Particulate contamination
Attention:
Airborne particulates (including metal flakes or particles) and reactive
gases acting alone or in combination with other environmental factors such as
humidity or temperature might pose a risk to the server that is described in this
document. Risks that are posed by the presence of excessive particulate levels or
concentrations of harmful gases include damage that might cause the server to
malfunction or cease functioning altogether. This specification sets forth limits for
particulates and gases that are intended to avoid such damage. The limits must not
be viewed or used as definitive limits, because numerous other factors, such as
temperature or moisture content of the air, can influence the impact of particulates
or environmental corrosives and gaseous contaminant transfer. In the absence of
specific limits that are set forth in this document, you must implement practices that
maintain particulate and gas levels that are consistent with the protection of human
health and safety. If IBM determines that the levels of particulates or gases in your
environment have caused damage to the server, IBM may condition provision of
repair or replacement of servers or parts on implementation of appropriate remedial
measures to mitigate such environmental contamination. Implementation of such
remedial measures is a customer responsibility.
Table 17. Limits for particulates and gases
Contaminant
Limits
Particulate
v
The room air must be continuously filtered with 40% atmospheric dust
spot efficiency (MERV 9) according to ASHRAE Standard 52.2
1
.
v
Air that enters a data center must be filtered to 99.97% efficiency or
greater, using high-efficiency particulate air (HEPA) filters that meet
MIL-STD-282.
v
The deliquescent relative humidity of the particulate contamination
must be more than 60%
2
.
v
The room must be free of conductive contamination such as zinc
whiskers.
Gaseous
v
Copper: Class G1 as per ANSI/ISA 71.04-1985
3
v
Silver: Corrosion rate of less than 300 Å in 30 days
1
ASHRAE 52.2-2008 -
Method of Testing General Ventilation Air-Cleaning Devices for
Removal Efficiency by Particle Size
. Atlanta: American Society of Heating, Refrigerating and
Air-Conditioning Engineers, Inc.
2
The deliquescent relative humidity of particulate contamination is the relative humidity at
which the dust absorbs enough water to become wet and promote ionic conduction.
3
ANSI/ISA-71.04-1985.
Environmental conditions for process measurement and control
systems: Airborne contaminants
. Instrument Society of America, Research Triangle Park,
North Carolina, U.S.A.
Documentation format
The publications for this product are in Adobe Portable Document Format (PDF)
and should be compliant with accessibility standards. If you experience difficulties
when you use the PDF files and want to request a web-based format or accessible
PDF document for a publication, direct your mail to the following address:
Information Development
IBM Corporation
205/A015
3039 E. Cornwallis Road
P.O. Box 12195
Research Triangle Park, North Carolina 27709-2195
Appendix B. Notices
369
Summary of Contents for System x iDataPlex dx360 M4 7912
Page 1: ...System x iDataPlex dx360 M4 Types 7912 and 7913 Problem Determination and Service Guide...
Page 2: ......
Page 3: ...System x iDataPlex dx360 M4 Types 7912 and 7913 Problem Determination and Service Guide...
Page 22: ...4 System x iDataPlex dx360 M4 Types 7912 and 7913 Problem Determination and Service Guide...
Page 278: ...260 System x iDataPlex dx360 M4 Types 7912 and 7913 Problem Determination and Service Guide...
Page 292: ...274 System x iDataPlex dx360 M4 Types 7912 and 7913 Problem Determination and Service Guide...
Page 392: ...374 System x iDataPlex dx360 M4 Types 7912 and 7913 Problem Determination and Service Guide...
Page 399: ......
Page 400: ...Part Number 46W8218 Printed in USA 1P P N 46W8218...