(a) General. (1) Computational procedures as contained in the following subparagraphs of this paragraph of this section shall be applied as indicated. The procedure for computing Shuttle load factor, charge factor, and flight price for Spacelab payloads replaces the procedure contained in the Shuttle policy.
(1) Computational procedures as contained in the following subparagraphs of this paragraph of this section shall be applied as indicated. The procedure for computing Shuttle load factor, charge factor, and flight price for Spacelab payloads replaces the procedure contained in the Shuttle policy.
(2) Shuttle charge factors as derived herein apply to the standard mission destination of 160 nmi altitude, 28.5[deg] inclination. Customers shall reimburse NASA an optional services fee for flights to nonstandard destinations.
(3) The customer's total Shuttle charge factor shall be the sum of the Shuttle charge factors for the customer's individual (dedicated, complete, or shared) elements, with the limitation that the customer's Shuttle charge factor shall not exceed 1.0.
(4) Customers contracting for pallet-only payloads are entitled to locate minimal controls as agreed to by NASA in a pressurized area to be designated by NASA. There is no additional charge for this service.
(5) NASA shall, at its discretion, adjust up or down the load factors and load fractions calculated according to the procedures defined in this section. Adjustments shall be made for special space or weight requirements which include, but are not limited to:
(i) Sight clearances, orientation, or placement limits.
(ii) Clearances for movable payloads.
(iii) Unusual access clearance requirements.
(iv) Clearances extending beyond the bounds of the normal element envelope.
(v) Extraordinary shapes. The adjusted values shall be used as the basis for computing charge factors and prorating services.
(b) Definitions used in computations--(1) LC=Chargeable payload length, m. The total length in the cargo bay occupied by the customer's experiment and the Spacelab element(s) used to carry it.
(1) LC=Chargeable payload length, m. The total length in the cargo bay occupied by the customer's experiment and the Spacelab element(s) used to carry it.
(2) WC=The weight of the customer's payload and the customer's pro rata share of the weight of NASA mission-peculiar equipment carried to meet the customer's needs, kg.
(c) Dedicated-shuttle spacelab flight (1-day mission). The total reimbursement is as defined in Sec. 1214.804(e)(3).
(d) Dedicated-pallet flight (1-day mission). (1) The Shuttle load factors and charge factors for dedicated-pallet flights are shown in table 1. Subject to other STS Spacelab structural limits, customers are entitled to utilize the payload weight capability of the pallets as indicated in table 1. Payload weights in excess of those shown are subject to NASA approval and may entail optional services charges.
Table 1--Shuttle Load Factors, Charge Factors, and Nominal Capacities for Dedicated Pallets----------------------------------------------------------------------------------------------------------------
Load factor Charge factor Nominal payload
---------------------------------------------------- capacity, kg
Number of pallets -------------------------
With Igloo FMDM con- With Igloo FMDM con- FMDM con-
figuration figuration With Igloo figuration----------------------------------------------------------------------------------------------------------------1................................. 0.228 0.189 0.305 0.252 2,325 2,9502................................. 0.392 NA 0.523 NA 4,470 NA3-pallet train \1\................ 0.556 NA 0.742 NA 4,435 NA2+1 configuration................. 0.594 NA 0.792 NA 7,750 NA----------------------------------------------------------------------------------------------------------------\1\ Three pallets requiring the ``1+1+1'' configuration shall be flown on a dedicated flight basis [See Sec.
1214.804(a)].
(2) Total reimbursement. The customer's total reimbursement is as defined in Sec. 1214.804(f)(3).
(e) Dedicated FMDM/MPESS flight (1-day mission)--(1) Shuttle charge factor. The computed charge factor for dedicated FMDM/MPESS flights is defined as:[GRAPHIC] [TIFF OMITTED] TC14NO91.005
(1) Shuttle charge factor. The computed charge factor for dedicated FMDM/MPESS flights is defined as:[GRAPHIC] [TIFF OMITTED] TC14NO91.005
(2) Shuttle load factor. (i) The Shuttle load factor is defined as the maximum of:[GRAPHIC] [TIFF OMITTED] TC14NO91.006
(i) The Shuttle load factor is defined as the maximum of:[GRAPHIC] [TIFF OMITTED] TC14NO91.006
(ii) The minimum value of LC is based on the element length, plus clearances, and is 1.18 m.
