While many of us
fly the latest high-performance wings and use every piece of available
technology to improve performance, we forget about the basics and the
root of our enjoyment.� The thrill of something new, our first soaring
flight, thermal, cross-country or perfect no wind landing.� The future
of hang gliding exists not only in the next generation of blade wings,
but in the next generation of pilots.� Those individuals on the
training hill right now.� The people about to experience the thrill of
flight for the very first time.� What awaits them as they move forward
in their flying careers?� How can we assure that our sport continues to
grow in the face of all the pressures against it?� Simple, bring the
fun back to flying.� Make our gliders lighter, safer, better handling,
easier to set up and less expensive.
For many pilots a good flight is one that consists of a good launch
and a good landing.� What happens in between is icing on the cake,
although nobody likes to sit in the LZ while everyone else is climbing
out.� With these basics in mind, John Heiney and the crew at Altair
undertook the task of building a glider for the masses.� Their
objective, to build a novice/intermediate glider with excellent
handling and performance.� Priority one, however, the glider needed to
track well.� Altair president Peter Radman, an intermediate pilot,
described his first novice glider and the motivation behind their
latest venture.� "My first novice level glider had a tendency to
oscillate which I found quite disconcerting.� New pilots need a glider
that is easy to fly through a broad speed range.� I wanted the Saturn
to be such a glider."� With the growing popularity of towing, the
ability to track straight and true adds to the margin of safety we all
desire.� Keeping this early experience and alternative launch methods
in mind, the Altair team began to design their new wing.� Known for
their composite airframe Predator, Altair began work on the aluminum
airframe Saturn 167 in 1997 at their facility in Draper Utah, a short
glide from the famous Point of the Mountain Flight Park.
Altair occupies a large industrial building, yet the production area
is immaculate.� Carpet covers the floor where glider assembly takes
place and a clean-room attitude prevails about this area with signs
requesting No Shoes.� A huge banner hangs on the back wall professing
"Quality Is Everything!"� The factory organization facilitates smooth,
consistent production with tubing racked in one area, hardware fittings
along the wall, and the production area in the center.� Cables and
reflex bridles are made in house as are most pads and bags for the
gliders.� Sails for the Saturn come from the sail loft of master
sailmaker Dick Cheney, a short drive away in Kaysville.� The attention
paid to the design and maintenance of the production facility
translates directly to the gliders produced there.
The Hardware
Well thought out hardware sets the Saturn apart from the crowd.�
Using hardware proven on the Predator, the Saturn shares many basic
components.� The corner fittings are CNC machined 6061-T6 aluminum
alloy and allow for simple setup while virtually eliminating wire
kinks.� Pins holding the lower wires to the corner fitting are easily
inspected during preflight, and in the case of the side wires are
redundantly secured by the downtubes.� Should you need to change a
downtube, replacement requires no tools and takes less than five
minutes.� The base tube is bolted to the corner fitting on one side and
fits in to a machined slot on the other, secured with a pip pin
inserted from the front.� This arrangement allows for quick setup with
little effort required to align the fittings.
The VG (an option I recommend) locks off via a simple jam cleat
mounted on top of the base tube.� The location and action may require a
little getting used to, but it is effective and reduces wear on the VG
cord over other designs.� Internally the VG uses high-quality Harken
pulleys, known as the best available, with proven reliability on
thousands of sailboats worldwide under some of the harshest conditions
imaginable.� The result is an easy and short pull to actuate the VG.�
The rear haulback, integrated with the VG system, uses a single
restraint point, with a very trick safety pin.
