(22nd Round) Preparatory Course to Become a Registered Specialist Contractor (Ventilation Works) - RSC(V)

Further to our data center & critical facilities design courses, the team is going to deliver a preparatory course which helps engineers / enterprises to facilitate compliance with the Buildings Ordinance and to become Registered Specialist Contractors (RSC) in Ventilation Works in Hong Kong.

Last update on 30 March 2022

Preparatory Course to Become a Registered Specialist Contractor

(Sub-register of Ventilation Works Category) - RSC (V)

22nd Round

Date: 28 May; 4 & 11 June 2022 (Saturday) - 12 Hours in total
Time: 9:00 - 13:00

The course is designed for ventilation and air-conditioning engineering company's Technical Director (TD), Authorized Signatory (AS) or other officers successfully becoming a registered specialist contractor (ventilation works category).

Please refer to the Practice Note for Registered Contractors (Appendix F) issued by the Buildings Department for the Requirements (1 to 3) on Qualifications and Experience for Registration as a Specialist Contractor (RSC) in the Ventilation Works Category (Alternative Requirement 4 and 5 are no longer accepted).

Participants will familiarize themselves with the interview technique, application strategies, Buildings Ordinance, ventilation and fire safety regulations, occupational safety and health and environmental protection, ventilation / air-conditioning specialized knowledge, etc. within short time and up to a professional standards of ventilation engineer.

For syllabus and content, please visit our website:

Course Details (Chinese) or 

Course Details (English)

Please download the preparatory course's application form at http://www.stmedia-asia.com/images/aircon.pdf

About SMA

Strategic Media Asia (SMA), a critical infrastructure training and event organizer, provides an interactive environment and opportunities for members of engineers to exchange professional views and experience on critical infrastructure and electrical and mechanical facilities.

In addition, SMA is one of the CPD Course Providers of the Chartered Institution of Building Services Engineers (CIBSE).

For other data center design and critical facilities courses, please visit our website at http://www.stmedia-asia.com/trainings.html.

  

註冊專門承建商（通風系統工程類別）預備課程 - 加強版

課程簡介

專門為通風及冷氣工程公司的關鍵人士：技術董事 (TD) 、獲授權簽署人 (AS) 或其他高級人員 (OO) 而設計，旨在幫助公司順利申請成為註冊專門承建商（通風系統工程類別）。

學員將會在短時間內熟習面試要點、建築物條例、通風及消防法例、職業安全健康與環保、通風及冷氣的專門 知識，並達至通風及冷氣工程師的專業水準。

關鍵人士的最低資格和經驗規定 〈 第 1、2 或 3 項 〉，可參考屋宇署網頁 《 註冊承建商作業備考 38 》- 附錄 F 〈註：現時已不接受 4 或 5 項的資格及經驗。〉

修讀條件

對相關註冊及考核事宜有興趣者均可參加。

課程大綱 ( 約 12 小時 ) :

- 專門承建商的註冊事宜及基本要求
- 面試技巧及模擬問題討論
- 註冊承建商作業備考 (PNRC)

- 通告函件

- 香港法例第 123 章建築物條例

- 香港法例第 123J 章建築物（通風系統）規例

- 香港法例第 132CE 章附表所列處所通風設施規例

- 香港法例第 95 章消防條例

- 防火閘、過濾器及聚塵器實務

- 通風 / 空氣調節控制系統實務

- 年檢證書

- 職業安全健康與環保

- 面試技巧

- 申請食肆牌照通風設施規定
- 通風(空氣調節)系統標準發牌條件
- 申請符合通風系統規定通知書
- 暫准普通食肆牌照的衞生設施規定
- 正式普通食肆牌照標準發牌條件
- 符合規定證明書 D
- 工廠及工業經營(安全管理)規例
- 空調設備工程的工作安全及健康指引

課程資料

日期：2022 年 5 月 28 日；6月4 日及 11 日 ( 星期六 ) - 共 12 小時

時間：9:00 - 13:00

授課語言：粵語 (輔以 中 / 英文講義)

報名表格：按此下載 或瀏覽課程網頁 (http://www.stmedia-asia.com/aircon.html)

了解其他 關鍵設施專業課程

主講導師

Ir Dr. Samuel K.P. Lip

BSc (Hons), PgDip, MSc, PhD, CEng, RPE, FCIBSE, FCIPHE, MIET, MIFireE, MIMechE, MASHRAE, MHKIE (BS, ELEC, FIRE, ENERGY), MCIH, REA, REW (C0), RCx Pro

