The Specialist in Van's RV Inspections & Upgrades

Firewall Forward Services


I have done dozens of Firewall Forward installations and repairs. I’ve also never had a heating or cooling problem with the 11 aircraft I’ve built, and take pride in a 100% (yes, 100%) dispatch rate across 4800 hours in those same aircraft, a testament to paying attention to the details.

 


 


Propeller Balancing using Dynavibe G2


  • This is a really great way to lengthen the life of everyting on your airplane as well as make the flight SO MUCH more enjoyable. Most of the time I can get your propeller to within .01-03 IPS, amking it feel like a turbine!​


​​Troubleshooting


  • Having overheating problems? Engine not performing to your satisfaction? I will work to find the problems(s) and either correct them or fix them at an hourly rate plus materials.


​Rotax 912


  • Rotax engines require the carburetors to be synchronized for optimum performance. It's amazing how much smoother the engine can be when the carbs are synced properly. I have the tools and experience to perform this for you.


Kitplanes Column by Vic Syracuse:


Those of us who have been around this Experimental Aviation for a while have probably either seen someone use an alternative engine or even thought about using one on their own project. Even I plead guilty in this area, as more than one of my waypoints in Experimental aviation included a couple of forays into Alternative engines. Being a repeat offender. For the record, I define alternative engine as anything other than Lycoming, Continental, or Rotax 912 series. And I will acknowledge that there are many out there who still view the Rotax 912 series as an alternative engine. But having flown behind a half dozen of them for over 1400 flight hours, I am convinced that they really are reliable and have proven themselves to be a valid alternative. 

Let me tell you about my 2 experiences. Back when the Prescott Pusher was first being developed one of the engines that was touted as an alternative was the Blanton V-6. This was really a Ford V-6 automobile engine coupled to a belt drive, and allegedly producing upwards of 250 horsepower. It sure seemed like a nice alternative to the original 180 HP Lycoming in the 4-place Prescott Pusher. And who doesn’t fall victim to the “more horsepower is better” claims. I know this young and naïve second time builder did. After all, I was just coming off of a very successful RV-4 experience. Since I now had 4-place family, I needed a 4-place airplane, and I was not having any luck in convincing Van to build a 4-place aircraft. 

If my memory serves me correctly, kit-built choices were limited at that time to the Prescott Pusher and the Wheeler Express. I must admit that I hate working with fiberglass, and I had all of these metalworking tools from building the RV-4, so the decision was made.  Unfortunately, the Prescott team was much better at marketing and many of the kits were a long time in coming. So, it was during these waiting times that I got interested in the Blanton V-6. 

Dave Blanton was right across the field from the Prescott team, so on one of my visits I went flying with Dave. We had an uneventful flight, and the airplane seemed to perform better than a stock-equipped C-172, so I went home and proceeded to build up my own V-6 with the help of my brother-in-law Mike. 

As the building progressed even the team at Prescott began doing some “dyno testing” of the V-6. It was rather crude but it did show that the V-6 didn’t really turn propeller any higher static RPM’s than the 180 HP Lycoming. Interesting. Since mine was going to be the first customer-built aircraft to be finished, I took stock and decided to stay with a “proven” engine. It turned out to be a good decision. There were a couple of fatalities on other Blanton-equipped Prescott Pushers due to engine failures.


The Prescott Pusher with the 180 HP engine really didn’t match up to its marketing numbers. It ended up being a good 2+2 airplane, somewhat a ground hog, and not really meeting my family’s needs, so I moved on. 

My solution: let’s rent the 4-place when we need to and still keep a hand in kit building. So, how do I get back into this quickly, having just spent over 2 years building the Prescott and not having much to show for it? Well, having just been to Oshkosh (that’s where we all get enamored with the new toys, right?) and watching Dan Denney take off ACROSS runway 36 in his Kitfox, we decided we should build a one. This is when the recommend engine for the Kitfox was the Rotax 582 (a 2 stroke!). Carol then shows me a table from Kitplanes one evening that compares 4 stroke aircraft engines to 2 stroke engines, clearly pointing out that the table for the 4-strokes is labeled “Time Before Overhaul” and the table for the 2-strokes is labeled “Time Before Failure.” Yikes. What now, Watson? 

