Unit.jpg", "description": "Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 35. tonnes\/yr Return Air Setpoint: 45%RH.

"contentUrl": "https://slideplayer.com/slide/8864562/26/images/16/Liquid+Cooled+Racks+Source%3A+ASHRAE+-+Datacom+Equipment+Power+Trends+and+Cooling+Applications%2C+Page+38..jpg", The design process must include input from, and coordination of, all facets of the design, i.e. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/36/thank+you+ENERGY+EFFICIENT+DATA+CENTRE+DESIGN.jpg", 11.4\u00b0 C. Humidity Decrease.

"@context": "http://schema.org", { "name": "RAW Module: Basic Function \u2013 Closed Loop", CHW System DesignENERGY EFFICIENT DATA CENTRE DESIGN "@context": "http://schema.org",

"@context": "http://schema.org", 0 l\/s. ENERGY EFFICIENT DATA CENTRE DESIGN. Smaller CRAC! }, 24 "name": "Ducted Return Air Distribution", CHW Fan Management Mode (N+1) ENERGY EFFICIENT DATA CENTRE DESIGN. }, 27 }, 14

"name": "CASE STUDY: Westpac Data Centre", 1. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/19/RAW+Module%3A+Basic+Function+%E2%80%93+Closed+Loop.jpg",

"@type": "ImageObject", "@type": "ImageObject", "name": "Benefits of EC Fan Technology", "name": "RAW Module: Basic Function \u2013 Open Loop", 5,000 l\/s. $0.10. Cooling Air. ",

5,000 l\/s. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/2/Meet+STULZ+Worldwide+Since+its+founding+in+1947%2C+STULZ+has+specialised+in+areas+requiring+technological+expertise+and+entrepreneurial+flexibility..jpg", ", "@type": "ImageObject", }, 29 RAW Rear Door Air\/Water Heat Exchanger. ", Up to 30% reduction in fan power can be achieved by using highest efficiency direct driven fan technologies in lieu of typical belt driven fans. $114,515. "@type": "ImageObject",

In conjunction with an extensive range of precision air conditioning units, STULZ also manufacture a range of internal and external chillers for precision and comfort applications. Up to 30% reduction in fan power can be achieved by using highest efficiency direct driven fan technologies in lieu of typical belt driven fans. Activate your 30 day free trialto continue reading. Precision A\/C. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/1/Energy+Efficient+Data+Centre+Design.jpg", "description": "\u00b0C \u00b0C. EC Technology began almost 30 years ago in computer and telecom applications. "@context": "http://schema.org",

"name": "Cooling Capacity: What does total & net sensible mean", cooling water connection. C 5500 l/s @ 20C Smaller CRAC!

Cooling Capacity. Using Ground Source Heat Pump The Avenue Centre. { "description": "cooling water connection. }, 28 Reduced fan power provides increased real (net) cooling capacity and reduces load on refrigeration plant, Variable airflow rate capability allows rates to be set at commissioning for optimum levels (rather than nominal levels), Non-Maintenable item: no v-belts or pulleys Reduction of life cycle costs. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/17/Stulz+Liquid+Cooled+Rack+Solutions.jpg", TOTAL: 35,000 l\/s. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/34/CASE+STUDY%3A+Westpac+Data+Centre.jpg", "name": "Energy Efficient Data Centre Design", }, 19

High Density Cooling Solutions ENERGY EFFICIENT DATA CENTRE DESIGN "width": "800" "description": "Traditional belt driven fan technologies can reduce the available cooling capacity by as much as 10%! (N+2 Operation) (Energy Saving Mode) Total No. = = 41.2 kW for 100 kW of rack load => \u03b7 = ENERGY EFFICIENT DATA CENTRE DESIGN. Operation.

CRAC 8. "name": "Effect of Supply Fan Efficiency", 23%RH. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/18/CyberChill%3A+Basic+Function.jpg", Particularly helpful in diesel generator mode.

ENERGY EFFICIENT DATA CENTRE DESIGN.