擁有二十多年豐富冷氣通風、消防、水務、電力及建築工程經驗及十多年本地大專院校教學經驗，熟悉註冊成為專門承建商 ( 通風系統工程 ) 授權簽署人的申請程序，並是建築物水安全計劃合資格人士、註冊電業工程人員 ( 級別: C0 )、註冊小型工程承建商獲授權簽署人、註冊能源效益評核員 ( REA ) 和 認可重新校驗專家 ( RCx Pro )。

主辦機構

Strategic Media Asia Limited (SMA)

由多位經驗豐富的英國註冊工程師組成，榮獲 英國屋宇裝備工程師學會 (CIBSE) 認可，提供持續專業發展短期課程 / 進修時數 (Approved CPD Course Provider)。自 2011 年起定期舉辦不同程度的關鍵設施課程、專業研討會及論壇，旨在提供合適的交流機會予機電工程師、屋宇裝備工程師、通訊及資訊科技界專業人士等等，同時提供關鍵設施及數據中心設計技術及知識。

詳情可瀏覽  www.stmedia-asia.com 。

GOVirtual Business Expo & Conference on 10-12 Jun 2021

A BIG THANK YOU to the IOT HK Association (IoTHK) which offered opportunities for SMA to exhibit in the GOVirtual Business Expo & Conference between 10 and 12 June 2021 in the Hong Kong Convention and Exhibition Centre. The GOVirtual Business Expo & Conference was the 1st physical B2B2C event in Hong Kong since the pandemic of COVID-19.

Further to our learning programs in data center infrastructure and critical facilities, SMA showcased the training portfolio in Big Data, Internet of Things (IoT), Blockchain Technology & Artificial Intelligence (AI) during the exhibition.

 

 

About Us

SMA combines with professional Chartered Engineers (CEng) from the Institute of Engineering Technology (IET), the Chartered Institute of Building Services Engineers (CIBSE) and the Hong Kong Institution of Engineers (HKIE). Our engineers have more than 20 years experience in data center design & build, building services engineering and energy conservation in the private and public sectors.

The team has been preparing the engineers and IT personnel to face any challenges in data centers and critical facilities of any size, in any location since 2011. For design considerations / knowledge hub in data center and critical infrastructure, please visit 

(1) Site Selection,
(2) Space Planning,
(3) Cooling,
(4) Redundancy,
(5) Fire Suppression,
(6) Meet Me Rooms,
(7) UPS Selection,
(8) Raised Floor,
(9) Code & Standards,
(10) Transformers and Harmonic Distortion,
(11) Multi-mode UPS Systems,(12) Electrical Rooms,
(13) Generator Systems,
(14) Generator Fuel Systems,
(15) Battery Systems,
(16) Earthing / Grounding and Bonding, etc.

Learn How to Design Electrical + Air Conditioning (MVAC) Systems for Critical Purposes (17 & 18 Dec 2020 + 14 & 15 Jan 2021)

2-day CPD Course in Electrical Design for Mission Critical Supply

(17 and 18 December 2020 - Approved CPD Course by CIBSE UK)
 
 
Mission-critical infrastructure have particular power requirements that significantly impact how they are designed and operated. We prepare individual to fully understand the high voltage system design & build by exploring the best practices and sharing the instructor's experience. You will gain insight into the critical supply system, from power components to distributions and efficiency; from power requirements to sizing, design, testing and commissioning.

All sections are conducted by Chartered Engineer (CEng) who have more than 20 years experience in electrical engineering, project management, sustainable engineering and facility engineering for critical services.
 
 
-- Concept on primary supply and secondary supply
-- Power flow in mission critical supply system
-- Features of major equipment for critical supply
 
  > Uninterrupted power supply and power storage
  > Backup generator
  > Automatic transfer switch
  > Static transfer switch
  > Isolation transformer
 
-- Efficiency assessment
-- Power quality review
-- Configuration diagram of critical supply (N+1 / 2N) design & analysis
-- Review of cable sizing to incorporate harmonics content
-- Earthing system design
-- Testing and commissioning requirements
-- Brief of Systems Merging Appraisal Test (SMAT)


Instructor: Ir C.K. Chan,
CEng, CEnv, FSOE, FIplantE, MIET, MHKIE, CSME, REW H0 C0


Date: 17 - 18 December 2020 (Thursday - Friday)
Time: 10:00 ~ 17:30
Venue: Unit 1226A, Star House, 3 Salisbury Road, Tsim Sha Tsui, Hong Kong
Language: Cantonese (English Courseware)
Fee: Special rate is applicable for

(1) all membership classes of HKIE / CIBSE / professional organizations in engineering; or
(2) more than 1 enrollment made at the same time
 
 
For the course details, please call (852) 2117 3893 or visit www.stmedia-asia.com/newsletter_6.html. 

