Three cylinder development The Kawasaki engineers approached the N100 Plan in two ways. (1) Use an existing, tried and true
Kawasaki A7 350 "Avenger", a 350 cc
parallel twin-cylinder,
rotary-disc engine, bored out to 500 cc or (2) develop an entirely new engineering layout, building an inline
3-cylinder, or create a new and groundbreaking "L-triple" design. All of these engines would be
two-stroke and
air-cooled. The development team decided to utilize both twin-cylinder and triple-cylinder engines together as test engines. The largest concern was development of the 3-cylinder design and whether it would be an inline or a new "L-triple". The concern over the 3-cylinder design was cooling cylinder #2, the middle cylinder in either application.
Osaka University's laboratory belonging to the Faculty of Engineering performed a number of tests on cooling of the engine as a whole, optimum length of cooling fins, and optimum cylinder pitch. It was determined that an inline configuration would not impair cooling.
Two-cylinder development While testing the 3-cylinder, Kawasaki also went forward with the development and testing of its current two-stroke twin-cylinder rotary disc valve engine. The preliminary test results pointed to a very promising outcome. One possible advancement in the twin over the triple was keeping the rotary disc valve fuel/air intake which produced more horsepower than the conventional piston port or reed valve approach, which had been the case in other Kawasakis. The Kawasaki technical team at the end decided on a conventional
piston inlet port engine, with three inline cylinders. ==Road testing==