I try to answer your questions:
(1)Basically speaking, your thoughts are correct. But the page cache implementation is complicated in Linux Kernel. The Linux Kernel uses LRU(Least Recently Used) algorithm to manage the page cache lists. There may be different memory zones in one Linux system, each zone maintains several LRU list, such as LRU_INACTIVE_ANON, LRU_ACTIVE_ANON(these two lists are for anonymous page caches), LRU_INACTIVE_FILE , LRU_ACTIVE_FILE(these two lists are for file page caches), LRU_UNEVICTABLE. These lists are maintained using LRU algorithm(added to the tail, remove from the head). And pages are transited between active list and inactive list according to the access frequency. Pages are added to the active list tail only when the page is accessed and it is residing in the inactive list. And if the active list becomes too larger, the pages which at the head of the active list will be moved to the inactive list tail. The page reclaiming happen on the inactive list, start from the head of the inactive list.
(2) Regular files read/write, block deivce files access, and memory-mapped files can all trigger Linux Kernel to generate the page caches, active or inactive. Also the malloc used in user-space process and user-space stack can trigger Linux Kernel to generate the page caches.
(3) Maybe I misunderstand your question, I guess you mean difference between buffer cache and page cache: Older version kernel use both buffer cache and page cache. Page cache are for file accesses(such as regular file accesses, memory-map file, block device file accesses), and buffer cache are for physical disk blocks accesses(normally the size of the physical disk block is less than one page, so several physical disk blocks can fill into one page). Although new version kernel is still using the buffer cache concept, new kernel implements the buffer cache based on page cache.
Or you mean difference between memory buffer and cpu cache, if so, the memory buffer is to speed up the disk/peripheral accesses, and the cpu cache is to speed up the memory accesses.