2-day CPD Course in Air-Conditioning System Design for Critical Infrastructure
(14 and 15 January 2021 - Approved CPD Course by CIBSE UK)

 

 

This is a practical course for engineers who design or handle MVAC (Mechanical Ventilation and Air-Conditioning) equipment for mission-critical buildings / data center projects. The course highlight design principles such as psychrometric chart, cooling load calculation / estimation, etc. and the design considerations such as air distribution, availability / redundancy, common mistakes, Computer Fluid Dynamic (CFD) model, integration with MEPs (Mechanical, Electrical and Plumbing systems), etc.

 

You'll be able to make informed decision about the best choices of cooling systems for mission-critical purposes and how that system fulfill your project goal and SLA (Service Level Agreement).

 

> Datacom Equipment Power Trends and Cooling Applications

 

  -- Load trends and their application
  -- Air cooling of computer equipment
  -- Liquid cooling of computer equipment

> Design Consideration

 

  -- Design criteria
  -- HVAC load
  -- Computer room cooling
  -- Air distribution
  -- Liquid cooling
  -- Availability and redundancy

  -- Controls
  -- Integration with other MEP (Mechanical, Electrical and Plumbing) system 
  -- Computer Fluid Dynamics (CFD)

> Testing and Commissioning

 

  -- Air cleanliness test
  -- Heat load test
  -- Factory acceptance test
  -- Site acceptance test
  -- Integrated performance test (IST)

> Energy Efficiency

 

  -- Power usage effectiveness
  -- Chilled water plant optimization
  -- Water side and air side equipment
  -- Part load operation
  -- Controls and energy management
  -- LEED certified data center
  -- Building energy code

> Sustainable Design

 

  -- Combined heat power plant (CHP)
  -- Solar cooling
  -- Geothermal cooling
  -- Evaporative cooling
  -- Air side economizers
  -- Desiccant unit

Instructor: Ir Samuel K.P. Lip,
CEng, RPE, FCIBSE, MIET, MIFireE, MIMechE, MASHRAE, MHKIE, MCIH, REA, REW C0


Date: 14 - 15 January 2021 (Thursday - Friday)
Time: 10:00 ~ 17:30
Venue: Unit 1226A, Star House, 3 Salisbury Road, Tsim Sha Tsui, Hong Kong
Language: Cantonese (English Courseware)
Fee: Special rate is applicable for

(1) all membership classes of HKIE / CIBSE / professional organizations in engineering; or
(2) more than 1 enrollment made at the same time
 
 
For the course details, please call (852) 2117 3893 or visit www.stmedia-asia.com/newsletter_6.html.

 

 

Enrollment & Registration

 

Kindly complete and return an Application Form (attached) together with a crossed cheque made payable to "Strategic Media Asia Limited" - Room 403, 4th Floor, Dominion Centre, 43 - 59 Queen's Road East, Hong Kong.

 

About the Organizer
 
Strategic Media Asia Limited (SMA) - Connecting IT, Facilities & Design - is one of the approved CPD course providers of the Chartered Institution of Building Services Engineers (CIBSE). The mission is to provide an interactive environment and opportunities for the engineers to exchange professional views and experience on critical infrastructure and data center services.

For details, please visit www.stmedia-asia.com/about.html.
 

 

 

Strategic Media Asia Limited
Connecting IT, Facilities and Design
 
T (852) 2117 3893  |  F (852) 2184 9978
 
Room 403, 4th Floor, Dominion Centre, 43 - 59 Queen's Road East, Hong Kong
http://www.stmedia-asia.com  |  http://green-data.blogspot.com

IoT China 2019 - The Annual Roadshow in Hong Kong

A BIG THANK YOU to the IOT HK Association and the whole event team which enable SMA to exhibit in the IoT China 2019 (Hong Kong) on 27 May 2019 at the Cyperport 3. During the roadshow, we introduce the importance of data center design and critical IT infrastructure that supporting the applications and development of Internet of Things (IoT), Big Data and Artificial Intelligence (AI).