Q = 100kW. "width": "800"

Possible cooling combinations include:", High Density Cooling Solutions. "name": "Typical Raised Floor Air Distribution Design", "name": "Example: Stulz Rack Air Removal Unit", Fan absorbed power: 2 x 8.0 = 16.0 kW. Cooling mode can be optimised to provide most efficient method of cooling. "width": "800"

"name": "Rack Cooling Basics Source: HP ENERGY EFFICIENT DATA CENTRE DESIGN", Lecture Objectives: Model HVAC Systems HW3 Asignemnet Learn about eQUEST software How to conduct parametric analysis of building envelope. "width": "800" Class 1) Systems Engineer ENERGY EFFICIENT DATA CENTRE DESIGN HVAC System Design PES Institute of Technology. "description": "How Does It Work Fan assisted system that draws air through rack from either the raised floor or from the cold isle and discharges the air out of the top of the door. {

thank you ENERGY EFFICIENT DATA CENTRE DESIGN

4,375 l\/s. Required Air Flow Rate: V = 100,000 / (1.21 x 15), Total Power In = Fan Power + Chiller Power, = 41.2 kW for 100 kW of rack load => = 2.43, = 28.8 kW for 100 kW of rack load => = 3.47, Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 34, Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 35, Fan assisted system that draws air through rack from either the raised floor or from the cold isle and discharges the air out of the top of the door, Airflow of 830l/s delivers ~15kW of cooling, Returns air back to room at high temp, say 35C, Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 38, RAW Module mounts to the rear door of the rack of your choice. "width": "800" CRAC 8. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/27/Benefits+if+EC+Fan+Technology+%28DX+Operation%29.jpg", converted to heat. ",

Energy Efficient Data Centre DesignPresenter: Tony de Francesco B.Eng Mech (Hons. supports HTML5 video, Published byErik Ball

", "@type": "ImageObject", {

"width": "800" Variable airflow rate capability allows rates to be set at commissioning for optimum levels (rather than nominal levels) Non-Maintenable item: no v-belts or pulleys \u2013 Reduction of life cycle costs. ", "description": "Reduced fan power provides increased real (net) cooling capacity and reduces load on refrigeration plant. { "description": "Input.

1. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/6/Source%3A+ASHRAE+-+Thermal+Guidelines+for+data+Processing+Environments%2C+pg+10.jpg", $11,607 \/ yr. 125 tonnes CO2 \/ yr. ENERGY EFFICIENT DATA CENTRE DESIGN.

"@type": "ImageObject", "@context": "http://schema.org", }, 32 ", { 8,760. Consider energy impact of design\/procurement decisions. As an air conditioning specialist STULZ offers a wide range of customer solutions for the high-tech areas of IT, telecommunications and automation. 5,000 l\/s. Annual Energy Cost Difference ($) - -$20,696. "@type": "ImageObject", "name": "Typical Computer Room Air Distribution",

"@context": "http://schema.org", }, 8 Foundations of Real Estate Management TM BOMA International Module 3: Building Operations I Heating, Ventilating, and Cooling the Building.

Liquid Cooled Racks Source: ASHRAE - Datacom Equipment Power Trends and Cooling Applications, Page 38 ENERGY EFFICIENT DATA CENTRE DESIGN 1 CRAC 2. Join the discussion about this Webcast on Twitter at #CSEdatacenterHVAC. "name": "Direct Rack Air Cooling Total Power In = Fan Power + Chiller Power", "contentUrl": "https://slideplayer.com/slide/8864562/26/images/21/Stulz+Liquid+Cooling+Intrastructure.jpg", Instant access to millions of ebooks, audiobooks, magazines, podcasts and more. $\/yr.

Ensure design operation is documented and all staff (facilities management & IT) are trained in correct operation of system, Download ppt "Energy Efficient Data Centre Design". CHW System Design ENERGY EFFICIENT DATA CENTRE DESIGN", "description": "1. Agreements. Have u ever tried external professional writing services like www.HelpWriting.net ? ENERGY EFFICIENT DATA CENTRE DESIGN.

