Special Conditions: Airbus Model A321neoXLR Airplane; Passenger Protection From External Fire, 74503-74505 [2022-26435]
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Federal Register / Vol. 87, No. 233 / Tuesday, December 6, 2022 / Rules and Regulations
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households must be recertified and
must execute a tenant certification form
at least annually or whenever a change
in household income of $100 or more
per month occurs.
The 8.7% cost-of-living adjustment
(COLA) will begin with benefits payable
in January 2023. As this would require
recertifications for most Social Security
recipients, the Agency is temporarily
waiving the recertification requirement
for tenants whose household income,
regardless of income type, has increased
by $100 or more, but less than $200.
Accordingly, during the exception
period, tenants will not be required to
execute a tenant certification form
unless their household income changes
by $200 or more per month. This
temporary change also aligns the MFH
program with the current Housing and
Urban Development (HUD) regulatory
requirement. This is a temporary waiver
that will be in place through calendar
year 2023, expiring on December 31,
2023.
Temporary Change in Tenant
Recertification Requirements
Pursuant to 7 CFR 3560.8, the RHS
Administrator may make an exception
to any provision of part 3560 or address
any omissions provided that the
exception is consistent with the
applicable statute, does not adversely
affect the interest of the Federal
Government, and does not adversely
affect the accomplishment of the
purposes of the MFH programs or
application of the requirement would
result in undue hardship on the tenants.
To alleviate the burden of unnecessary
work for management agents and
tenants, the following guidance is being
provided for interim tenant
certifications:
The Agency is temporarily waiving
the recertification requirement for
tenants whose household income has
changed by $100 or more, but less than
$200 per month. During the period of
the waiver, tenant households must be
recertified and must execute a tenant
certification form at least annually or
whenever a change in household
income of $200 or more per month
occurs.
This temporary exception is effective
January 1, 2023, and will expire on
December 31, 2023.
The requirement that borrower must
recertify for changes of $50 per month,
if the tenant requests that such a change
be made, is still in effect.
This exception does not apply to, or
change the requirements for, annual
renewal certifications.
Agency Field staff will be advised to
provide a copy of this notice to all
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16:33 Dec 05, 2022
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74503
borrowers and management agents.
Through the provided notification,
borrowers and management agents will
be instructed to provide a written copy
of the notice to all tenants immediately,
including posting the notice at each
property.
(1) Mail: U.S. Department of
Agriculture Office of the Assistant
Secretary for Civil Rights 1400
Independence Avenue, Washington, DC
20250–9410; or (2) Fax: (833) 256–1665
or (202) 690–7442; or (3) Email:
Program.Intake@usda.gov.
Paperwork Reduction Act
Jamal Habibi,
Acting Administrator, Rural Housing Service.
The temporary exception to tenant
recertification requirements contains no
new reporting or recordkeeping burdens
under OMB control number 0575–0189
that would require approval under the
Paperwork Reduction Act of 1995 (44
U.S.C. Chapter 35).
Non-Discrimination Statement
In accordance with Federal civil
rights laws and USDA civil rights
regulations and policies, the USDA, its
Mission Areas, agencies, staff offices,
employees, and institutions
participating in or administering USDA
programs are prohibited from
discriminating based on race, color,
national origin, religion, sex, gender
identity (including gender expression),
sexual orientation, disability, age,
marital status, family/parental status,
income derived from a public assistance
program, political beliefs, or reprisal or
retaliation for prior civil rights activity,
in any program or activity conducted or
funded by USDA (not all bases apply to
all programs). Remedies and complaint
filing deadlines vary by program or
incident.
Program information may be made
available in languages other than
English. Persons with disabilities who
require alternative means of
communication to obtain program
information (e.g., Braille, large print,
audiotape, American Sign Language)
should contact the responsible Mission
Area, agency, or staff office; the USDA
TARGET Center at (202) 720–2600
(voice and TTY); or the Federal Relay
Service at (800) 877–8339.