We look to seeing you in the near future!

About SMA

Strategic Media Asia Limited (SMA) is an event and training organizer for corporations and professionals specialized in designing and operating mission-critical facilities, structured cabling systems and data center / IT infrastructure. We exist to connect IT, Facilities and Design.

Currently, SMA forms strategic alliance with the IOT HK Association and the Shenzhen Big Data Industry Association (International Hong Kong Branch). Further to the IT infrastructure and critical facilities, SMA expands the service portfolio and becomes a knowledge hub in Big Data, Internet of Things (IoT), Blockchain Technologies & Artificial Intelligence (AI).

For details, please visit www.stmedia-asia.com.

Invitation to the APCA (Asia Pacific Cloud Application Alliance) Enterprises Hong Kong Data Center Site Visit & Exchange Tour

We are pleased to announce SMA forms a strategic partnership with the IOT HK Association and the Shenzhen Big Data Industry Association (International Hong Kong Branch).

Further to data center infrastructure, critical facilities and building services engineering, SMA expands the service portfolio and becomes a knowledge hub in Big Data, Internet of Things (IoT), Blockchain Technologies & Artificial Intelligence (AI).


You are cordially invited to join the "2019 Cloud Expo Asia HK - APCA Enterprises Hong Kong Data Center Site Visit & Exchange Tour" which is organized by the Asia Pacific Cloud Application Alliance (APCA) and China Unicom Global Limited.




With the support of the fabulous co-organizers - 7th Asian Data Center Technology Expo Organizing Committee, DTDATA, TF INVESTMENT, the Internet of Things Hong Kong Association (IoT HK) and Strategic Media Asia Ltd (SMA), the Site Visit & Exchange Tour creates an interactive and valuable platform for the business representatives and professionals in the field of technologies to visit Hong Kong International Data Center (IDC), to share their views and the development of big data and cloud computing applications.


JOIN THIS EVENT & MEET PROFESSIONALS IN TECHNOLOGIES FIELDS NOW!


Date: 22 May 2019 (Wednesday)
Assemble Time (Hong Kong): 10:30 - 10:45
Assemble Point (Hong Kong): Tseung Kwan O Station (Exit B1, Po Yap Road)

Venue: China Unicom (Hong Kong) Global Limited, 19 Chun Wang Street,
Tseung Kwan O Industrial Estate, Hong Kong


DOWNLOAD AGENDA > Discover the Full Program Details:-

in Chinese (Participants in Mainland / Shenzhen); or
in English (Participants in Hong Kong)


INTEREST IN THIS EVENT? APPLY ONLINE *


* Lunch & Catering will be included.
* Local round-trip shuttle bus will be provided between the data center & MTR station.
* Seats are limited. Each application will be reviewed by the event team.
* Only qualified participants will be confirmed and notified by email.

We look forward to seeing you in the Site Visit & Exchange Tour!

Data Center Design Consideration: Meet Me Rooms (MMR)

A co-location facility / carrier-neutral data center hosts services from multiple carriers (telecommunication companies) or organizations. Meet-me rooms (MMR) are important physical spaces (2 or more for redundancy) located in the building of a co-location data center or carrier-neutral data center. Data center clients use this space to interconnect or cross-connect to a single or multiple carriers (for redundancy) and to exchange information, which can be transmitted to individual computers via the Internet, without incurring local-loop fees.

Although the concept and practice of using an MMR are not new, the initial creation and management of these spaces over time has become a serious challenge for operators. Owing to some poor practices and lack of building standards, there have been occasions where new clients' preferred carrier could not be accommodated as a result of physical / location challenges. We are going to outline some design best practices.



CABINETS AND SPACE


A carrier generally asks for at least 2 four-post, 84" (45U) high cabinets in each MMR. If the operator is providing only AC power, the carrier may request additional rack space for rectifiers and batteries, should they be using DC equipment.

The best practice is to meet with the intended carriers all at once to create a rack and space solution that they can all agree on. Although this may be a difficult task to schedule, it will be worthwhile to reach an agreement on one typical rack type and one layout look and feel.

Clients who inspect your facilities before signing a contract will appreciate a consistent look to this space. Permitting odd-size cabinets combined with open-frame racks of all colors and widths will detract from a professional look and limit the usefulness of space for new or different functions.

Meet-Me Rooms tend to be smaller because fibers would be run from a user suite to patch panels in an MMR to be interconnected, which requires little space. With time, these rooms have grown in size and are starting to resemble data centers, including features such as cages.



