The upcoming launch of the X-37B Spaceplane mission OTV 8

X-37B mission OTV 6 after landing (Image: US Air Force)

Navigational Warnings have appeared for OTV 8, the 8th launch of the secretive X-37B spaceplane by the US Space Force (launch USSF-36). The launch, on a SpaceX Falcon 9, will be from Cape Canaveral launch pad 39A. The window of the Navigational Warning runs from 22 to 28 August 2025, with a time window of 08:30 - 10:30 UTC 03:40 - 08:03 UTC for August 22 (August 21 local date in Florida). There is something odd with these times by the way, on which more later.

Navigational Warnings NAVAREA IV 877/25 and HYDROPAC 2096/25 define two hazard zones. One is the immediate launch hazard zone on the Florida coast. The other is the deorbit area for the Falcon 9 upper stage, in the Eastern Pacific, near the end of the first revolution. 

While the direction of the first hazard zone on the Florida coast suggests a 42 degree inclined orbit, the location and direction of the Falcon 9 upper stage deorbit area is incompatible with this. Rather, it fits a 49.5 degree inclined orbit. The location and the time difference of the deorbit window start compared to that for the launch area, strongly point to launch into a Low Earth Orbit, with an orbital altitude likely near 350-400 km, just like the first six missions (remember that mission OTV 7 surprisingly was sent into a Highly Elliptical Orbit, see several previous posts, e.g. here).

I have plotted the two hazard zones and a launch trajectory for a 49.5 degree inclined, ~350 km altitude orbit in the map below. Numbers next to the trajectory refer to the flight time in minutes after launch:

 

Click map to enlarge

 

Below are the two Navigational Warnings:

142327Z AUG 25
NAVAREA IV 877/25(11).
NORTH ATLANTIC.
FLORIDA.
1. HAZARDOUS OPERATIONS, ROCKET LAUNCHING 
   220340Z TO 220803Z AUG, ALTERNATE
   230400Z TO 230823Z, 240420Z TO 240843Z,
   250440Z TO 250728Z, 260500Z TO 260748Z,
   270345Z TO 270808Z AND 280540Z TO 280833Z AUG
   IN AREA BOUND BY
   28-40.25N 080-38.57W, 28-50.00N 080-22.00W,
   28-39.00N 080-11.00W, 28-27.24N 080-31.58W.
2. CANCEL THIS MSG 280933Z AUG 25.


141931Z AUG 25
HYDROPAC 2096/25(83).
PACIFIC OCEAN.
DNC 06, DNC 13.
1. HAZARDOUS OPERATIONS, SPACE DEBRIS
   220500Z TO 220911Z, 230520Z TO 230931Z,
   240540Z TO 240951Z, 250600Z TO 250836Z,
   260620Z TO 260856Z, 270505Z TO 270916Z
   AND 280700Z TO 280941Z AUG 
   IN AREA BOUND BY
   09-55.00N 120-25.00W, 10-41.00N 121-25.00W,
   07-44.00S 135-45.00W, 08-30.00S 134-45.00W.
2. CANCEL THIS MSG 281041Z AUG 25.

Note the shift in launch time with date: 03:40 - 08:03 UTC for the 22nd, 04:00 - 08:23 UTC for the 23rd, etcetera: a shift forward in time of 20 minutes per day. [edit: as noted by Ted Molczan, the times next suddenly shift to - nearly - the initial times again by August 27. I still cannot make sense of it]

The direction of this shift is odd. It is forward, to a later time each day: if a particular orbital plane is aimed for, it should however shift backwards, to an earlier time, each day. I wonder if this is a mistake and someone added corrections into the wrong direction...

The X-37B spaceplane (there are actually two of them) is the subject of a lot of conjecture and wild tales. My interpretation is that it is a technology testbed, not some space weapon such as the Russians and Chinese would have it. 

The rumoured "high manoeuverability" is often misunderstood: in flight, the X-37B does not change its orbital plane (see this earlier post from 2019). It does change orbital altitude frequently, and during the last mission (OTV 7) into HEO, it used Aerobraking (briefly dipping into the upper atmosphere during perigee) near the end of its mission to reduce orbital speed and altitude in preparation for landing. It manoeuvered almost daily during that mission. However, and I want to re-emphasize this as it is a common misunderstanding, it does not swirl and manoeuver like an X-wing Starfighter or Tie-fighter, changing orbital plane at will. In many ways, on-orbit it is just another satellite, moving in a fixed orbital plane (this is how we trackers find it back after an orbit raising or lowering manoeuver: we do a plane scan). The wings only function in the atmosphere, not in space.

According to this Space Force bulletin, mission OTV 8 will experiment with laser communications with "proliferated commercial satellite networks in Low Earth Orbit" (read: Starlink). It will also test a new navigation device, a "quantum inertial sensor" which works by "detecting rotation and acceleration of atoms without reliance on satellite networks like traditional GPS". This experimental technique is important to be able to continue navigating in space when GPS is being jammed/spoofed, and will become an important means of navigation in XGEO (CisLunar Space) in the future.