Special Conditions:

Federal Register: August 17, 2010 (Volume 75, Number 158)

Rules and Regulations

Page 50688-50694

From the Federal Register Online via GPO Access [wais.access.gpo.gov]

DOCID:fr17au10-2

DEPARTMENT OF TRANSPORTATION

Federal Aviation Administration 14 CFR Parts 21 and 29

Docket No. SW014; Special Conditions No. 29-014-SC

Special Conditions: Erickson Air-Crane Incorporated S-64E and S- 64F Rotorcraft

AGENCY: Federal Aviation Administration (FAA), DOT.

ACTION: Final special conditions.

SUMMARY: These special conditions are issued for the Erickson Air-Crane

Incorporated (Erickson Air-Crane) model S-64E and S-64F rotorcraft.

These rotorcraft have novel or unusual design features associated with being transport category rotorcraft designed only for use in heavy external-load operations. At the time of original type certification, a special condition was issued for each model helicopter because the applicable airworthiness regulations did not contain adequate or appropriate safety standards for turbine-engine rotorcraft or for rotorcraft with a maximum gross weight over 20,000 pounds that were designed solely to perform external load-operations. At the request of

Erickson Air-Crane, the current type certificate (TC) holder for these helicopter models, the following will resolve reported difficulty in applying the existing special conditions and eliminate any confusion that has occurred in Erickson's dealings with a foreign authority.

Specifically, we are consolidating the separate special conditions for each model helicopter into one special condition to clarify and more specifically reference certain special condition requirements to the regulatory requirements, to add an inadvertently omitted fire protection requirement, to recognize that occupants may be permitted in the two observer seats and the rear-facing operator seat during other than external-load operations, and to clarify the requirements relating to operations within 5 minutes of a suitable landing area. 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 Date: September 16, 2010.

FOR FURTHER INFORMATION CONTACT: Stephen Barbini, FAA, Rotorcraft

Directorate, Regulations and Policy Group (ASW-111), Fort Worth, Texas 76193-0110, telephone (817) 222-5196, facsimile (817) 222-5961.

SUPPLEMENTARY INFORMATION:

Background

On November 27, 1967, Sikorsky Aircraft Corporation (Sikorsky) filed an application for type certification for its Model S-64E helicopter. This rotorcraft is the civil version of the United States

Army Model CH-54A flying crane. The S-64E has a maximum weight of approximately 30,000 pounds when flying only with internal fuel loadings and personnel, and without external loads. It has a maximum weight of 42,000 pounds, of which a maximum of 20,000 pounds may be external loads. Type certificate H6EA that included special condition

No. 29-6-EA-2 was issued on August 21, 1969. This special condition includes conditions for type certification for carrying Class B external loads.

On April 2, 1969, Sikorsky filed for an amendment to its type certificate to add the Model S-64F. This aircraft is the civil version of the United States Army Model CH-54B flying crane. The S-64F has a maximum weight of approximately 30,000 pounds when flying only with internal fuel loadings and personnel, and without external loads. It has a maximum weight of 47,000 pounds, of which a maximum of 25,000 pounds may be external loads. Type certificate H6EA was amended on

November 25, 1970, to add the F model, including special condition No. 29-16-EA-5 and Amendment No. 1 to that special condition. This Model S- 64F special condition includes requirements for type certification for carrying Class A and B external loads.

The 14 CFR part 29 regulations applicable at the time of certification required the models S-64E and S-64F to comply with

Category A regulations.

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However, strict adherence to those regulations was deemed inappropriate for these model aircraft and their intended operations. The special conditions created for the Model S-64E and Model S-64F combined the appropriate standards from both Category A and B, plus added safety and other requirements necessary to establish compliance with the airworthiness requirements of subpart D of 14 CFR part 133 for Class A and B rotorcraft load combinations. Additionally, the special conditions allowed operations under 14 CFR part 91. The combination of regulations and special conditions was established at a level of safety equivalent to 14 CFR part 29 requirements at the time of certification.

Both aircraft were specifically type certificated as ``industrial flying cranes,'' which are used only to carry cargo and all cargo is carried as an external load. The cockpit contains only five seats, allowing for two pilots, an aft-facing hoist operator and two observers. The rotorcraft does not have a passenger compartment and is not designed to transport passengers. 14 CFR part 91 operations are allowed. The aircraft are powered by two Pratt and Whitney turbo shaft engines (Series JFTD12A); the S-64E uses the model 4A which generates 4,500 horsepower and the S-64F uses the model 5A which generates 4,800 horsepower. The engines drive a six-blade single main rotor approximately 72 feet in diameter and a four-blade tail rotor approximately 16 feet in diameter.