LOCATION


The location of the MMRs would be outside the computer rooms, in the secure data center space. When determining location for one or redundant rooms, consider the industry standards for distance, which will vary according to service type and media (fiber/copper/coax). Placing the MMR on an outside wall is ideal if the space will double as the point of entry so that equipment and workers can go in and out using external doors without disrupting data hall's operations.

Depending on the expected user population, locating the MMR on an exterior wall and even near a loading dock could be a deal breaker for security reasons. If your clients require significantly more security than normal commercial businesses, the MMR should not act a main point of entry but should instead be placed within the data center, away from external walls.



CONNECTIONS


The connection to the data center clients and carriers / MMRs have many methods. Some standards exist. Each method has challenges in co-location facilities, and each challenge can be met so long as they are identified early and planned for.


Direct Connect —

Each carrier connects directly with the client from the carrier-equipment rack to the client-side demarcation point or equipment rack which is also located in a secure half of the MMR (see figure below). The client then extends to the floor space.

The MMR is split for security reasons between clients and carriers. Clients are permitted in their side of the MMR, and carriers in theirs. This approach could increase the amount of conduit in the ceiling space and limit future installations.

Using a private cage for client-side equipment or third-party cross-connect provider as the only staff permitted in the client side of the MMR could limit a security concern.

Direct Connect (Extended Demarcation Point) —

It means each carrier connects directly with the client from the carrier-equipment rack in the MMR to the client-side demarcation point located in the client space (see figure below). Multiple conduits demanded by clients can quickly fill any available space above the ceiling.

Cross Connect in the MMR —

Each client space has pre-installed patch panels located in a secure side of the MMR whereby multiple carriers cross-connect (see figure below). The pre-installed facility is then patched to the client's equipment in the floor space.

Similar to the "Direct Connect" method, some clients may express security concerns with this topology and carriers may not like the potential that a competitor could accidentally unplug their patch. If the MMR is professionally managed (which is highly recommended), the carrier would not have access to this side of the MMR.





Cross Connect in Client's Floor Space —

Patch panels are placed in each carrier’s secure equipment rack and pre-connected to each client's space (see figure below). Drawbacks include higher upfront costs to carriers and operators, who may never connect to every client, and loss of operator cross-connect fees.

MANAGING  MMR


Try to create in-building standards and include them in every lease agreement. In addition, carrier agreements should include adherence to your standards. These standards need to outline access-control, cross-connect, interconnect, and direct-connection means and methods, as well as installation and pathway standards, cable count and color standards, and labeling criteria.

Access Control —

Control access to carrier sides and, if designed, client sides of the MMRs. Only permit third-party MMR management companies to have access to both rooms. Make sure this access is authorized, authenticated and audited. Ensure the design disables any opportunity for a carrier or tenant to literally “throw a cable over the wall” to make a connection.


Connection Methods —

A good cable installer can be assigned to the task of managing the MMR as long as the standards are well documented and SLAs between that company and the operator exist.


Pathway Standards —

The MMR space above the ceiling is not limitless; as such, controls must be put in place to ensure large (and typically unused) conduits are not positioned between data connection points. Traditional cable tray is a sure means of transporting media; most clients will claim that cable trays are an inherent security risk, however. The use of flexible armored cable is something all operators should consider. It is lightweight, able to bend and ultra-thin compared with conduit.


Color Codes —

Color coding the media is a best practice for many reasons. Colors can designate fiber-types, counts, installation dates and specific client connections. Mining out the infrastructure of past clients is easy once the cables are identified, and identification by color is a quick means of disposal.



For details of the MMR and structured cabling system design (copper and fiber cables), please consider to attend a credential program and further learning for telecommunications spaces, horizontal and backbone distribution systems.



About SMA

Strategic Media Asia (SMA) is one of the approved CPD course providers of the Chartered Institution of Building Services Engineers (CIBSE) UK.

The team exists provide an interactive environment and opportunities for members of ICT industry and facilities' engineers to exchange professional views and experience.

SMA connects IT, Facilities and Design. For accreditation details and background, please visit www.stmedia-asia.com/about.html.

Critical Facilities and Data Center Design Peer Review

Validate Your Critical Facilities and Data Center Design

We understand you have been working with an experienced project engineers and architect to complete the construction documents and engineering specifications for your new mission-critical facilities / data centers. Special consideration has been placed in the development of these documents to ensure a successful construction phase.