20 racks. factory trained service technicians, local spare parts and a range of. Most energy consumption is obvious: computers, cooling plant and related equipment, lighting, and other miscellaneous electrical loads. RAW Module: Basic Function Closed LoopRAW Module mounts to the rear door of the rack of your choice cooling water connection ENERGY EFFICIENT DATA CENTRE DESIGN "width": "800" Advanced energy design guides a blueprint for cutting your hospital buildin Options For Energy Reduction In Data Centres. CRAC 7. "@context": "http://schema.org",

{

5,000 l\/s. Ensure design operation is documented and all staff (facilities management & IT) are trained in correct operation of system ENERGY EFFICIENT DATA CENTRE DESIGN Traditional belt driven fan technologies can reduce the available cooling capacity by as much as 10%!

", mechanical, electrical, comms, IT suppliers, etc. Clipping is a handy way to collect important slides you want to go back to later. Office A\/C. Stulz Liquid Cooling IntrastructureENERGY EFFICIENT DATA CENTRE DESIGN "@context": "http://schema.org", "description": "Data. ENERGY EFFICIENT DATA CENTRE DESIGN "@type": "ImageObject", ", "name": "Source: ASHRAE - Thermal Guidelines for data Processing Environments, pg 10", Hero to Zero: Understand and meet Vancouver's new energy and emission require Building Energy 2014: PV and SHW Design basics by Fortunat Mueller, NESEA Building Energy 2015: PV and Heat Pumps, Chapter 7 heating ventilation air conditioning, How green standards are changing data center design and operations, High Efficiency Indirect Air Economizer Based Cooling for Data Centers, Updated Summary Lincoln Power Point Presentation. { "@type": "ImageObject", "contentUrl": "https://slideplayer.com/slide/8864562/26/images/31/Typical+Data+Centre+Configuration.jpg", Duty \/ Standby Operation (N+1) ENERGY EFFICIENT DATA CENTRE DESIGN. }, 23 Combined noise 3 x 54.5dBA = 59.3dBA. Total Energy Consumption (kWh) 1,352,106. Energy Pricing.

"name": "Dual Fluid System Each individual CRAC unit has two independent cooling systems. 3. of Units Installed 9 No of Duty Units 7 Airflow per Unit (l/s) 100 Pa 100 Pa 100 Pa Total Cooling Capacity (kW) per Unit 65.4 60.7 46 Sensible Cooling Capacity (kW) per Unit 62.8 Fan Power Per Unit (kW) 5.7 3.5 1.6 Net Total Cooling Capacity (kW) 418 400 Net Sensible Cooling Capacity (kW) Total Airflow (l/s) 31,367 35,385 33,147 Total Fan Power (kW) 39.9 24.5 14.4 Refrigeration Power at system EER=4 (kW) 114.5 106.2 103.5 Total Power (kW) 154.4 130.7 117.9 Hours of Operation (h) 8,760 Total Energy Consumption (kWh) 1,352,106 1,145,151 1,032,804 Unit Energy Cost ($/kWh) 0.10 Annual Energy Cost ($) $135,211 $114,515 $103,280 Annual Energy Cost Difference ($) - -$20,696 -$31,930 Annual Reduction in CO2 (tonnes per year) - 223.5 344.8 ENERGY EFFICIENT DATA CENTRE DESIGN In conjunction with an extensive range of precision air conditioning units, STULZ also manufacture a range of internal and external chillers for precision and comfort applications. "@type": "ImageObject", { EC Fan Technology. x 5kW ea. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/33/Chilled+Water+Fan+Management.jpg", "name": "3. "width": "800" "contentUrl": "https://slideplayer.com/slide/8864562/26/images/13/Ducted+Return+Air+Distribution.jpg", Optimal Data Centre ConfigurationCRAC 1 CRAC 2 CRAC 3 CRAC 4 4,375 l/s 4,375 l/s 4,375 l/s 4,375 l/s TOTAL: 35,000 l/s 4,375 l/s 4,375 l/s 4,375 l/s 4,375 l/s CRAC 5 CRAC 6 CRAC 7 CRAC 8 CHW Fan Management Mode (N+1) ENERGY EFFICIENT DATA CENTRE DESIGN

7. Smaller Chiller! Example Operating Logic: B\/H Mode. Effect of Supply Fan EfficiencyTraditional belt driven fan technologies can reduce the available cooling capacity by as much as 10%!

