You can use OpenCV to develop an algorithm that will fit your needs. When researching to find a solution for your problem, I realized that the problem of "color balance could be solved with a lot of different way.
I choose to show you how to code a very simple algorithm that will not completely re-create the "perfect" picture that you get with photoshop but something better than the original. You can then search for these topic in openCV on google and try different approach. To code this, I have use the new OpenCV NuGet package, that you can get here. Just add the binary from openCV in your output directory (debug folder) and you are up and running!
Then here is the code:
NamedWindow windowsOriginal = new NamedWindow("Original");
NamedWindow windowsModified = new NamedWindow("Modified");
IplImage img = OpenCV.Net.CV.LoadImage(@"D:\hZpWG.jpg", LoadImageFlags.Color);
IplImage imgDest = equalizeIntensity(img);
IplImage equalizeIntensity(IplImage inputImage)
if(inputImage.Channels >= 3)
IplImage ycrcb = new IplImage(inputImage.Size, inputImage.Depth, inputImage.Channels);
OpenCV.Net.CV.CvtColor(inputImage, ycrcb, ColorConversion.Bgr2YCrCb);
IplImage Y = new IplImage(ycrcb.Size, IplDepth.U8, 1);
IplImage Cr = new IplImage(ycrcb.Size, IplDepth.U8, 1);
IplImage Cb = new IplImage(ycrcb.Size, IplDepth.U8, 1);
OpenCV.Net.CV.Split(ycrcb, Y, Cr, Cb, null);
IplImage result = new IplImage(inputImage.Size, IplDepth.U8, inputImage.Channels);
OpenCV.Net.CV.Merge(Y, Cr, Cb, null, ycrcb);
OpenCV.Net.CV.CvtColor(ycrcb, result, ColorConversion.YCrCb2Bgr);
I put it in a form but you can use it in a console application too.
Here is the result
Hope it helps!