tomuchwork,
Yes visuals can be great fun! I used to fly the SA227 out of Naples (LIRN), and coming home from the south (feeder point from SOR) or west (feeder point ISKIA 23 NM to the west) with vectors ALLLL the way out to BENTO, was a perfect situation where a visual would save time. Because of the terain, the routing and approach would take you more than 40 miles out of your way (see approach link). ATC would sometimes clear us for the visual at 7000' at 1 or 2 miles abeam the runway after having told us repeatedly that the visual was unavailable. THAT was fun, and also a challenge to make it work out. Would be harder to do it in a big jet, for sure; but I saw A320s make it work often as well. You could still be stabilized by 500'-1000' AGL; and save yourself the 15 mins from going out to BENTO and back.
Fly safe!
265
The definition below is from pg 15-21 of the Airplane Flying Handbook
The performance charts and the limitations contained in the FAA-approved Airplane Flight Manual are predicated on momentum values that result from programmed speeds and weights. Runway length limitations assume an exact 50-foot threshold height at an exact speed of 1.3 times Vso
. That “window” is critical and is a prime reason for the stabilized approach. Performance figures also assume that once through the target threshold window, the airplane will touch down in a target touchdown zone approximately 1,000 feet down the runway, after which maximum stopping capability will be used. There are five basic elements to the stabilized approach.
• The airplane should be in the landing configuration early in the approach. The landing gear should be down, landing flaps selected, trim set, and fuel balanced. Ensuring that these tasks are completed will help keep the number of variables to a minimum during the final approach.
• The airplane should be on profile before descending below 1,000 feet. Configuration, trim, speed, and glidepath should be at or near the optimum parameters early in the approach to
avoid distractions and conflicts as the airplane nears the threshold window. An optimum
glidepath angle of 2.5° to 3° should be established and maintained.
• Indicated airspeed should be within 10 knots of the target airspeed. There are strong relationships between trim, speed, and power in most jet airplanes and it is important to stabilize the speed in order to minimize those other variables.
• The optimum descent rate should be 500 to 700 feet per minute.
The descent rate should not be allowed to exceed 1,000 feet per minute at any time during the approach.
• The engine speed should be at an r.p.m. that allows best response when and if a rapid power increase is needed. Every approach should be evaluated at 500 feet. In a typical jet airplane, this is approximately 1 minute from touchdown. If the approach is not stabilized at that height, a go-around should be initiated. (See figure 15-24 on the next page.)