To file a program discrimination
complaint, a complainant should
complete a Form AD–3027, USDA
Program Discrimination Complaint
Form, which can be obtained online at
https://www.ascr.usda.gov/complaint_
filing_cust.html, from any USDA office,
by calling (866) 632–9992, or by writing
a letter addressed to USDA. The letter
must contain the complainant’s name,
address, telephone number, and a
written description of the alleged
discriminatory action in sufficient detail
to inform the Assistant Secretary for
Civil Rights (ASCR) about the nature
and date of an alleged civil rights
violation. The completed AD–3027 form
or letter must be submitted to USDA by:
PO 00000
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[FR Doc. 2022–26434 Filed 12–5–22; 8:45 am]
BILLING CODE 3410–XV–P
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 25
[Docket No. FAA–2021–0891; Special
Condition No. 25–825–SC]
Special Conditions: Airbus Model
A321neoXLR Airplane; Passenger
Protection From External Fire
Federal Aviation
Administration (FAA), DOT.
ACTION: Final special conditions.
AGENCY:
These special conditions are
issued for the Airbus Model
A321neoXLR airplane. This airplane
will have a novel or unusual design
feature when compared to the
technology envisaged by the
airworthiness standards for transport
category airplanes. This design feature
is an integral rear center tank (RCT). The
applicable airworthiness regulations do
not contain adequate or appropriate
safety standards for this design feature.
These special conditions contain the
additional safety standards that the
Administrator considers necessary to
establish a level of safety equivalent to
that established by the existing
airworthiness standards.
DATES: Effective January 5, 2023.
FOR FURTHER INFORMATION CONTACT:
Shannon Lennon, Human Machine
Interface, AIR–626, Technical
Innovation Policy Branch, Policy and
Innovation Division, Aircraft
Certification Service, Federal Aviation
Administration, 2200 South 216th
Street, Des Moines, Washington 98198;
telephone and fax 206–231–3209; email
shannon.lennon@faa.gov.
SUPPLEMENTARY INFORMATION:
SUMMARY:
Background
On September 16, 2019, Airbus
applied for an amendment to Type
Certificate No. A28NM to include the
new Model A321neoXLR airplane. The
Model A321neoXLR airplane, which is
a derivative of the Model A321neoACF
airplane currently approved under Type
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Federal Register / Vol. 87, No. 233 / Tuesday, December 6, 2022 / Rules and Regulations
Certificate No. A28NM, is a twin-engine
transport category aircraft that seats 244
passengers and has a maximum takeoff
weight of 202,000 lbs.
Type Certification Basis
Under the provisions of title 14, Code
of Federal Regulations (14 CFR) 21.101,
Airbus must show that the Model
A321neoXLR airplane meets the
applicable provisions of the regulations
listed in Type Certificate No. A28NM, or
the applicable regulations in effect on
the date of application for the change,
except for earlier amendments as agreed
upon by the FAA.
If the Administrator finds that the
applicable airworthiness regulations
(e.g., 14 CFR part 25) do not contain
adequate or appropriate safety standards
for the Airbus Model A321neoXLR
airplane because of a novel or unusual
design feature, special conditions are
prescribed under the provisions of
§ 21.16.
Special conditions are initially
applicable to the model for which they
are issued. Should the type certificate
for that model be amended later to
include any other model that
incorporates the same novel or unusual
design feature, or should any other
model already included on the same
type certificate be modified to
incorporate the same novel or unusual
design feature, these special conditions
would also apply to the other model
under § 21.101.
In addition to the applicable
airworthiness regulations and special
conditions, the Airbus Model
A321neoXLR airplane must comply
with the fuel vent and exhaust emission
requirements of 14 CFR part 34 and the
noise certification requirements of 14
CFR part 36.
The FAA issues special conditions, as
defined in 14 CFR 11.19, in accordance
with § 11.38, and they become part of
the type certification basis under
§ 21.101.
lotter on DSK11XQN23PROD with RULES1
Novel or Unusual Design Feature
The Airbus Model A321neoXLR
airplane will incorporate the following
novel or unusual design feature:
An integral RCT.
