You should really implement your own cache. You need a two layer cache: one for full-size images and one for thumb images.
For the full-size images, your cache shall hold N*C + 2*C images at max, where N is the number of visible rows and C is the number of visible columns - assuming one can scroll only rows.
For a table view with 1 column, let the number of visible rows be 10. Then, the maximum number of full-size images becomes 12.
For a table view with 1 column and 10 visible rows, your cache must hold the images for rows in range [LB-1 .. UB+1], where LB is the lower bound index and UB is the current upper bound index of the visible rows.
(Note: if the images are small, you may widen the range carefully!)
You need to evict and load the images as the user scrolls. Switching the current visible range of row-indices happens when half a row hight has been scrolled.
When a load of an image is required, this image will not be visible yet: assuming the user scrolls in one direction, it's still half a row hight away from becoming visible. You need to utilize this short time frame to properly prepare the image so that it can be rendered quickly (actually create the bitmap).
You also need a second image cache for the thumbs. This is equally designed, it just has a larger range for load ahead, say [LB-10 .. UB+10], or even much more.
Your methods shall be asynchronous and employ the lazy initialization pattern:
When you have to draw an image, check whether the full-size is already available. If yes, draw it, otherwise load it asynchronously and check if the thumb image is already available, if yes draw it, otherwise load it asynchronously and draw a static placeholder. Your loading methods shall run asynchronous!
When a load finished, check if the cell is visible and update the image. The thumb image may override the placeholder image, and the full-size image may override both. Otherwise, not.
As an optimization, disable loading of the full-sized images when the user scrolls "fast". You need to empirically figure out what "fast" is.