Well as luck would have it, Dan Denney was doing some work with an Italian Company on a 4-stroke, the KFM-112, so we proceeded to go that route. To make a long story short, there were some ignition reliability issues, and with the engine being newly coupled to the Kitfox airframe, there were not a lot of propeller choices, so performance suffered. 

We did have one funny story with this experience. The dual electronic ignition systems on the KFM-112 put a lot of noise into the intercom and radio. I spent a fair amount of time building and installing various noise filters until I finally got it right one day. I took Carol for a ride to show her and on the downwind departure I said “listen to how quiet both ignition systems are,” and proceeded to turn off each ignition system independently. This probably ranks right up there with the infamous “watch this.” I didn’t know it yet, but sometime between my ignition check prior to takeoff and the downwind position one of the ignition systems had quit. When I switched the still-working ignition off, the engine quit. Carol looks right at me and calmly says, “yes, that’s pretty quiet.” I Switched it back on and just proceeded to base leg and landed.  

We later re-engined the kitfox with a Rotax 912 UL engine. I was hooked on this combination when I watched the climb rate that was more than double of the KFM engine on the first flight. The rest is history. I just finished our 3rd Kitfox with a Rotax 912S in the hopes that the kids will finally learn to fly. At least that is my excuse! 

Alternative engines have come a long ways since the Prescott and early Kitfox days. As a DAR I’ve even licensed a few of them. Do I have any second thoughts on those? Not really. I know 98% of us are having fun with Experimental (Amateur-built) aviation because there were others before us who didn’t stick with the norms. I can cite all of the fiberglass airplanes that we have available today, from kits to Commercial airliners, as one example. However, I do remind the builder to be careful, and that they truly are putting a little more “experimental” into their aircraft than the norm. I have seen some that have had a lot of success, and I have seen others that eventually give up and re-engine their aircraft. A lot of that has to do with the mission requirements, and I usually discuss that with those who seek me out during the build process. 

My opinion is that if you want reliability, if you are going to use your aircraft as a cross-country machine, and perhaps even some IMC flying, then I highly recommend that you do everything possible to make the engine compartment as reliable as possible. But if your heart is in experimenting, or in trying new things, then why not go for it? It’s all about expectation setting. 

I get asked often if there will be a longer Phase I period if they use an alternative engine. As a DAR we can add longer fly-off periods. No, we can’t allow shorter periods than the Order specifies, so don’t ask. I haven’t increased anyone’s Phase I time yet, because the workmanship I have seen on the alternative engines has been beautiful. They weren’t done on the cheap and corners weren’t cut. I have seen some airplanes with proven engines that could probably use more than 40 hours. In all fairness, I tell everyone that it isn’t until somewhere around 100 hours that the airplane is really finished, meaning that all of its little quirks or wear items have truly presented themselves. And I caution everyone to take time in opening up the envelope after having completed Phase I. There really isn’t a need to make the first trip a night cross country in IMC with the family on board. 

BTW, this practice of methodically increasing the range and/or missions bodes the same for aircraft with Standard Engines. I recently was helping a gentlemen correct some problems with his newly purchased RV-10. The aircraft had a total of about 70 hours on it, but he had less than 10 in type. Fast forward to a cross-country in IMC with the family, and ATC not being able to hear him and VOR reception limited to 25 miles or less! Not a fun trip. Turns out the nav and comm antennas were connected backwards (yes, com connected to the nav input and nav to the comm output), and many of the avionics were incorrectly configured. Luckily, things turned out OK. 

BTW, I am so glad Van finally did market the RV-10. It’s one of the best 4-place airplanes I’ve ever flown, and it has definitely increased this family’s fun factor.


 So what’s the moral of the waypoints around the Prescott and the our first Kitfox with alternative engines? Looking back on both it would have been easy to get discouraged and give up on Experimental Aviation. But I didn’t. They were lessons learned, continued honing of building skills, and foundations for future waypoints in aviation with much better experiences. I keep them filed in the “Diversions” category. 


BASE LEG AVIATION