(3) Total reimbursement. The customer's total reimbursement is as defined in Sec. 1214.804(f)(3).
(f) Complete pallets (7-day mission). (1) The Shuttle load factor and charge factor for a complete pallet are 0.198 and 0.228, respectively, and its payload weight capability is 2,583 kg. Subject to other STS or Spacelab structural limits, customers are entitled to utilize this payload weight capability. Payload weight in excess of 2,583 kg is subject to NASA approval and may entail optional service charges.
(1) The Shuttle load factor and charge factor for a complete pallet are 0.198 and 0.228, respectively, and its payload weight capability is 2,583 kg. Subject to other STS or Spacelab structural limits, customers are entitled to utilize this payload weight capability. Payload weight in excess of 2,583 kg is subject to NASA approval and may entail optional service charges.
(2) Total reimbursement. The customer's total reimbursement is as defined in Sec. 1214.804(g)(3).
(g) Shared elements (7-day mission)--(1) Spacelab load fractions and Shuttle load factors--(i) Pallet. Spacelab load fraction is the greater of:[GRAPHIC] [TIFF OMITTED] TC14NO91.007
Shuttle load factor is the greatest of:
[GRAPHIC] [TIFF OMITTED] TC14NO91.008
(ii) Pressurized module. Spacelab load fraction and Shuttle load factor are identical and are the greater of:[GRAPHIC] [TIFF OMITTED] TC14NO91.009
(2) Shuttle charge factors and element charge factors for pressurized modules. Shuttle charge factors and element charge factors are identical and are defined as follows: ------------------------------------------------------------------------
The element charge factorIf the Spacelab load fraction (and Shuttle and Shuttle charge factor
load factor) is-- shall be--------------------------------------------------------------------------Less than 0.00435......................... .005.0.00435 to 0.87 Spacelab load fraction
divided by 0.87.Greater than 0.87......................... 1.0.------------------------------------------------------------------------
(3) Element charge factors for shared pallets. ------------------------------------------------------------------------
The element charge factor
If the Spacelab load fraction is-- shall be--------------------------------------------------------------------------Less than 0.0189.......................... 0.0218.0.0189 to 0.87............................ Spacelab load fraction
divided by 0.87.Greater than 0.87......................... 1.0.------------------------------------------------------------------------
(4) Shuttle charge factors for shared pallets. ------------------------------------------------------------------------
The Shuttle charge factor
If the Shuttle load factor is-- shall be--------------------------------------------------------------------------Less than 0.00375......................... 0.005.0.00375 to 0.75........................... Shuttle load factor divided
by 0.75.Greater than 0.75......................... 1.0.------------------------------------------------------------------------
(5) Total reimbursement. (i) The customer's total reimbursement is as defined in Sec. 1214.804(h)(3).
(i) The customer's total reimbursement is as defined in Sec. 1214.804(h)(3).
(ii) If a customer contracts for portions of more than one element, the charges for the use of the elements shall apply individually to each element used.
(6) Experiment volume in the pressurized module is defined to be the sum of the customer's payload volume in racks and in the center aisle.
(i) Rack volume is defined relative to basic Air Transportation Rack (ATR) configurations. The customer's rack volume shall be defined as the volume of one or more rectangular parallelepipeds (rectangular-sided box) which totally enclosed the customer's payload. Width dimensions shall be either 45.1 or 94.0 centimeters. Height dimensions shall be integral multiples of 4.45 centimeters. Depth dimensions shall be 61.2 or 40.2 centimeters.
(ii) Center aisle space volume is defined as the volume of a rectangular parallelepiped which totally encloses the customer's payload. No edge of the parallelepiped shall be less than 30 centimeters in length.
(7) Storage volume in the pressurized module is defined as the volume of one or more rectangular parallelepipeds enclosing the customer's stowed payload. No edge of the parallepiped(s) shall be less than 30 centimeters in length.
(8) Volume of the customer's pallet-mounted payload is defined as the volume of a rectangular parallelepiped enclosing the pallet payload and customer-dictated mounting hardware. No edge of the parallelepiped shall be less than 30 centimeters in length. Subparts 1214.9-1214.10 [Reserved]
Subpart 1214.11_NASA Astronaut Candidate Recruitment and Selection
Program
Source: 54 FR 37940, Sept. 14, 1989, unless otherwise noted.