Hang straps are girth hitched around the keel with the main strap
having a Velcro tab to secure it from moving on the added traction
patch.� This arrangement allows for simple adjustment of the CG when
required, while virtually eliminating any unintentional movement.� The
Saturn comes stock with the international standard 1.2-meter
(47.2-inch) distance between hang straps and basetube, although custom
heights are available.�
Additional amenities include a convenient �kickstand� stinger on
the keel, Altair�s exclusive �auto kingpost� system, and a durable
bag.� For convenience, the stinger on the keel is retained with a
spring-loaded ball clip and shock cord, which allows you to remove it
and prop the glider up for more convenient setup in light winds.� Once
set up, you simply slide the stinger back into place and allow the clip
to pop back through the retaining hole.� The �auto kingpost� is a
feature inherited from the Predator.� The top nose wire routes from the
kingpost through a pulley at the front of the keel and then down to the
haulback.� When you pull the haulback the kingpost rises along with the
permanently attached top rigging and reflex bridles.� For when the
glider isn�t set up, the stock bag is heavy-duty polyester, lined with
polyurethane to make it nearly waterproof protection for the glider.
The Setup
As an advanced pilot used to flying on modern equipment, I am quite
accustomed to the routine of stuffing ten or twelve battens per side in
a process that generally takes about a half hour.� The first time I set
the Saturn up was with John Heiney, in a rush to fly a small dune
before the sun set.� With two of us, I was hooking in seven minutes
after unzipping the bag (I timed it!).� Realistically, I found myself
able to set the glider up, stow the bags, and preflight in the time it
takes a paraglider pilot to check conditions, don a flight suit and lay
out their wing.
The process is basic as with most new wings.� Unzip the bag, remove
the batten bag, and pull out the downtubes and basetube.� Remove the
basetube bag and integrated pad.� The control frame goes together
quickly: slide the basetube into the slotted corner bracket with a
little twist to align the holes, insert the pip pin from the front, and
you are ready to stand the glider up.� The next step is to slide the
neoprene sock covering the tip of the keel up a few inches and then
spread the wings.� With the wings spread a moderate pull on the
haulback cable spreads the wing completely and raises the kingpost and
bridle lines.� Probably the best part about the Saturn setup is its
battens.� For starters, it has only nineteen battens total, seven
top-surface and two bottom-surface per side, and the nose batten.�
Additionally the nose batten and two root battens may remain in the
glider.� This leaves just six battens to stuff on each side.� The
batten pockets are folded nicely to facilitate the process and string
tensions are light throughout the glider.� Now is a good time to
tension the wing with the single, rear haul strap, fitting the keyhole
tang over the retaining stud.� The retaining safety is an ingenious
little clip that slides through the retaining stud and automatically
locks in place.� To remove it, you simply lift the loop of the pin and
slide it out.� You attach the nose wire with a simple click into the
CNC machined block and spring-loaded safety.� Push the nose batten into
place and finish out by removing the tip bags and installing the
remaining two tip battens, and bottom surface ribs on each side.�
During preflight, you notice the large access zippers allowing for
easy inspection of the crossbar/leading edge junction as well as the
lack of tip fairings.� The airfoil tapers nicely and with the truncated
tips presents a very small profile for added drag reduction.�
Taking a step back and looking at the Saturn as a whole, it
continues Altair�s tradition of truncated tips, which give it a unique
look, similar to the Predator or TRX.� When first viewed from the rear
the glider might look a bit awkward to you.� Compared to most gliders,
the distance between the battens is quite large and the sail is set
fairly loose on the airframe.� In flight, the sail fills in nicely with
a clean profile from behind and surprisingly little twist in the wing.�
The overall shape of the airfoil is clean without being too thick,
which seems to help the gliders speed range and sink rate.� The overall
finish is very nice, with close attention paid to the minor details.�
The faired kingpost has a neoprene boot to reduce parasitic drag where
it enters the top surface. The nose cone fits easily and cleanly into
place. Even the downtubes are canted inward eight degrees to reduce
drag.� After a thorough preflight and inspection of the glider you are
left with one question: How does it fly?
Flying the Saturn
Upon picking up the glider for the first time, you will notice a
good static balance without any exhibited nose or tail heaviness.� I
had the opportunity to launch in a variety of conditions from light
wind and a flat slope to high wind and cliff launches.� I had little
difficulty ground handling the glider, although its large control frame
and solid pitch pressure could present difficulty to smaller pilots in
higher winds.� In high winds, the glider has a narrow window of neutral
pitch, but enough of one to make self-launching possible.� Once you
commence your launch run, the glider requires light input to keep the
angle of attack appropriate and with its low stall speed you will
commit aviation rather quickly.