Typical Computer Room Air Distribution50%RH Average, say 57%RH 23%RH 88%RH ENERGY EFFICIENT DATA CENTRE DESIGN Est. }, 22 Total Fan Power (kW) Refrigeration Power at system EER=4 (kW) Total Power (kW) Hours of Operation (h) 8,760. 1Taylor Engineering, LLC HVAC System Design Mark Hydeman, P.E., FASHRAE Taylor Engineering, LLC. Standalone Steam Humidification. CRAC 7. "@context": "http://schema.org",

To make this website work, we log user data and share it with processors. Airflow: 3 x 4,850 l\/s. "name": "1. 1. Fan absorbed power. 4,375 l\/s. "description": "RAW Module mounts to the rear door of the rack of your choice. "@type": "ImageObject", 2 x = kW net sensible. "description": "CyberChill. 4,375 l\/s. Unit Energy Cost ($\/kWh) Annual Energy Cost ($) $135,211. Operation Peak Load Operation Office A/C On Off Chiller CHW Circuit DX Circuit Compressor Condenser Office A/C Precision A/C Office A/C Office A/C ENERGY EFFICIENT DATA CENTRE DESIGN 1 ", }, 16 4,375 l\/s.

"@context": "http://schema.org", A\/H Mode. Racks designed for 10-22kW of heat load. ENERGY EFFICIENT DATA CENTRE DESIGN.

", "@type": "ImageObject", Environmental Controls I/IG Lecture 14 Mechanical System Space Requirements Mechanical System Exchange Loops HVAC Systems Lecture 14 Mechanical System.

ENERGY EFFICIENT DATA CENTRE DESIGN. Off. Sponsored by: "width": "800" "description": "3. Learn faster and smarter from top experts, Download to take your learnings offline and on the go. Chiller Savings: 2.7 kW = $2,321/yr * Energy cost rate: 0,1 $/kWh & Chiller COP = 4 $11,607 / yr 125 tonnes CO2 / yr ENERGY EFFICIENT DATA CENTRE DESIGN }, 18 CRAC 6. ", Inbuilt Softstart operation eliminating high inrush current.

"@type": "ImageObject", "@type": "ImageObject", Office A\/C.

"name": "Summary: Identify user\u2019s needs in order to best select equipment capacities\/capabilities. Dual fluid system also provide increased levels of redundancy.

"@type": "ImageObject", }, 20 "width": "800" CRAC 5. HVAC for Data Centers

Compressor. Room Design ENERGY EFFICIENT DATA CENTRE DESIGN $\/kWhr. Source: ASHRAE - Thermal Guidelines for data Processing Environments, pg 10ENERGY EFFICIENT DATA CENTRE DESIGN "@type": "ImageObject",

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ENERGY EFFICIENT DATA CENTRE DESIGN. "width": "800" Features.

$3,704. "@type": "ImageObject", ", Fire and Life Safety: Integration: Building Automation Systems and Fire/Life Critical power: Transfer switches and switchgear, Electrical Systems: Designing electrical rooms, Critical Power: NFPA 110: Standard for Emergency and Standby Power, Critical Power: Generators and Generator System Design, Critical Power: Integrating Renewable Power into Buildings, Fire and Life Safety: Notification and Emergency Communication Systems, Critical Power: Circuit Protection in Health Care Facilities, Industrial Branding: The Lost Art in the Industrial Marketplace, Creating an Integrated Marketing Campaign for Impact and Results. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/26/Benefits+of+EC+Fan+Technology.jpg",

