```
a = [{"b"=>123,"c"=>456}, {"b"=>456,"c"=>555}]
b = [{"c"=>456,"d"=>789}, {"b"=>222,"c"=>444}]
def merge_hashes_with_equal_values(array_of_hashes, key)
array_of_hashes.sort { |a,b| a[key] <=> b[key] }.
chunk { |h| h[key] }.
each_with_object([]) { |h, result| result << h.last.inject(&:merge) }
end
p merge_hashes_with_equal_values(a + b, 'c')
# => [{"b"=>222, "c"=>444}, {"c"=>456, "d"=>789, "b"=>123}, {"b"=>456, "c"=>555}]
```

Concatenate the arrays first, and pass it to the method with the hash key to combine on. Sorting that array then places the hashes to merge next to each other in another array, which makes merging a bit easier to program for. Here I chose #chunk to handle detection of continuous runs of hashes with equal keys to merge, and #each_with_object to compile the final array.

Since this method takes one array to work on, the length of the starting arrays does not need to be equal, and the ordering of those arrays does not matter. A downside is that the keys to operate on must contain a sortable value (no nils, for example).

Here is yet another approach to the problem, this one using a hash to build the result:

```
def merge_hashes_with_equal_values(array_of_hashes, key)
result = Hash.new { |h,k| h[k] = {} }
remainder = []
array_of_hashes.each_with_object(result) do |h, answer|
if h.has_key?(key)
answer[h.fetch(key)].merge!(h)
else
remainder << h
end
end.values + remainder
end
```