In the air, the control frame is roomy and allows for a good deal
of motion side to side.� Trim position lies comfortably just in front
of your shoulders and moves in a bit with the VG on.� Pitch pressure is
very dependent on the VG setting. VG off provides solid feedback with
increased speed without getting excessive in normal speed ranges.� With
the VG on, the bar pressure decreases significantly throughout the
speed range.� I made several glides at various airspeeds to get a feel
for the gliders cross-country potential on long glides.� Using full VG,
I easily maintained a 35mph glide with bar pressure light enough to
hold back with two fingers and a thumb on one hand.� Above 38mph bar
pressure builds progressively all the way to VNE at 53mph. At my hook
in weight of around 185lbs, I was able to accelerate to within 1mph of
VNE by gradually pulling in.� Glide is always difficult to measure
although I felt that the Saturn gets within a few L/D points of high
performance gliders -- a claim backed by a respectable performance at
the Morningside glide contest.� I was able to make several glides into
strong headwinds, which left me feeling confident in the gliders
ability to penetrate, especially considering I normally fly at a much
higher wing loading.
Going fast or taking long glides bears little significance if you
cannot get up to begin with.� The Saturn sink rate stands out as a
major defining feature of the glider.� I found in light conditions that
I could maintain when others went looking elsewhere for lift.� The
combined effect of a great sink rate, low stall speed, and light,
responsive handling allows for very tight scratching when required.� In
stronger conditions I found myself at the top of the stack without much
trouble.� I found a notable improvement in sink rate with the VG on and
routinely gained an extra hundred feet or so in ridge lift.
Testing a glider in mid-winter has its drawbacks.� I honestly can�t
report how this glider behaves in a ripping thousand-up core or the way
it feels when you fall out the back of a strong tilted thermal.� I can
say that in the light stuff, the make or break point of most flights,
this glider excelled.� The Saturn thermals very easily without any
strong tendency to wind in or tilt out.� For the most part, once you
find the core and set your bank angle, only minor roll modifications
are required to keep the glider set in the thermal.� This glider does
respond well to pitch input in thermals, allowing you to grab that
extra bit of lift that you fly into without the worry of stalling the
tip and slipping out of the core.� In tighter cores I found myself more
efficient with the VG off, keeping the tip at a lower relative angle of
attack.� In larger smooth thermals the sink rate advantage with the VG
on worked out better and cost little in handling.
A major consideration in the design of any glider is handling,
especially so in a novice/intermediate wing where stability and
responsiveness help out where experience may fall short.� My first
flight on the Saturn put its handling to an immediate test.� After
chasing the wind all day, John Heiney and I decided to fly a small
fifteen-foot high coastal dune in steady 15-18mph conditions.� After a
record set up time I launched and with the first turn a smile broke
across my face.� I normally fly a 142 sq. ft. glider and have always
had an aversion to larger gliders and their tendency to feel
overpowering.� The Saturn responds quickly and predictably with little
to no yaw and feels like cruising around with power steering.� I did
notice at slower speeds in ridge lift, especially with the VG on, a bit
of hesitance to roll back into the wind.� A little bump out on the
basetube when initiating roll will bring the glider right into a turn.�
I never felt uncomfortable even when scratching close to the terrain.
In an attempt to ferret out any hidden characteristics, I took
every opportunity to challenge its stability.� In straight and level
flight the glider exhibits a very gentle stall.� I found I could slowly
ease the bar out to full arm extension with the glider slowing to a
mush, yet remaining directionally controllable.� Even in more rapid and
forced stalls, the nose simply lowers and rebuilds flying speed without
any drastic rotation.� Mild stalls while turning result in the nose
dropping and a slight increase in bank angle, more vigorously forced
stalls merely bring about a more abrupt, yet manageable drop.� I tried
to spin the glider both from the basetube and from the downtubes, yet
was unable to initiate a spin even once, with the glider recovering
from every attempt in a moderate diving turn.