Discussion
The Airbus Model A321neoXLR
incorporates an integral RCT. This tank
is a ‘‘center’’ fuel tank, in that it is
located in the airplane fuselage rather
than in its wings. The tank is a ‘‘rear’’
tank, in that it is located aft of the wheel
bay; it will be in an area of the lower
fuselage that partially replaces the aft
cargo compartment of the airplane from
which this model is derived. The top of
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16:33 Dec 05, 2022
Jkt 259001
the tank will be directly below the floor
of the passenger cabin. The fuel tank
will be ‘‘integral’’ to the airplane, in that
its walls will be part of the airplane
structure. The exterior skin of the
airplane fuselage will constitute part of
the walls of the fuel tank, and these
areas will lack the thermal/acoustic
insulation that usually lines the exterior
skin of an airplane fuselage.
This design was not envisaged by the
FAA’s regulatory requirements for
insulation installations on transport
category airplanes. 14 CFR 25.856(b)
requires all thermal/acoustic insulation
in the lower half of the airplane fuselage
and their installation to comply with the
flame penetration resistance test of
appendix F, part VII. The FAA adopted
§ 25.856(b) to raise the level of postcrash fire safety on transport category
airplanes. Part VII of appendix F to part
25 requires a stringent test method for
all thermal/acoustic insulation proposed
for installation in the lower half of the
fuselage. The FAA’s intent in imposing
this requirement was to ensure that this
insulation provides an additional barrier
between the occupants and an external
post-crash fire, especially a fire resulting
from a pool of spilled aviation fuel.1
This barrier extends the time available
for evacuation.
While the rule applies to the thermal/
acoustic insulation that an applicant
proposes as part of their design, it does
not require applicants to install such
insulation. Since the fuselage skins of
the lower half of transport category
airplanes are generally insulated, and
were at the time these standards were
developed, the FAA considered this
approach to be sufficient to ensure
safety. The rule also noted, however,
that if applicants began to propose
designs that omitted this thermal/
acoustic insulation, the FAA would
revisit the need for a specific fuselage
burnthrough standard.2
Thus, since this design will lack
thermal/acoustic insulation under the
fuselage skin in the area of the fuel tank,
current FAA regulations do not ensure
that it will provide a continuous flame
penetration (burnthrough) resistant
barrier between the passengers and an
external fire, nor that it will provide
enough protection, against an external
post-crash fire, to allow time for
passengers to evacuate.
According to Airbus, its design does
not allow for compliant thermal/
1 See pg. 2 of FAA Advisory Circular 25.856–2A,
Installation of Thermal/Acoustic Insulation for
Burnthrough Protection.
2 Improved Flammability Standards for Thermal/
Acoustic Insulation Materials Used In Transport
Category Airplanes, 68 FR 45046, 45049 (Jul. 31,
2003).
PO 00000
Frm 00012
Fmt 4700
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acoustic insulation to be placed beneath
the cabin floor. This large volume of
unheated liquid (fuel), directly below
the floor of the passenger cabin, would,
without mitigation, create a ’cold feet’
effect for the passengers above it.
Therefore, Airbus will install insulation
panels between the fuel tank and the
cabin floor, for comfort reasons. These
insulation panels would normally be
required to meet § 25.856(b). However,
Airbus states that it is technically not
feasible to install thermal/acoustic
insulation that complies with
§ 25.856(b), due to the lack of space in
this area and the need to keep nearby
decompression panels free of blockages
and ensure adequate ventilation.
Special conditions are needed to
address the assumption in the FAA’s
current flammability standards that
proposed airplane designs would
include thermal/acoustic insulation in
the lower fuselage, and to ensure that
this proposed design does not reduce
the time available for passenger
evacuation in the case of a post-crash
external fire. Specifically, the FAA will
require that the lower half of the
airplane fuselage, spanning the
longitudinal area of the tank, be
resistant to fire penetration. ‘‘Resistant
to fire penetration’’ will, for this special
condition, mean that this area provides
fire penetration resistance equivalent to
the resistance which would be provided
if the fuselage were lined with thermal/
acoustic insulation that meets the flame
penetration resistance test requirements
of part VII of appendix F of part 25. The
applicant’s method of compliance may,
but is not required to, be based upon
any inherent flame penetration
resistance capability provided by the
construction of the fuel tank and/or
other surrounding features.