Since the time of original certification, 14 CFR part 29 has been modified to recognize that most transport category rotorcraft are being used in utility work, rather than in air carrier operations. The regulatory changes now enable a rotorcraft of more than 20,000 pounds and nine or less passenger seats to be certificated as Category B provided certain Category A subparts are met.

Since the S-64's certification, the regulations have been amended to better accommodate rotorcraft designed to operate under the external load provisions of 14 CFR part 133; however, no transport category rotorcraft (over 20,000 pounds) has been designed with the unique and novel features of the ``skycrane.'' In 1992, the type certificate for the Model S-64E and Model S-64F was transferred from Sikorsky to

Erickson Air-Crane Incorporated. In 2004, the Model S-64F received a type certificate from the European Aviation Safety Agency (EASA). In 2005, the Model S-64E was certificated to carry Class A external loads under 14 CFR part 133.

Type Certification Basis

The original type certification basis is as follows:

For the Model S-64E: 14 CFR part 29, 1 February 1965, including

Amendments 29-1 and 29-2 except 14 CFR 29.855(d), and Special Condition

No. 29-6-EA-2.

For the Model S-64F: 14 CFR part 29, dated 1 February 1965 including Amendments 29-1 and 29-2 except 14 CFR 29.855(d), and Special

Condition No. 29-16-EA-5 including Amendment No. 1.

We have found that the applicable airworthiness regulations for 14

CFR part 29 do not contain adequate or appropriate safety standards for the Erickson S-64E and S-64F rotorcraft because of novel or unusual design features. Therefore, special conditions were prescribed under the provisions of Sec. 21.16. Special conditions, as appropriate, are defined in Sec. 11.19 and issued per Sec. 11.38, and become part of the type certification basis under Sec. 21.17(a)(2).

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, the special conditions would also apply to the other model per Sec. 21.101(a)(1).

Novel or Unusual Design Features

The Erickson Air-Crane S-64 rotorcraft incorporates the following novel or unusual design features:

The aircraft was designed specifically as an industrial flying crane--

(a) With an airframe--

(1) Designed solely for external load capabilities with no passenger cabin and accommodations in the cockpit only for--

(i) One pilot,

(ii) One copilot,

(iii) One aft-stick operator, and

(iv) Two observers.

(2) Designed with two small baggage compartments in the nose.

(3) Designed with multiple ``hard points,'' each with load ratings specifically for the carriage of external loads.

(b) With a rear-facing aft-stick operator seat, which allows for--

(1) Precision placement of external loads, and

(2) Limited flight operations capabilities.

(c) With neither engine equipped with a cowling.

(d) That weighs over 20,000 pounds, but is designed solely to carry cargo in external load operations.

Discussion

The type certification basis for the Model S-64E helicopter contained Special Condition No. 29-6-EA-2, dated January 13, 1969. The type certification basis for the model S-64F helicopter contained

Special Condition No. 29-16-EA-5, issued December 3, 1969 and Amendment 1 to that Special Condition issued November 13, 1970. The special condition for the model S-64E included requirements for type certification without external loads (including flight conditions, propulsion conditions, systems condition, and operating limitations conditions) and requirements for type certification with external loads

(including general conditions, flight conditions, propulsion conditions, systems condition, and operating conditions). The special condition, including Amendment 1 for the model S-64F, included essentially the same requirements as those for the model S-64E, but included additional requirements for Class A load combinations.

We have reviewed Special Conditions No. 29-6-EA-2 and No. 29-16-EA- 5, including Amendment No. 1. We have determined that the original special conditions applied to the model S-64 ensure a level of safety equivalent to 14 CFR part 29 requirements at the time of certification for both the E and F model rotorcraft.

At the request of Erickson Air Crane, we are:

(a) Consolidating the special conditions for both model helicopters into one document.

(b) Indicating whether a special condition requirement is ``in lieu of'' or ``in addition to'' a standard certification requirement and making specific reference to the certification requirement. The original Special Conditions did not delineate the novel or unusual design features of the Air-Crane, which resulted in an unclear application of the ``in addition to'' and ``in lieu of'' requirements as they pertained to the rules existing at the time of certification.

(c) Referencing 14 CFR part 133 instead of the various rotorcraft load combination classes for the special condition requirements concerning placards.

(d) Modifying the occupancy special condition to allow passengers to be

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transported, as otherwise permitted by the regulations. Operations are currently limited to occupants that are flight crewmembers, flight crewmember trainees, or other persons performing essential functions connected with external load operations or necessary for an activity directly associated with external load operations.