With tracking playing an important part in the design consideration
of this glider, I tried everything to derail it.� I varied airspeed
from slow to fast, linked high-speed turns, flew fast in turbulence,
slipped turns into a dive and always I got the same result.� Straight
and true flight, I just could not induce any oscillations.� Even
performing mild aerobatics with rapid attitude, speed, and direction
changes resulted in the same predictable behavior.� I did not have the
opportunity to tow in this glider although I witnessed several novice
pilots aerotowing with picture perfect form.� Given its inherent
stability I imagine it tows well from ground based vehicles as well.
Landing
Finally, we arrive at the LZ.� Coming in to land, you want to be
aware of the size of the control frame.� The same span that gives so
much room to move around in when flying means a slightly wider grip
when reaching for the downtube on approach.� With a little bit of speed
the glider floats in ground effect and offers a little back pressure
when it is time to flare.� If you flare a bit early and hold it, be
prepared for a mild parachute in.� If you are late, just hit your flare
hard and fast and the glider rotates through with ease.� Overall the
flare window is very long and forgiving and the glider responds well to
a gentle yet determined flare, giving the pilot many opportunities to
adjust for conditions.� Landing speeds are slow enough that even
without flaring you could probably run it out.� Most of my landings
were into the wind although I managed to get one cross/downwind uphill
in light conditions without taking a step.� Slightly cross and shallow
turn landings are easily forgiven and the glider tends to weathervane
into the wind in most cases making questionable conditions feel easy.
Final Thoughts
Being asked to write a review of a glider is a bit flattering.� It
also leaves you feeling as though pitfalls exist if you don�t like the
glider.� Thankfully, there are very few bad gliders made, if any.� If a
new glider is on your wish list, you should take the opportunity to fly
before you buy, if possible.� I hoped to provide an accurate depiction
of the Saturn�s objective qualities while allowing subjective
perceptions to come through where appropriate.� My own wing of choice
for the past few years is a Predator 142 which admittedly makes me
somewhat biased in favor of the Saturn, since I am familiar with much
of its hardware and its manufacturer.� We all carry bias in some way
concerning what we choose to fly and I made every attempt to set them
aside for this glider.
Initially I had my doubts about how the Saturn would suit me.� I
suffer a bit of prejudice against large wings and prefer the handling
and feel of a smaller wing.� After many hours of flying the Saturn, I
now feel different about this big glider.� I absolutely loved my time
with it.� I was always first off the hill, could stay up when others
could not and really had fun whenever I flew, regardless of
conditions.� Part of what makes this glider so special is what it does
not come with.� The extra battens, shear-ribs, added weight, faster
sink rate, high price or unneeded complexity.�
From the newer pilot looking to step-up in performance or begin
flying XC, to the experienced pilot looking for an easy, fun glider to
make them King or Queen of the Boat and Gloat*, the Saturn 167 has a
lot to offer for a suggested retail of only $4275 U.S.� If the Altair
demo van rolls into your town, hop on a Saturn and take a flight.� You
will not be disappointed.
� A common activity around flying sites whereupon pilots recap the events of the day.� Comparing thermals,
"There I was, thought I was gonna die" stories, and generally rib each other about performance and ability.
Standard Features
- Rear keel "kickstand"
- Faired uprights and kingpost
- Heavy-duty, thick walled speedbar
- Set-up / fold�down on control bar or flat on the ground
- Mylar leading edge stiffener
- Predator-type nose fairing
- 7075 airframe for light weight
- Profiltm leading edge cloth
- Heavy duty polyester cover bag with polyurethane lining
Specifications
- Area: 167 sq. ft.
- Span: 33� 4"
- Aspect Ratio: 6.64:1
- Airframe: 7075 Aluminum
- Pilot Weight: 150-250 lbs.
- Glider Weight: 61 lbs.
- Pilot Skill: Hang II � Hang IV
- Price: $4275 U.S.
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