These special conditions contain the
additional safety standards that the
Administrator considers necessary to
establish a level of safety equivalent to
that established by the existing
airworthiness standards.
Discussion of Comments
The FAA issued Notice of Proposed
Special Conditions No. 25–21–04–SC
for the Model A321neoXLR airplane,
which was published in the Federal
Register on April 6, 2022 (87 FR 19811).
The FAA received four comments from
the Boeing Company (Boeing).
Comment Summary: Boeing requested
that the discussion section of these
special conditions describe the RCT as
an ‘‘auxiliary,’’ rather than ‘‘center,’’
fuel tank because the airplane also has
a ‘‘center’’ wing (main) tank, and
because, as described by Advisory
Circular (AC) 25–8, Auxiliary Fuel
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Federal Register / Vol. 87, No. 233 / Tuesday, December 6, 2022 / Rules and Regulations
Systems Installations, the RCT would be
connected to the main tank with a fuel
feed line. Boeing also requested that the
discussion section describe the tank as
an ‘‘aft’’ fuel tank rather than a ‘‘rear’’
tank, because it will be aft of the wheel
bay.
FAA Response: No change to the
terms used to describe the RCT in these
special conditions is necessary. The
existing terms are accurate, consistent
with the applicant’s nomenclature, and
adequate for their purpose.
Comment Summary: Boeing requested
that the discussion section of these
special conditions acknowledge that AC
25.856–2A 3 provides guidance for
center wing tank designs. Boeing further
requested that the discussion, according
to guidance provided in that AC for the
wing box area, also indicate that
insulation panels installed above a fuel
tank are not required to meet
§ 25.856(b).
FAA Response: The discussion for
these special conditions acknowledges
that § 25.856(b) does not adequately
address designs like the RCT of the
A321neoXLR. This aircraft presents a
novel fuselage design that does not
incorporate thermal/acoustic insulation
in areas where the RCT is integral to the
fuselage, nor does it include thermal/
acoustic insulation above the RCT that
will meet § 25.856(b). This design
presents a fire penetration resistance
(burnthrough) vulnerability that is
addressed by these special conditions.
The same vulnerability does not exist
with transport airplane wing box
construction due to that structure’s
significant mass, and large surface area
that dissipates heat. Therefore, adding
insulation over the wingbox, would not
contribute to its fire penetration
resistance. 14 CFR 25.856(b) excepts the
installation of insulation in locations
where it would not contribute to fire
penetration resistance. However, the
wing box example in AC 25.856–2A
only addresses the FAA’s assessment of
the wing box area in consideration of
thermal/acoustic insulation installations
that would not contribute to fire
penetration resistance. It does not
suggest that all center fuel tanks do not
necessitate the installation of thermal/
acoustic insulation that meets
§ 25.856(b). For this reason, the FAA
declines to change the discussion
section of these special conditions.
Comment Summary: Boeing requested
that the special conditions require the
RCT fire penetration resistance
capability to either be equivalent to the
3 See pg. 2 of FAA Advisory Circular 25.856–2A,
Installation of Thermal/Acoustic Insulation for
Burnthrough Protection.
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16:33 Dec 05, 2022
Jkt 259001
capability provided by the wing box
area or meet the requirements of 14 CFR
25.963(e)(2). Boeing’s rationale was that
the FAA’s proposed standard of fire
penetration resistance equivalent to that
of a fuselage lined with thermal/
acoustic insulation that meets the flame
penetration resistance test requirements
of part VII of appendix F, does not
address hazards associated with fuel
tanks and is not applicable to the wing
box area.