    


Since your mission-critical facilities are complex and fundamentally different from other types of construction projects (with own set of standards, requirements, etc.), one tool to assist making informed judgement is the Design Stage Peer Review - an important and often overlooked validation of the design before construction commences.

Click to Enlarge


Our Peer Review is an independent technical analysis of the design drawings and specifications conducted to identify potential deficiencies, at the design stage or bidding stage, where error on paper are simple to rectify correct.

• Consult with our professional team with Chartered Engineer (CEng) status who have more than 20 years experience in critical facilities design, data center projects and building services engineering
• Ensure that your design & build project documents and engineering specifications fulfill your ultimate needs and requirements
• Discover all potential single points of failure and cost and efficiency improvements

Further to the Data Center & Critical Facilities Design Courses, our professional team can help you to confirm the important items such as power, cooling, loads / capacities, redundancies and safety have been properly and optimally engineered.

    

Peer Review Findings and Return

After your review is completed, our professional team will present you with a detailed findings, including

• Items of concern & improvement
• Rationale for questioning the original design / infrastructure items
• Potential capital and operating cost savings

For additional information and the peer review findings, please visit www.stmedia-asia.com/critical-facilities-design-peer-review.html .


In addition to the peer review, you are cordially invited to visit our Data Center Design Consideration Series -

(1) Site Selection,
(2) Space Planning,
(3) Cooling,
(4) Redundancy,
(5) Fire Suppression,
(6) Meet Me Rooms,
(7) UPS Selection, and
(8) Raised Floor

All topics focus on key components and give technical advice and recommendations for designing a data center and critical facilities.

Register Today for Further Learning in Critical Facilities and Electrical System Design (May / June 2017)

Data Center Facilities Design and Infrastructure Engineering

(18 - 19 May 2017, approved CPD course by CIBSE UK)

The 2-day CPD is designed for Building Services Engineers, Facilities / Data Center Managers, IT Management, etc. to enrich and update the knowledge in critical facilities and data centers design & build. It is more than an introductory session for data center and infrastructure:

- IT strategy
- Cabinet layout
- Raised floor system

- Data center network and structure
- Telecommunication backbones, redundancy, sizing and planning
- Fiber and optical system design
- Fiber and optical cable components
- Copper cabling components
- Copper system design and high speed ethernet
- Cable distribution, layout and management
- Earthing / grounding and bounding

- Power (1) – high / low voltage system, switch system, etc.

- Power (2) – UPS, transformers, fuel tanks, generators, etc.
- Cooling (1) – cooling topology, hot / cold aisle, etc.

- Cooling (2) – chiller, CRAC, cooling towers, etc.

- Environmental management system
- Physical security
- Fire protection system

Date: 18 - 19 May 2017 (Thursday - Friday)

Time: 10:00 – 17:30

Venue: Ground Floor, Innocentre, 72 Tat Chee Road, Kowloon Tong, Hong Kong

Fee: Special rate for CIBSE / HKIE all membership classes

For details, please refer to http://www.stmedia-asia.com/newsletter_6.html.

Electrical Design for Mission Critical Supply

(15 - 16 June 2017, approved CPD course by CIBSE UK)

This is an advanced learning for mission critical facilities which have particular power requirements that significantly impact how they are designed and operated. You will gain insight into the critical supply system, from power components to distributions and efficiency; from power requirements to sizing, design, testing and commissioning:

-- Concept on primary supply and secondary supply

-- Power flow in mission critical supply system

-- Features of major equipment for critical supply

  > Uninterrupted power supply and power storage

  > Backup generator

  > Automatic transfer switch

  > Static transfer switch

  > Isolation transformer

-- Efficiency assessment

-- Power quality review

-- Configuration diagram of critical supply (N+1 / 2N) design & analysis

-- Review of cable sizing to incorporate harmonics content

-- Earthing system design

-- Testing and commissioning requirements

-- Brief of Systems Merging Appraisal Test (SMAT)

Date: 15 - 16 June 2017 (Thursday - Friday)

Time: 10:00 – 17:30

Venue: 14/F, Hip Shing Hong Kowloon Centre, 192-194 Nathan Road, Jordan, Hong Kong -

Accessible from the Austin Road (Exit D, Jordan Station)

Fee: Special rate for CIBSE / HKIE all membership classes

For details, please refer to http://www.stmedia-asia.com/newsletter_6.html.