(e) Removing the special condition operating limitation that required the helicopters be operated so that a suitable landing area could be reached in no more than 5 minutes, and now requiring that only when flying over a congested area must the helicopter be operated so that a suitable landing area can be reached in no more than 5 minutes.

(f) Adding a requirement to comply with Sec. 29.855(d), at

Amendment level 29-3, effective February 25, 1968, which was excluded from the original special condition as indicated on the type certificate data sheet, requiring the baggage compartment in the airframe nose be sealed to contain cargo or baggage compartment fires.

Neither consolidating the requirements, specifying the ``in lieu of'' or ``in addition to'' references, nor referencing 14 CFR part 133 are intended to make any substantive changes from the requirements contained in Special Condition No. 29-6-EA-2 nor Special Condition 29- 16-EA-5, as amended. However, we are modifying the ``occupant'' standard.

The original special conditions only permitted flight crewmembers, flight crewmember trainees, or persons performing an essential or necessary function in connection with the external load operation to be carried on board the helicopter. This occupancy standard was taken directly from 14 CFR 133.35, dealing with the carriage of persons during rotorcraft external-load operations. At the time of original certification, there was no intent to allow the carriage of persons other than crewmember trainees and those required in connection with the external-load operation. Flights conducted under 14 CFR part 91 regulations were only expected to occur when the helicopter was being re-positioned with two pilot crewmembers. In addition, limitations were placed on the S-64E and S-64F helicopter designs because they were not the typical transport category helicopter because they did not meet all appropriate 14 CFR part 29 transport category helicopter requirements.

In particular, the designs do not include a power-plant fire extinguishing system and the related cowlings that assist in engine fire suppression.

Since original certification, operators have stated that they would like the option to use the additional three seats, which includes the one rear-facing seat occupied by a crewmember during external-load operations, to carry support crews between operational bases and the worksites. The intended effect of removing the essential crewmember and crewmember trainee limitation recognizes that these model helicopters are not operated exclusively under 14 CFR part 133. Under this special condition, we recognize that the two observer seats and the rear-facing aft-stick operator's seat may be occupied by persons other than persons performing an essential or necessary function in connection with the external load operation during 14 CFR part 91 operations. The intent of this provision is to allow the two observer seats and the rear-facing operator's seat, when the rear-facing aft-stick operator's controls are disengaged and the collective guard is installed to prevent unintentional movement, to be occupied during other than external-load operations. As described in the FAA approved flight manual, the aft- stick operator's controls are only to be engaged when a qualified crewmember is at the main and aft-stick operator's controls.

From an engine-fire safety standpoint, single-engine helicopters certificated to Category B requirements of 14 CFR part 29 are permitted to carry up to nine passengers. However, if an engine fails due to a fire, although the fire may be extinguished, the helicopter will still be forced to execute an auto-rotation. Depending on where the helicopter is operating, a safe autorotative landing may not be possible. In addition, helicopters certificated to 14 CFR part 27 requirements are not required to have a power-plant fire protection system, but are certificated to carry up to nine passengers. If a twin- engine model S-64E or S-64F helicopter has an engine failure due to an engine fire, these helicopters can still fly on a single engine and the certification standards require that they must be safely controlled so that the essential structure, controls, and parts can perform their essential functions for at least five minutes in order to reach a possible suitable landing area.

Although we are removing the ``occupant'' limitation, when conducting other than external-load operations, which most commonly we anticipate may be 14 CFR part 91 operations, operators will still be required to comply with the other FAA operating requirements applicable to their particular operation.\1\

\1\ Some operational regulations that may apply during 14 CFR part 91 operations include, 14 CFR 61.113(a) which, with some exceptions, prohibits a private pilot from acting as pilot in command of an aircraft carrying passengers for compensation or hire, and from acting as pilot in command for compensation or hire. An exception to 14 CFR 61.113(a), 14 CFR 61.113(b) allows a private pilot to act as pilot in command of an aircraft for compensation or hire in connection with any business or employment if the flight is only incidental to that business or employment and the aircraft does not carry passengers or property for compensation or hire. Another regulation, 14 CFR 119.33 prohibits a person from providing or offering to provide air transportation when that person has control over the operational functions performed in providing that transportation unless that person has an air carrier certificate and operations specifications. Under our regulations, ``compensation'' has been interpreted very broadly and ``need not be direct nor in the form of money. Goodwill is a form of prohibited compensation.''

Administrator v. Murray, EA-5061, October 29, 2003 citing

Administrator v. Blackburn, 4 NTSB 409 (1982).