FAA Response: These special
conditions are intended to ensure that
the existing RCT area fuselage design
establishes the same level of safety as
would 14 CFR 25.856(b). When thermal/
acoustic insulation is installed, either
along the fuselage skin or under the
passenger cabin floor, it should be fire
penetration resistant and delay the onset
of fire into the passenger cabin. These
special conditions are not intended to
ensure the RCT is constructed to
provide a fire penetration resistance
capability that is similar to that of the
wing box area. It is also unnecessary to
require that the RCT meet rules such as
14 CFR 25.963(e)(2), which provides
standards for fuel tank access covers.
The special conditions are adopted as
proposed.
As discussed above, these special
conditions are applicable to the Airbus
Model A321neoXLR airplane. Should
Airbus apply at a later date for a change
to the type certificate to include another
model incorporating the same novel or
unusual design feature, these special
conditions would apply to that model as
well.
Conclusion
This action affects only a certain
novel or unusual design feature on one
model of airplane. It is not a rule of
general applicability.
List of Subjects in 14 CFR Part 25
Aircraft, Aviation safety, Reporting
and recordkeeping requirements.
Authority Citation
The authority citation for these
special conditions is as follows:
Authority: 49 U.S.C. 106(f), 106(g), 40113,
44701, 44702, 44704.
The Special Conditions
Accordingly, pursuant to the
authority delegated to me by the
Administrator, the following special
conditions are issued as part of the type
certification basis for Airbus Model
A321neoXLR airplanes.
PO 00000
Frm 00013
Passenger Protection From External
Fire
The lower half of the fuselage,
spanning the longitudinal location of
the rear center fuel tank, must be
resistant to fire penetration.
Issued in Kansas City, Missouri, on
November 30, 2022.
Patrick R. Mullen,
Manager, Technical Innovation Policy
Branch, Policy and Innovation Division,
Aircraft Certification Service.
[FR Doc. 2022–26435 Filed 12–5–22; 8:45 am]
BILLING CODE 4910–13–P
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 71
[Docket No. FAA–2022–1472; Airspace
Docket No. 22–AWA–8]
RIN 2120–AA66
Amendment of Class C Airspace;
Manchester, NH
Federal Aviation
Administration (FAA), DOT.
ACTION: Final rule.
AGENCY:
This action amends the
Manchester, NH Class C airspace
description to update the Manchester
Airport name and airport reference
point (ARP) geographic coordinates to
match the FAA’s National Airspace
System Resources (NASR) database
information. This action also updates
the Nashua Airport name. Additionally,
references to the Manchester, NH
(MHT), VHF Omnidirectional Range/
Distance Measuring Equipment (VOR/
DME) and Boire Field Airport and their
geographical coordinates are added to
the Class C description header. This
action does not change the boundaries,
altitudes, or operating requirements of
the Class C airspace area.
DATES: Effective date 0901 UTC,
February 23, 2023. The Director of the
Federal Register approves this
incorporation by reference action under
1 CFR part 51, subject to the annual
revision of FAA Order 7400.11 and
publication of conforming amendments.
ADDRESSES: FAA Order 7400.11G,
Airspace Designations and Reporting
Points, and subsequent amendments can
be viewed online at www.faa.gov/air_
traffic/publications/. For further
information, you can contact the Rules
and Regulations Group, Federal
Aviation Administration, 800
Independence Avenue SW, Washington,
DC 20591; telephone: (202) 267–8783.
SUMMARY:
Applicability
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74505
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]]>Agencies
[Federal Register Volume 87, Number 233 (Tuesday, December 6, 2022)]
[Rules and Regulations]
[Pages 74503-74505]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2022-26435]
=======================================================================
-----------------------------------------------------------------------
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 25
[Docket No. FAA-2021-0891; Special Condition No. 25-825-SC]
Special Conditions: Airbus Model A321neoXLR Airplane; Passenger
Protection From External Fire
AGENCY: Federal Aviation Administration (FAA), DOT.
ACTION: Final special conditions.
