Generally with this type of problem (1 receiver & multiple transmitter antenna elements, or 1 transmitter and multiple receive antenna elements), you take one of the paths and call that your reference. The total phase shift through that path is many multiples of 360 deg, because the path is longer than one wavelength. But by making that path your reference youryou're saying "I don't care what the total phase shift is, I'm going to assume it's zero". We'll call that path Path 0.
Now you only have to be concerned with the relative phase differences between Path 0 and the other paths, Path 1, Path 2, ... Path n. All you have to do is do is compute the complex sum of the signals through all the paths. Need to keep in mind the effects of modulo 360 phase differences because, for example, a phase shift of 360 deg looks exactly the same as a phase shift of 0 deg.
To get the total signal strength, you need to know the radiated power level from each transmitter (antenna element), the shape of the radiated beam and/or is directivity, the distance (since the power, measured in dBm, falls off with the square of the distance), any path attenuation, and the effective area of the receiving antenna element. Using the Friis equation you mentioned for each path, you can calculate the power at each element, which is summed in a complex fashion as discussed above.