Intangible benefits, such as the expectation of future economic benefit or business, are sufficient to ``render a flight one for

``compensation or hire''.'' See, e.g., Administrator v. Platt, NTSB

Order No. EA-4012 (1993) at 6; Administrator v. Blackburn, 4 NTSB 409 (1982), aff'd., Blackburn v. NTSB, NTSB, 709 F.2d 1514 (9th Cir. 1983); Administrator v. Pingel, NTSB Order No. EA-3265, at n.4

(1991); Administrator v. Mims, NTSB Order No. EA-3284 (1991).

Another current special condition operating limitation requires that the helicopters be operated at an altitude and over routes which provide suitable landing areas that can be reached in no more than 5 minutes. We are qualifying this limitation and only require this limitation when the helicopters are operated over a congested area. The 5-minute portion of the limitation complements the fire protection requirements in Sec. 29.861, which for Category B rotorcraft requires that certain structure, controls, and other essential parts be able to perform their essential functions for at least 5 minutes under foreseeable powerplant fire conditions. Relaxing the limitation by allowing flights over other than congested areas that may not be within the 5-minute distance still exceeds the safety standard in the current

Sec. 133.33(d) provision, which allows the holder of a Rotorcraft

External-Load Operator Certificate to conduct rotorcraft external-load operations under certain circumstances over congested areas notwithstanding the requirements of 14 CFR part 91. Therefore, this is consistent with that standard.

We are also changing the current type certification basis of both model helicopters that excludes the requirement to comply with Sec. 29.855(d). At the time of the application for type certification of the model S-64E

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helicopter on November 27, 1967, and before the changes to 14 CFR part 29 by Amendment level 29-3, effective February 25, 1968, Sec. 29.855(d) required that cargo and baggage compartments be designed or have a device to ensure detection of fires by a crewmember at his station to prevent entry of harmful substances into the crew or passenger compartment. In Notice 65-42 in Proposal 22 published on

December 28, 1965 (30 FR 16129, 16139), we proposed to change Sec. 29.855(d) because experience had shown that the design requirements for cargo and baggage compartments were not specific enough for compartments that are not sealed against fire and for cargo-only compartments. Because of the novel design of this helicopter, it did not have a typical transport category rotorcraft cargo or baggage compartment, only two small baggage compartments in the nose of the rotorcraft that are inaccessible during flight. Since the model S-64E helicopter was not the type of transport category rotorcraft envisioned when the transport category requirements of 14 CFR part 29 were adopted to address rotorcraft use in air carrier service and the necessary higher degree of safety to protect common carriage passengers and the fact that the model S-64E did have a sealed cargo compartment meeting the new proposed standard in Notice 65-42, the type certification basis for the model S-64E helicopter excluded the requirements of Sec. 29.855(d). The model S-64E would later be shown to be in compliance with Sec. 29.855(d) at Amendment 29-3 because that amendment would not require a fire detection device for cargo and baggage compartments provided they are sealed to contain fires. The type certification basis for the model S-64F is the same as that for the model S-64E. Therefore, we are adding back to the type certification basis for both model helicopters the requirement to comply with Sec. 29.855(d), at

Amendment level 29-3, effective February 25, 1968.

Discussion of Comments

Notice of proposed special conditions No. 29-014-SC for the

Erickson Air-Crane Incorporated S-64E and S-64F rotorcraft was published in the Federal Register on December 29, 2009 (74 FR 68731).

No comments were received, and the special conditions are adopted as proposed.

Applicability

This special condition is applicable to the Erickson Air-Crane

Model S-64E and Model S-64F rotorcraft. Should Erickson Air-Crane apply later for a change to the type certificate to include another model incorporating the same novel or unusual design features, this special condition would apply to that model according to the provisions of

Sec. 21.101(a)(1).

Conclusion

This action affects only certain novel or unusual design features on the model S-64E and S-64F helicopters. It is not a rule of general applicability and it affects only the applicant who applied to the FAA for approval of these features on the helicopter.

List of Subjects in 14 CFR Parts 21 and 29

Aircraft, Aviation safety, Reporting and recordkeeping requirements.

The authority citation for these special conditions is as follows:

Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

The Special Conditions

Accordingly, pursuant to the authority delegated to me by the

Administrator, the Special Condition No. 29-6-EA-2, Docket No. 9351, issued January 13, 1969 for the Model S-64E and Special Condition No. 29-16-EA-5, Docket No. 10002, issued December 3, 1969 and Amendment 1 to Special Condition No. 29-16-EA-5, issued November 13, 1970 for the

Model S-64F, are removed and the following special condition is added as part of the type certification basis for Erickson Air-Crane models

S-64E and S-64F helicopters. Unless otherwise noted, all regulatory references made within this special condition pertain to those 14 CFR part 29 regulations in effect at Amendment level 29-2, effective June 4, 1967 (32 FR 6908, May 5, 1967).