Enrollment & Registration

Kindly complete and return an Application Form (attached) together with a crossed cheque made payable to “Strategic Media Asia Limited” - Room 403, 4th Floor, Dominion Centre, 43 - 59 Queen's Road East, Hong Kong.

About the Organizer

Strategic Media Asia Limited (SMA) is one of the approved CPD course providers of the Chartered Institution of Building Services Engineers (CIBSE) UK. For details, please visit www.stmedia-asia.com/about.html or http://green-data.blogspot.com (Knowledge Blog).

Data Center Design Consideration: Raised Floor

Despite all many studies claiming raised floor is no longer necessary in data center design, it is still present in the vast majority of data centers or computer rooms. We are going to address several important factors to consider (structural strength, airflow and leakage if you’re using it for cooling and static dissipation) when choosing and installing a raised floor in your critical facilities.


(1) Cooling, Floor Tightness and Airflow


The overhead air ducts in slab (non-raised-floor) designs tends to be limited. When chilled air is delivered under a raised floor and preforming "spot cooled", simply rearranging perforated floor tiles is enough to change the cooling distribution. Also, the plenum under a raised floor offers room for cabling (usually power cables) that doesn’t require the kind of added labor and infrastructure that overhead cabling calls for—cable racks or baskets.

However, massive underfloor air delivery is often problematic and accounts for many of today’s data center cooling problems. Air turbulence can cause uneven air pressure and spotty air delivery. Raised floor heights of 18 inches, 24 inches and even 30 inches or more are needed, and few buildings have the slab-to-slab clearance for that.

On the other hand, the plenum under a raised floor can be subject to obstructions (particularly cabling) and other inefficiencies that hamper cooling. The general consensus is that a raised-floor design cannot meet the cooling needs of higher-density deployments (perhaps in the range of 8–10 kW per rack and up).





There are also code considerations with underfloor air delivery. A data center that uses the raised floor space for cooling may be required by Article 645 of the National Electrical Code to also have an emergency power off button next to exit doors. However, data center owners can avoid this requirement in a number of ways, including not using a raised floor at all.

It’s important that the panels must be square and tight to minimize air leakage, and every edge next to walls and air conditioners and around pipe penetrations must be sealed.

One important thing to remember is that while adjustable dampers on tiles can be very valuable for balancing air delivery among cabinets, adding a damper to any tile effectively reduces its “open percentage” and its airflow, even when the damper is fully open.

For example, a Tate 25% open perforated panel with no damper will pass 746 cfm of air at 0.1 inches of static pressure under the floor. Simply adding a damper and leaving it fully open reduces this to 515 cfm. That’s the equivalent of only 17.4% open. With a 56% open grate tile, the difference is even more dramatic - 2,096 cfm with no damper and only 1,128 cfm with a fully open damper (a reduction from 56% to 30.5% open).

An examination of manufacturers’ airflow characteristics and images, with and without dampers, can quickly reveal this effect.


(2) Ramp


Ramps also take up a lot of space. The Americans with Disabilities Act (ADA) requires at least a 1:12 slope, which means a ramp must have one foot of length for every inch of floor height. In new buildings, a depressed slab will keep the raised floor even with the surrounding corridors, but that takes a special structure.


(3) Building Floor Levelness & Load Capacity


Most building floor slabs are uneven, and they’re designed to flex as weight is added. Raised floors use adjustable pedestals that result in a very level floor surface without needing to level the slab. This makes it easier to align rows of cabinets, as well as to roll equipment into place.

However, the capacity of the floor may become a structural concern if the data center grows faster than originally planned or new, heavier equipment is deployed beyond what the company had intended at construction time. Furthermore, seismic activity poses a danger to raised floors beyond what slabs face.


(4) Evaluation of Raised Floor and Panels


Modern raised floors for data centers are usually made of cement-filled steel or cast aluminum. For easy access, we need “lay-in” panels that can be easily removed, rather than the screw-down type that are bolted to the pedestals at each corner. And because cabinets in today’s data centers are getting heavier, we need the strength and stability of a “bolted stringer” understructure, rather than panels that just self-lock to the pedestals at the corners.

Panels have historically been labeled and marketed for their “concentrated load” ratings. This is the maximum load that can be applied to the weakest one square inch of the tile without deforming it by more than a specified amount. But different manufacturers provide other ratings, including "uniform load" (the average weight per square foot the panel can support when weight is evenly distributed across its four square-foot surface), "yield point" (where the panel permanently deforms) and "ultimate load" (where the concentrated load actually causes the panel to collapse or break).

