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Controlled Autoignition (CAI) combustion processes can be broadly divided between a CAI process that is applied to four-stroke engines and a CAI process that is applied to two-stroke engines. The former process is generally referred to as Homogeneous Charge Compression Ignition (HCCI) combustion and the later process as Active Thermo-Atmosphere Combustion (ATAC). The region of stable engine operation differs greatly between these two processes, and it is thought that the elucidation of their differences and similarities could provide useful information for expanding the operation region of HCCI combustion. In this research, the same two-stroke engine was operated under both the ATAC and HCCI combustion processes to compare their respective combustion characteristics. The results indicated that the ignition timing was less likely to change in the ATAC process in relation to changes in the fuel octane number than it was in the HCCI combustion process.

Since the intake and exhaust valve timings that provide the best fuel economy, idle stability, or highest power change according to the engine operating zone, a variable valve timing system is very beneficial. Also, roller followers, which reduce mechanical friction loss of a valve train mainly at low engine speed, are commonly used to improve fuel economy in urban driving conditions. This paper presents a newly developed 4-valve variable-valve-timing mechanism with roller followers. Different intake- and exhaust-valve timings and lifts are selected independently, depending upon whether engine speed is low or high. Durability tests of running at maximum engine speed and switching between low- and high-speed cams were conducted and good test results were obtained.

For the 1990 model year Fuji Heavy Industries will introduce Subaru “Legacy” with a newly designed horizontally opposed 4-valve engine series including a 2.2 Lt for the US market. The new engine series which has been named “Boxer” to symbolize power has been designed and developed making the best use of the advantages of horizontally opposed engines and our twenty three years experience in producing them. The major advantages of horizontally opposed engines are low noise and vibration, with high specific power and design flexibility which are well featured in these new engines. This paper is intended to provide a brief overview of the new engine program with descriptions of unique design features.