(a) Takeoff and Landing Distance. Because of the S-64's novel design as an industrial flying crane, the following apply:

(1) For operations without external load, the takeoff and landing distance must be determined by flight tests over the ranges of weight, altitude, and temperature for which takeoff and landing data are scheduled. The flight tests must encompass the critical areas of a takeoff and landing flight path from a 50-foot hover. If the takeoff and landing distance throughout the operational range to be approved are zero, the minimum takeoff and landing area length must be one and one-half times the maximum helicopter overall length (main rotor forward tip path to tail rotor aft tip path) and the area width must be one and one-half times main rotor tip path diameter. Additionally, this information must be furnished in the performance information section of the Rotorcraft Flight Manual.

(2) For Class A rotorcraft load combination operations:

(i) Compliance must be shown with the provisions of Sec. 29.51

(Takeoff data: General), except that in paragraph (a) of Sec. 29.51, the references to Sec. Sec. 29.53(b) (Critical decision point) and 29.59 (Takeoff path: Category A) are not applicable.

(ii) In lieu of the requirements of Sec. Sec. 29.53 and 29.59, the following apply:

(A) Compliance must be shown with the provisions of Sec. 29.63

(Takeoff: Category B),

(B) The horizontal takeoff distance to a point 50 feet above the plane of the takeoff surface must be established with both engines operating within their approved limits, and

(C) The takeoff climbout speed must be established.

(iii) Compliance must be shown with the provisions of Sec. 29.79

(Limiting height-speed envelope).

(3) For Class B rotorcraft load combination operations:

(i) Compliance must be shown with Sec. 29.51 (Takeoff data:

General), except that in paragraph (a), the references to Sec. Sec. 29.53(b) (Critical decision point), 29.59 (Takeoff path: Category A) and 29.67(a)(1) and (2) (Climb: One engine inoperative) are not applicable.

(ii) In lieu of the requirements of Sec. Sec. 29.53 and 29.59, compliance must be shown with the provisions of Sec. 29.63 (Takeoff:

Category B).

(b) Climb. Because of the S-64's novel design as an industrial flying crane, the following apply:

(1) For Class A rotorcraft load combination operations, in lieu of the requirements of Sec. Sec. 29.67 (Climb: One engine inoperative) and 29.71 (Helicopter angle of glide: Category B), compliance must be shown with Sec. Sec. 29.65(a) (Category B climb: All engines operating) and 29.67(a)(1) and (2) (Climb: One engine inoperative).

(2) For Class B rotorcraft load combination operations, in lieu of the requirements of Sec. Sec. 29.67 (Climb: One engine inoperative) and 29.71 (Helicopter angle of glide: Category B), compliance must be shown with Sec. 29.65 (Category B climb: All engines operating).

(c) Landing. Because of the S-64's novel design as an industrial flying crane, for Class A rotorcraft load combination operations, in lieu of the requirements of Sec. Sec. 29.77 (Balk landing: Category A) and 29.75 (Landing), compliance must be shown for 29.75(b)(5), and the following apply:

(1) The horizontal distance required to land and come to a complete stop,

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from a point 50 feet above the landing surface must be determined with a level, smooth, dry, hard surface.

(2) The approach and landing may not require exceptional piloting skill or exceptionally favorable conditions.

(3) The landing must be made without excessive vertical acceleration or tendency to bounce, nose over, or ground loop.

(4) The landing data must be determined at each weight, altitude, and temperature for which certification is sought with one engine inoperative and the remaining engine operating within approved operating limitations.

(5) The approach and landing speeds must be selected by the applicant and must be appropriate to the type rotorcraft.

(6) The approach and landing path must be established to avoid the critical areas of a limiting height-speed envelope established under

Sec. 29.79.

(d) Performance at Minimum Operating Speed. Because of the S-64's novel design as an industrial flying crane, in lieu of the requirements of Sec. 29.73 (Performance at minimum operating speed) the following apply:

(1) For operations without external load, the hovering performance must be determined at 50 feet or more above the takeoff surface over the ranges of weight, altitude, and temperature for which takeoff data are scheduled. This must be shown with the most critical engine inoperative, the remaining engine at not more than the maximum certificated single engine rated power, and the landing gear extended.

(2) For Class A rotorcraft load combination operations, the hovering performance must be determined over the ranges of weight, altitude, and temperature for which certification is requested, and takeoff data must be scheduled--

(i) Up to takeoff power on each engine;

(ii) With landing gear extended; and

(iii) The helicopter at a height consistent with normal takeoff procedures.