Either way, it is the concentrated load or design load, not the uniform load, we care about most, since cabinets usually sit on small leveling feet or casters, not solid full-size bases. Uniform load is meaningless in a data center.

So what strength do we really need? There is a tendency to use the highest load rating simply because cabinets are getting heavier, but is that really necessary?

Stronger floors usually weigh more which, depending on the building slab rating, may reduce the useful cabinet weight that a raised floor can support. This is a reason to compare the weights of similarly rated panels, and is also why some data center designers advocate cast aluminum floors despite their much higher cost.

Although some cabinets may weigh 2,500 pounds or more, others will probably weigh less. If you only have several heavy cabinets, extra pedestals under them may be fine, but if you have too many heavy cabinets, extra pedestals could be forgotten with resulting damage to the floor.

Another important rating is "rolling load,” because we need to get cabinets across the floor and into position. One suggestion is to install stronger panels in your delivery paths, so the panels with different strengths are interchangeable in the floor structure.

It is important to carefully read manufacturers' data sheets. Since not all floor manufacturers test and specify the same way, it is also good to know how tests were run to compare ratings and determine whether they were done by independent testing labs.


(5) Raised Floor's Surface Material


We should also be concerned about the anti-static characteristic of a floor material. There are two types of floors that are often confused: conductive and static dissipative. Technical definitions classify static dissipative as a particular type of conductive floor, but manufacturers of raised floor products for data centers and clean rooms will generally identify them separately. Conductive flooring is typically used in clean rooms, where people are handling microchips. This type of flooring has a lower resistance to ground than static dissipative products. Conductive flooring is not needed, nor recommended, for data centers.

In data centers, we need static dissipative floors that will conduct static charges of more than 100 volts away from our bodies and clothing and through the floor tile to the ground. This requires a surface material to have the necessary static dissipative qualities, and a grounded understructure that prevents the generation of static electricity. The understructure should also conduct electrical charges away so that they are not harmful to our equipment. Ratings should be based on the resistance from any point on the panel surface to the pedestal, which also needs to be properly grounded to work.

The surface material on a computer room floor should be a zero-maintenance product. It should never need to be waxed or buffed, as wax accumulates dirt and must be removed with liquids, and buffing creates dust. The material must also be hard enough for equipment to roll over and sit on without denting or deforming. This rules out rubber and vinyl materials. And, of course, carpet of any kind should never be used, as it both creates and traps particulates. The most commonly used surface covering in data centers is known as high-pressure laminate (HPL). It can be made with the necessary static dissipative qualities and also has the hardness and maintenance characteristics needed. It should also be made so the laminate edges are not easily damaged.


(6) Budget, Cleaning and Maintenance


The area under a raised floor is a dirt and debris trap, but cleaning can be problematic. Furthermore, other problems such as addressing (and even identifying) moisture and breaches in walls plague this approach. Also, since out of sight is out of mind, the temptation to leave unused cabling and other junk in the plenum may be irresistible, particularly in a time-pressed environment, thus exacerbating the problem.

For data centers operated more than 5 - 10 years, replacing individual floor panels with special size may be required due to wear out and daily operations. Minimum order quantity (MOQ) requirement specifies the lowest quantity of the raised floor panels that a supplier is willing to sell. Spare panels are usually recommended and prepared in the data center design stage or extra budget may be required to settle the tailor-made issue.


(7) Security


This concern is particularly acute in the co-location facilities that serve multiple customers. For security concern, some cabinets stored sensitive data for critical purposes are installed inside a cage unit (from ceiling to raised floor, from raised floor to concrete slab floor) which is separated from other cabinets in a data hall. It should be prepared for this kind of installation.



* The Performance Selection Chart and Air Flow information are provided by MUFLOOR ASIA COMPANY LIMITED (http://www.mufloor.com). For details, please contact the local distributor.



About the Blogger

Strategic Media Asia (SMA) is one of the approved CPD course providers of the Chartered Institution of Building Services Engineers (CIBSE) UK. The team exits to provide an interactive environment and opportunities for members of ICT industry and facilities' engineers to exchange professional views and experience.

SMA connects IT, Facilities and Design. For the Data Center Consideration Series, please visit 

(1) Site Selection,
(2) Space Planning,
(3) Cooling,
(4) Redundancy,
(5) Fire Suppression,
(6) Meet Me Rooms, and
(7) UPS Selection