-----------------------------------------------------------------------
SUMMARY: These special conditions are issued for the Airbus Model
A321neoXLR airplane. This airplane will have a novel or unusual design
feature when compared to the technology envisaged by the airworthiness
standards for transport category airplanes. This design feature is an
integral rear center tank (RCT). The applicable airworthiness
regulations do not contain adequate or appropriate safety standards for
this design feature. These special conditions contain the additional
safety standards that the Administrator considers necessary to
establish a level of safety equivalent to that established by the
existing airworthiness standards.
DATES: Effective January 5, 2023.
FOR FURTHER INFORMATION CONTACT: Shannon Lennon, Human Machine
Interface, AIR-626, Technical Innovation Policy Branch, Policy and
Innovation Division, Aircraft Certification Service, Federal Aviation
Administration, 2200 South 216th Street, Des Moines, Washington 98198;
telephone and fax 206-231-3209; email [email protected].
SUPPLEMENTARY INFORMATION:
Background
On September 16, 2019, Airbus applied for an amendment to Type
Certificate No. A28NM to include the new Model A321neoXLR airplane. The
Model A321neoXLR airplane, which is a derivative of the Model
A321neoACF airplane currently approved under Type
[[Page 74504]]
Certificate No. A28NM, is a twin-engine transport category aircraft
that seats 244 passengers and has a maximum takeoff weight of 202,000
lbs.
Type Certification Basis
Under the provisions of title 14, Code of Federal Regulations (14
CFR) 21.101, Airbus must show that the Model A321neoXLR airplane meets
the applicable provisions of the regulations listed in Type Certificate
No. A28NM, or the applicable regulations in effect on the date of
application for the change, except for earlier amendments as agreed
upon by the FAA.
If the Administrator finds that the applicable airworthiness
regulations (e.g., 14 CFR part 25) do not contain adequate or
appropriate safety standards for the Airbus Model A321neoXLR airplane
because of a novel or unusual design feature, special conditions are
prescribed under the provisions of Sec. 21.16.
Special conditions are initially applicable to the model for which
they are issued. Should the type certificate for that model be amended
later to include any other model that incorporates the same novel or
unusual design feature, or should any other model already included on
the same type certificate be modified to incorporate the same novel or
unusual design feature, these special conditions would also apply to
the other model under Sec. 21.101.
In addition to the applicable airworthiness regulations and special
conditions, the Airbus Model A321neoXLR airplane must comply with the
fuel vent and exhaust emission requirements of 14 CFR part 34 and the
noise certification requirements of 14 CFR part 36.
The FAA issues special conditions, as defined in 14 CFR 11.19, in
accordance with Sec. 11.38, and they become part of the type
certification basis under Sec. 21.101.
Novel or Unusual Design Feature
The Airbus Model A321neoXLR airplane will incorporate the following
novel or unusual design feature:
An integral RCT.
Discussion
The Airbus Model A321neoXLR incorporates an integral RCT. This tank
is a ``center'' fuel tank, in that it is located in the airplane
fuselage rather than in its wings. The tank is a ``rear'' tank, in that
it is located aft of the wheel bay; it will be in an area of the lower
fuselage that partially replaces the aft cargo compartment of the
airplane from which this model is derived. The top of the tank will be
directly below the floor of the passenger cabin. The fuel tank will be
``integral'' to the airplane, in that its walls will be part of the
airplane structure. The exterior skin of the airplane fuselage will
constitute part of the walls of the fuel tank, and these areas will
lack the thermal/acoustic insulation that usually lines the exterior
skin of an airplane fuselage.
This design was not envisaged by the FAA's regulatory requirements
for insulation installations on transport category airplanes. 14 CFR
25.856(b) requires all thermal/acoustic insulation in the lower half of
the airplane fuselage and their installation to comply with the flame
penetration resistance test of appendix F, part VII. The FAA adopted
Sec. 25.856(b) to raise the level of post-crash fire safety on
transport category airplanes. Part VII of appendix F to part 25
requires a stringent test method for all thermal/acoustic insulation
proposed for installation in the lower half of the fuselage. The FAA's
intent in imposing this requirement was to ensure that this insulation
provides an additional barrier between the occupants and an external
post-crash fire, especially a fire resulting from a pool of spilled
aviation fuel.\1\ This barrier extends the time available for
evacuation.