(3) For Class B rotorcraft load combination operations, the hovering performance must be determined over the ranges of weight, altitude, and the temperature for which certification is requested, and takeoff data must be scheduled--

(i) Up to takeoff power on each engine;

(ii) With landing gear extended; and

(iii) The rotorcraft out of ground effect.

(e) Airspeed Indicating System. Because of the S-64's novel design as an industrial flying crane, for operations with and without external load, compliance must be shown with Sec. 29.1323 (Airspeed indicating system) effective February 25, 1968 (Amendment 29-3), modified as follows:

(1) In addition to the flight conditions prescribed in subparagraph

(b)(1), the system must be calibrated at operational rates of climb.

(2) In lieu of the speed range prescribed in subparagraph (c)(1), the airspeed error may not exceed the requirements throughout the speed range in level flight at forward airspeeds of 35 knots or more.

(f) Power Boost and Power-Operated Control System. Because of the

S-64's novel design as an industrial flying crane, for operations without external load, in lieu of the requirements of Sec. 29.695(a)(1) (Power boost and power-operated control system) as it applies to any single failure of the main rotor tandem servo housing, the following apply:

(1) It must be shown by endurance tests of the tandem servo that failure of the servo housing is extremely improbable.

(2) A tandem servo life limit must be established.

(3) A periodic inspection program for the tandem servo must be established.

(4) The hydraulic system must be provided with means to ensure that system pressure, including transient pressure and pressure from fluid volumetric changes in components which are likely to remain closed long enough for such changes to occur--

(i) Are within 90 to 110 percent of pump average discharge pressure at each pump outlet or at the outlet of the pump transient pressure dampening device, if provided; and

(ii) May not exceed 135 percent of the design operating pressure, excluding pressures at the outlets specified in subparagraph (i) above.

Design operating pressure is the maximum steady operating pressure.

(g) Propulsion Conditions. Because of the S-64's novel design as an industrial flying crane, its powerplant was designed without a cowling, and does not include a fire extinguishing system. Therefore, in lieu of the requirements of Sec. Sec. 29.861(a) (Fire protection of structure, controls, and other parts), 29.1187(e) (Drainage and ventilation of fire zones), 29.1195 (Fire extinguishing systems), 29.1197 (Fire extinguishing agents), 29.1199 (Extinguishing agent containers), and 29.1201 (Fire extinguishing system materials), the following apply:

(1) Fire protection of structure, control and other parts.

Compliance must be shown with Sec. 29.861(b) (Fire protection of structure, controls, and other parts) so each part of the structure, controls, rotor mechanism, and other parts essential to controlled landing and flight must be protected so they can perform their essential functions for at least 5 minutes under any foreseeable powerplant fire condition.

(2) Powerplant fire protection. In addition to compliance with

Sec. 29.1183 (Lines and fittings), except for lines and fittings approved as part of the engine type certificate under 14 CFR part 33, design precautions must be taken in the powerplant compartment to safeguard against the ignition of fluids or vapors which could be caused by leakage or failure in flammable fluid systems.

(3) Exhaust system drains. In addition to compliance with Sec. 29.1121 (Exhaust system: General), compliance must be shown with Sec. 29.1121(h) (Exhaust system: General) effective February 25, 1968

(Amendment 29-3) in that if there are significant low spots or pockets in the engine exhaust system, the system must have drains that discharge clear of the rotorcraft, in normal ground and flight attitudes, to prevent the accumulation of fuel after the failure of an attempted engine start.

(4) Rotor drive system testing. If the engine power output to the transmission can exceed the highest engine or transmission power rating and the output is not directly controlled by the pilot under normal operating conditions (such as the control of the primary engine power control by the flight control), in addition to the endurance tests prescribed in Sec. 29.923 (Rotor drive system and control mechanism tests), the following test must be made:

(i) With all engines operating, apply torque at least equal to the maximum torque used in meeting Sec. 29.923 plus 10 percent for at least 220 seconds.

(ii) With each engine, in turn, inoperative, apply to the remaining transmission power inputs the maximum torque attainable under probable operating conditions, assuming that torque limiting devices are functioning properly. Each transmission input must be tested at this maximum torque for at least 5 minutes.

(5) Powerplant installation. In addition to the requirements of

Sec. 29.901 (Installation), compliance must be shown with Sec. 29.901(b)(5) (Installation) effective February 25, 1968 (Amendment 29- 3) in that the axial and radial expansion of the engines may not affect the safety of the powerplant installation.

