14 C.F.R. § 417.107

Current through October 31, 2024
Section 417.107 - Flight safety
(a)Flight safety system. For each launch vehicle, vehicle component, and payload, a launch operator must use a flight safety system that satisfies subpart D of this part as follows, unless § 417.125 applies.
(1)In the vicinity of the launch site. For each launch vehicle, vehicle component, and payload, a launch operator must use a flight safety system in the vicinity of the launch site if the following exist:
(i) Any hazard from a launch vehicle, vehicle component, or payload can reach any protected area at any time during flight; or
(ii) A failure of the launch vehicle would have a high consequence to the public.
(2)In the downrange area. For each launch vehicle, vehicle component, and payload, a launch operator must provide a flight safety system downrange if the absence of a flight safety system would significantly increase the accumulated risk from debris impacts.
(b)Public risk criteria. A launch operator may initiate the flight of a launch vehicle only if flight safety analysis performed under paragraph (f) of this section demonstrates that any risk to the public satisfies the following public risk criteria:
(1) A launch operator may initiate the flight of a launch vehicle only if the total risk associated with the launch to all members of the public, excluding persons in water-borne vessels and aircraft, does not exceed an expected number of 1 * 10-4 casualties. The total risk consists of risk posed by impacting inert and explosive debris, toxic release, and far field blast overpressure. The FAA will determine whether to approve public risk due to any other hazard associated with the proposed flight of a launch vehicle on a case-by-case basis. The Ec criterion applies to each launch from lift-off through orbital insertion for an orbital launch, and through final impact for a suborbital launch.
(2) A launch operator may initiate flight only if the risk to any individual member of the public does not exceed a casualty expectation of 1 * 10-6 per launch for each hazard.
(3) A launch operator must establish any water borne vessel hazard areas necessary to ensure the probability of impact (Pi) with debris capable of causing a casualty for water borne vessels does not exceed 1 * 10-5.
(4) A launch operator must establish any aircraft hazard areas necessary to ensure the probability of impact (Pi) with debris capable of causing a casualty for aircraft does not exceed 1 * 10-6.
(5) A launch operator may initiate flight of a launch vehicle only if all of the risks to the public satisfy the criteria in the critical asset protection requirements in § 450.101(a)(4) and (b)(4) .
(c)Debris thresholds. A launch operator's flight safety analysis, performed as required by paragraph (f) of this section, must account for any inert debris impact with a mean expected kinetic energy at impact greater than or equal to 11 ft-lbs and, except for the far field blast overpressure effects analysis of § 417.229 , a peak incident overpressure greater than or equal to 1.0 psi due to any explosive debris impact.
(1) When using the 11 ft-lbs threshold to determine potential casualties due to blunt trauma from inert debris impacts, the analysis must:
(i) Incorporate a probabilistic model that accounts for the probability of casualty due to any debris expected to impact with kinetic energy of 11 ft-lbs or greater and satisfy paragraph (d) of this section; or
(ii) Count each expected impact with kinetic energy of 11 ft-lbs or greater to a person as a casualty.
(2) When applying the 1.0 psi threshold to determine potential casualties due to blast overpressure effects, the analysis must:
(i) Incorporate a probabilistic model that accounts for the probability of casualty due to any blast overpressures of 1.0 psi or greater and satisfy paragraph (d) of this section; or
(ii) Count each person within the 1.0 psi overpressure radius of the source explosion as a casualty. When using this approach, the analysis must compute the peak incident overpressure using the Kingery-Bulmash relationship and may not take into account sheltering, reflections, or atmospheric effects. For persons located in buildings, the analysis must compute the peak incident overpressure for the shortest distance between the building and the blast source. The analysis must count each person located anywhere in a building subjected to peak incident overpressure equal to or greater than 1.0 psi as a casualty.
(d)Casualty modeling. A probabilistic casualty model must be based on accurate data and scientific principles and must be statistically valid. A launch operator must obtain FAA approval of any probabilistic casualty model that is used in the flight safety analysis. If the launch takes place from a Federal launch range, the analysis may employ any probabilistic casualty model that the FAA accepts as part of the FAA's launch site safety assessment of the Federal launch range's safety process.
(e) [Reserved]
(f)Flight safety analysis. A launch operator must perform and document a flight safety analysis as required by subpart C of this part. A launch operator must not initiate flight unless the flight safety analysis demonstrates that any risk to the public satisfies the public risk criteria of paragraph (b) of this section. For a licensed launch that involves a Federal launch range, the FAA will treat an analysis performed and documented by the Federal range, and which has an FAA approved launch site safety assessment, as that of the launch operator as provided in § 417.203(d) of subpart C of this part. A launch operator must use the flight safety analysis products to develop flight safety rules that govern a launch. Section 417.113 contains the requirements for flight safety rules.

14 C.F.R. §417.107

Docket No. FAA-2000-7953, 71 FR 50537 , Aug. 25, 2006, as amended by Amdt. No. 417-5, 81 FR 59439 , Aug. 30, 2016; Docket No. FAA-2014-0418, Amdt. No. 417-4, 81 FR 47026 , July 20, 2016; Doc. No. FAA-2019-0229, Amdt. 417-6, 85 FR 79716 , Dec. 10, 2020
81 FR 47026 , 8/19/2016; 85 FR 79716 , 3/10/2021