---------------------------------------------------------------------------
\1\ See pg. 2 of FAA Advisory Circular 25.856-2A, Installation
of Thermal/Acoustic Insulation for Burnthrough Protection.
---------------------------------------------------------------------------
While the rule applies to the thermal/acoustic insulation that an
applicant proposes as part of their design, it does not require
applicants to install such insulation. Since the fuselage skins of the
lower half of transport category airplanes are generally insulated, and
were at the time these standards were developed, the FAA considered
this approach to be sufficient to ensure safety. The rule also noted,
however, that if applicants began to propose designs that omitted this
thermal/acoustic insulation, the FAA would revisit the need for a
specific fuselage burnthrough standard.\2\
---------------------------------------------------------------------------
\2\ Improved Flammability Standards for Thermal/Acoustic
Insulation Materials Used In Transport Category Airplanes, 68 FR
45046, 45049 (Jul. 31, 2003).
---------------------------------------------------------------------------
Thus, since this design will lack thermal/acoustic insulation under
the fuselage skin in the area of the fuel tank, current FAA regulations
do not ensure that it will provide a continuous flame penetration
(burnthrough) resistant barrier between the passengers and an external
fire, nor that it will provide enough protection, against an external
post-crash fire, to allow time for passengers to evacuate.
According to Airbus, its design does not allow for compliant
thermal/acoustic insulation to be placed beneath the cabin floor. This
large volume of unheated liquid (fuel), directly below the floor of the
passenger cabin, would, without mitigation, create a 'cold feet' effect
for the passengers above it. Therefore, Airbus will install insulation
panels between the fuel tank and the cabin floor, for comfort reasons.
These insulation panels would normally be required to meet Sec.
25.856(b). However, Airbus states that it is technically not feasible
to install thermal/acoustic insulation that complies with Sec.
25.856(b), due to the lack of space in this area and the need to keep
nearby decompression panels free of blockages and ensure adequate
ventilation.
Special conditions are needed to address the assumption in the
FAA's current flammability standards that proposed airplane designs
would include thermal/acoustic insulation in the lower fuselage, and to
ensure that this proposed design does not reduce the time available for
passenger evacuation in the case of a post-crash external fire.
Specifically, the FAA will require that the lower half of the airplane
fuselage, spanning the longitudinal area of the tank, be resistant to
fire penetration. ``Resistant to fire penetration'' will, for this
special condition, mean that this area provides fire penetration
resistance equivalent to the resistance which would be provided if the
fuselage were lined with thermal/acoustic insulation that meets the
flame penetration resistance test requirements of part VII of appendix
F of part 25. The applicant's method of compliance may, but is not
required to, be based upon any inherent flame penetration resistance
capability provided by the construction of the fuel tank and/or other
surrounding features.
These special conditions contain the additional safety standards
that the Administrator considers necessary to establish a level of
safety equivalent to that established by the existing airworthiness
standards.
Discussion of Comments
The FAA issued Notice of Proposed Special Conditions No. 25-21-04-
SC for the Model A321neoXLR airplane, which was published in the
Federal Register on April 6, 2022 (87 FR 19811). The FAA received four
comments from the Boeing Company (Boeing).
Comment Summary: Boeing requested that the discussion section of
these special conditions describe the RCT as an ``auxiliary,'' rather
than ``center,'' fuel tank because the airplane also has a ``center''
wing (main) tank, and because, as described by Advisory Circular (AC)
25-8, Auxiliary Fuel
[[Page 74505]]
Systems Installations, the RCT would be connected to the main tank with
a fuel feed line. Boeing also requested that the discussion section
describe the tank as an ``aft'' fuel tank rather than a ``rear'' tank,
because it will be aft of the wheel bay.
FAA Response: No change to the terms used to describe the RCT in
these special conditions is necessary. The existing terms are accurate,
consistent with the applicant's nomenclature, and adequate for their
purpose.