(6) Powerplant operation characteristics. In addition to the requirements of Sec. 29.939 (Turbine

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engine operating characteristics), the powerplant operating characteristics must be investigated in flight to determine that no adverse characteristics, such as stall, surge, or flameout are present to a hazardous degree during normal and emergency operation of the helicopter within the range of operating limitations of the helicopter and of the engine.

(7) Powerplant control system. In addition to the requirements of

Sec. 29.1141 (Powerplant controls: General), the powerplant control system must be investigated to ensure that no single, likely failure or malfunction in the helicopter installed components of the system can cause a hazardous condition that cannot be safely controlled in flight.

(8) Fuel pump installation. In addition to the requirements of

Sec. 29.991 (Fuel pumps), there must be provisions to maintain the fuel pressure at the inlet of the engine fuel system within the limits established for engine operation throughout the operating envelope of the helicopter.

(9) Fuel strainer. In addition to the requirements of Sec. 29.997

(Fuel strainer or filter), compliance must be shown with Sec. 29.997(e) (Fuel strainer or filter) effective February 25, 1968

(Amendment 29-3) in that unless there are means in the fuel system to prevent the accumulation of ice on the filter, there must be means to automatically maintain the fuel flow if ice-clogging of the filter occurs.

(10) Cooling test. In lieu of the requirements of Sec. 29.1041(a)

(Powerplant cooling: General), which includes requirements for reciprocating engines, compliance must be shown with Sec. 29.1041(a)

(Powerplant cooling: General) effective February 25, 1968 (Amendment 29-3) in that the powerplant cooling provisions must maintain the temperatures of powerplant components and engine fluids within safe values under critical surface and flight operating conditions and after normal engine shutdown.

(11) Induction system icing protection. The S-64 has two turbine engines; therefore, in lieu of Sec. 29.1093 (Induction system icing protection), which includes requirements for reciprocating engines, compliance must be shown with Sec. 29.1093(b) (Induction system icing protection) effective February 25, 1968 (Amendment 29-3) in that each engine must operate throughout its flight power range, without adverse effect on engine operation or serious loss of power or thrust under the icing conditions specified in appendix C of 14 CFR part 25.

(12) Induction system duct. The S-64 has two turbine engines; therefore, in lieu of Sec. 29.1091(d) and (e) (Air induction), which includes requirements for reciprocating engines, compliance must be shown with Sec. 29.1091(f) (Air induction) effective February 25, 1968

(Amendment 29-3) in that:

(i) There must be means to prevent hazardous quantities of fuel leakage or overflow from drains, vents, or other components of flammable fluid systems from entering the engine intake system.

(ii) The air inlet ducts must be located or protected to minimize the ingestion of foreign matter during takeoff, landing, and taxiing.

(h) Powerplant Instruments. At the time of original certification, the S-64 had a novel design of being powered by two turbine engines; therefore, in lieu of Sec. 29.1305 (Powerplant instruments), which includes requirements for reciprocating engines, compliance must be shown with Sec. 29.1305 (Powerplant instruments) effective February 25, 1968 (Amendment 29-3) in that the following are required powerplant instruments:

(1) A fuel quantity indicator for each fuel tank.

(2) If an engine can be supplied with fuel from more than one tank, a warning device to indicate, for each tank, when a 5-minute usable fuel supply remains when the rotorcraft is in the most adverse fuel feed condition for that tank, regardless of whether that condition can be sustained for the 5 minutes.

(3) An oil pressure warning device for each pressure lubricated gearbox to indicate when the oil pressure falls below a safe value.

(4) An oil quantity indicator for each oil tank and each rotor drive gearbox, if lubricant is self-contained.

(5) An oil temperature indicator for each engine.

(6) An oil temperature warning device for each main rotor drive gearbox to indicate unsafe oil temperatures.

(7) A gas temperature indicator for each turbine engine.

(8) A gas producer rotor tachometer for each turbine engine.

(9) A tachometer for each engine that, if combined with the instrument required by subparagraph (10) of this paragraph, indicates rotor rpm during autorotation.

(10) A tachometer to indicate the main rotor rpm.

(11) A free power turbine tachometer for each engine.

(12) A means for each engine to indicate power for that engine.

(13) An individual oil pressure indicator for each engine, and either an independent warning device for each engine or a master warning device for the engines with means for isolating the individual warning circuit from the master warning device.

(14) An individual fuel pressure indicator or equivalent device for each engine, and either an independent warning device for each engine or a master warning device for the engines with means for isolating the individual warning circuit from the master warning device.

(15) Fire warning indicators.