National 1300 Support Hotline. }, 3 {

"description": "As an air conditioning specialist STULZ offers a wide range of customer solutions for the high-tech areas of IT, telecommunications and automation. "@type": "ImageObject", "description": "ENERGY EFFICIENT DATA CENTRE DESIGN. The State of the Electrical/Power Engineering Industry, Be A Great Product Leader (Amplify, Oct 2019), Trillion Dollar Coach Book (Bill Campbell). "description": "ENERGY EFFICIENT DATA CENTRE DESIGN. Airflow per Unit (l\/s) 100 Pa. 100 Pa. 100 Pa. Total Cooling Capacity (kW) per Unit Sensible Cooling Capacity (kW) per Unit Fan Power Per Unit (kW) Net Total Cooling Capacity (kW) Net Sensible Cooling Capacity (kW) Total Airflow (l\/s) 31, , ,147. Condenser. "@type": "ImageObject",

CRAC 4. 100% 96% Total Energy Consumption.

To view this video please enable JavaScript, and consider upgrading to a web browser that ", Dual Fluid System Each individual CRAC unit has two independent cooling systems Possible cooling combinations include: CHW / CHW Water Cooled DX / CHW Air Cooled DX / CHW Cooling mode can be optimised to provide most efficient method of cooling Dual fluid system also provide increased levels of redundancy ENERGY EFFICIENT DATA CENTRE DESIGN { { Class 1) Systems Engineer. "name": "CyberChill: Basic Function",

}, 9

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Air Cooled DX \/ CHW. "name": "Benefits of Dual Fluid System", "width": "800" {

Office A\/C. STULZ provides 24/7/365 days a Year service and support through our factory trained service technicians, local spare parts and a range of Comprehensive Service Agreements. Share buttons are a little bit lower.

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"name": "Benefits if EC Fan Technology (DX Operation)", CRAC 3. 13.7\u00b0 C; 83 % r. H. 8.1 g water \/ kg air. AI and Machine Learning Demystified by Carol Smith at Midwest UX 2017, Pew Research Center's Internet & American Life Project, Harry Surden - Artificial Intelligence and Law Overview, Pinot: Realtime Distributed OLAP datastore, How to Become a Thought Leader in Your Niche, UX, ethnography and possibilities: for Libraries, Museums and Archives, Winners and Losers - All the (Russian) President's Men, No public clipboards found for this slide, Now What?

Comparative Savings in CO2.

Cooling Capacity (Total) per Unit.

Direct Rack Air Cooling Total Power In = Fan Power + Chiller PowerC C Smaller Chiller! ENERGY EFFICIENT DATA CENTRE DESIGN. Chiller Savings: 2.7 kW = $2,321\/yr. Returns air back to room at high temp, say 35\u00b0C.

"width": "800" }, 31 "width": "800" Q = 100kW. Variable Speed Driven.

"name": "High Efficiency Direct Driven EC Fans", {

Total Cooling Capacity. "description": "2. Q. V. Required Air Flow Rate: V = 100,000 \/ (1.21 x 15) => 5,500 l\/s total or 275 l\/s per rack. If you wish to download it, please recommend it to your friends in any social system. SlideShare uses cookies to improve functionality and performance, and to provide you with relevant advertising.

"@type": "ImageObject", }, 25 Now customize the name of a clipboard to store your clips. Airflow of 830l\/s delivers ~15kW of cooling. ",

R\/A = 24\u00b0C\/45% CHW = 7\/12\u00b0C water. 20 racks.

"description": "Existing Units with Belt Drive Centrifugal Fans. Oct. 24 Webinar/Seminar: Is ASHRAE 90.1 2012 or iecc-2012 the right energy co Ashrae CRC presentation doas with chilled beam, Data Center Cooling, Critical Facility and Infrastructure Optimization. "@type": "ImageObject", CRAC 4. EC Technology began almost 30 years ago in computer and telecom applications. "name": "Stulz Liquid Cooled Rack Solutions", Average, say 57%RH. "contentUrl": "https://slideplayer.com/slide/8864562/26/images/14/Ducted+Supply+%26+Return+Air+Distribution.jpg", CRAC 6. = = 28.8 kW for 100 kW of rack load => \u03b7 = ENERGY EFFICIENT DATA CENTRE DESIGN.

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data center hvac design ppt