Comment Summary: Boeing requested that the discussion section of
these special conditions acknowledge that AC 25.856-2A \3\ provides
guidance for center wing tank designs. Boeing further requested that
the discussion, according to guidance provided in that AC for the wing
box area, also indicate that insulation panels installed above a fuel
tank are not required to meet Sec. 25.856(b).
---------------------------------------------------------------------------
\3\ See pg. 2 of FAA Advisory Circular 25.856-2A, Installation
of Thermal/Acoustic Insulation for Burnthrough Protection.
---------------------------------------------------------------------------
FAA Response: The discussion for these special conditions
acknowledges that Sec. 25.856(b) does not adequately address designs
like the RCT of the A321neoXLR. This aircraft presents a novel fuselage
design that does not incorporate thermal/acoustic insulation in areas
where the RCT is integral to the fuselage, nor does it include thermal/
acoustic insulation above the RCT that will meet Sec. 25.856(b). This
design presents a fire penetration resistance (burnthrough)
vulnerability that is addressed by these special conditions. The same
vulnerability does not exist with transport airplane wing box
construction due to that structure's significant mass, and large
surface area that dissipates heat. Therefore, adding insulation over
the wingbox, would not contribute to its fire penetration resistance.
14 CFR 25.856(b) excepts the installation of insulation in locations
where it would not contribute to fire penetration resistance. However,
the wing box example in AC 25.856-2A only addresses the FAA's
assessment of the wing box area in consideration of thermal/acoustic
insulation installations that would not contribute to fire penetration
resistance. It does not suggest that all center fuel tanks do not
necessitate the installation of thermal/acoustic insulation that meets
Sec. 25.856(b). For this reason, the FAA declines to change the
discussion section of these special conditions.
Comment Summary: Boeing requested that the special conditions
require the RCT fire penetration resistance capability to either be
equivalent to the capability provided by the wing box area or meet the
requirements of 14 CFR 25.963(e)(2). Boeing's rationale was that the
FAA's proposed standard of fire penetration resistance equivalent to
that of a fuselage lined with thermal/acoustic insulation that meets
the flame penetration resistance test requirements of part VII of
appendix F, does not address hazards associated with fuel tanks and is
not applicable to the wing box area.
FAA Response: These special conditions are intended to ensure that
the existing RCT area fuselage design establishes the same level of
safety as would 14 CFR 25.856(b). When thermal/acoustic insulation is
installed, either along the fuselage skin or under the passenger cabin
floor, it should be fire penetration resistant and delay the onset of
fire into the passenger cabin. These special conditions are not
intended to ensure the RCT is constructed to provide a fire penetration
resistance capability that is similar to that of the wing box area. It
is also unnecessary to require that the RCT meet rules such as 14 CFR
25.963(e)(2), which provides standards for fuel tank access covers.
The special conditions are adopted as proposed.
Applicability
As discussed above, these special conditions are applicable to the
Airbus Model A321neoXLR airplane. Should Airbus apply at a later date
for a change to the type certificate to include another model
incorporating the same novel or unusual design feature, these special
conditions would apply to that model as well.
Conclusion
This action affects only a certain novel or unusual design feature
on one model of airplane. It is not a rule of general applicability.
List of Subjects in 14 CFR Part 25
Aircraft, Aviation safety, Reporting and recordkeeping
requirements.
Authority Citation
The authority citation for these special conditions is as follows:
Authority: 49 U.S.C. 106(f), 106(g), 40113, 44701, 44702, 44704.
The Special Conditions
Accordingly, pursuant to the authority delegated to me by the
Administrator, the following special conditions are issued as part of
the type certification basis for Airbus Model A321neoXLR airplanes.
Passenger Protection From External Fire
The lower half of the fuselage, spanning the longitudinal location
of the rear center fuel tank, must be resistant to fire penetration.
Issued in Kansas City, Missouri, on November 30, 2022.
Patrick R. Mullen,
Manager, Technical Innovation Policy Branch, Policy and Innovation
Division, Aircraft Certification Service.
[FR Doc. 2022-26435 Filed 12-5-22; 8:45 am]
BILLING CODE 4910-13-P