(i) Cargo and baggage compartments. Since the S-64 includes an unusual design in that the baggage compartments are located in the nose of the airframe and are inaccessible during flight, in lieu of Sec. 29.855(d), compliance must be shown with Sec. 29.855(d) effective

February 25, 1968 (Amendment 29-3) so that each cargo and baggage compartment is sealed to contain cargo or baggage compartment fires completely without endangering the safety of the rotorcraft or its occupants.

(j) Auxiliary Control Station. The S-64 includes a novel design for an optional aft-facing pilot position (auxiliary control station) which is used during precision placement rotorcraft load combination operations. There are no specific requirements in the airworthiness standards for this type of pilot position. Therefore, if the auxiliary control station is equipped with flight controls--

(1) The rotorcraft must be safely controllable by the auxiliary controls, throughout the range of the auxiliary controls.

(2) The auxiliary controls may not interfere with the safe operation of the rotorcraft by the pilot or copilot when the station is not occupied.

(3) The auxiliary control station and its associated equipment must allow the operator to perform his or her duties without unreasonable concentration or fatigue.

(4) The vibration and noise characteristics of the auxiliary control station appurtenances must not interfere with the operator's assigned duties to an extent that would make the operation unsafe.

(5) The auxiliary control station must be arranged to give the operator sufficiently extensive, clear, and undistorted view for safe operation. The station must be free of glare and reflection that could interfere with the operator's view.

(6) There must be provisions to prevent unintentional movement of the controls when the rear-facing aft-stick operator's seat is occupied by other than essential crewmembers during other than external-load operations.

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(k) Quick-Release Devices. The S-64 is specifically designed for rotorcraft load combination operations with particular weight-specified hard points designed into the airframe. Because of this unusual design, when quick release devices are required under 14 CFR part 133, it must enable the pilot to release the external-load quickly during flight.

The quick-release system must comply with the following:

(1) An activating control for the quick-release system must be installed on one of the pilot's primary controls and must be designed and located so it may be operated by the pilot without hazardously limiting his or her ability to control the rotorcraft during an emergency situation.

(2) An alternative independent activating control for the quick- release system must be provided and must be readily accessible to the pilot or a crewmember.

(3) The design of the quick-release system must ensure that failure, which could prevent the release of external loads, is extremely improbable.

(4) The quick-release system must be capable of functioning properly after failure of all engines.

(5) The quick-release system must function properly with external loads up to and including the maximum weight for which certification is requested.

(6) The quick-release system must include a means to check for proper operation of the system at established intervals.

(l) Maximum Weight with External Load. When establishing compliance with Sec. 29.25, the maximum weight of the rotorcraft-load combination for operations with external loads must be established by the applicant and may not exceed the weight at which compliance with all applicable requirements has been shown.

(m) External Load Jettisoning. The external load must be jettisonable to the maximum weight for which the helicopter has been type certificated for operation without external loads or with Class A loads.

(n) Minimum Flight Crew. To meet the requirements of Sec. 29.1523, the minimum flight crew consists of a pilot and a copilot. For pickup of the external-load and on-site maneuvering and release of the external-load, the copilot may act as the aft-facing hoist operator.

(o) Occupancy. When engaged in operations other than external-load operations under 14 CFR part 133, the carriage of passengers in the two observer seats and the rear-facing aft-stick operator's seat, when the aft-stick operator's controls are disengaged and the collective guard is installed, will be controlled by the FAA operating requirements applicable to that particular operation.

(p) Operations. The S-64 meets the Category B fire protection requirements for structures and controls in lieu of Category A requirements. Therefore, when operating over congested areas, the rotorcraft must be operated at an altitude and over routes that provide suitable landing areas that can be reached in no more than 5 minutes.

(q) Markings and Placards. For purposes of rotorcraft load combination operations, the following markings and placards must be displayed conspicuously and must be applied so they cannot be easily erased, disfigured, or obscured.

(1) A placard, plainly visible to appropriate crewmembers, referring to the helicopter flight manual limitations and restrictions for rotorcraft load combinations allowed under 14 CFR part 133.

(2) A placard, marking, or instructions (displayed next to the external-load attaching means) stating the maximum external-load prescribed as an operating limitation for rotorcraft load combinations allowed under 14 CFR part 133.

(3) A placard in the cockpit prescribing the occupancy limitation during rotorcraft load combination operations under 14 CFR part 133.

Issued in Fort Worth, Texas, on August 4, 2010.

Scott A. Horn,

Acting Manager, Rotorcraft Directorate, Aircraft Certification Service.

FR Doc. 2010-19921 Filed 8-16-10; 8:45 am

BILLING CODE 4910-13-P