This is not quite my field, I came by this question by accident, so I may be off, but I'd take a look at Wolfram Mathematica. It is a technical computing environment and multi-paradigm (proprietary) programming language, supporting many programming styles (including rule-based and functional programming). It has a very general rule engine at its core. Despite the name and reputation as mathematical software (which it is), it is a general-purpose programming language, very high-level. A subset of it can be compiled to C. It can load external dlls dynamically, and it transparently inter-operates with both Java and .Net platforms. It has a web version - webMathematica (which is based on Java however, jsp+Tomcat, but no one stops you from interfacing it with your .Net - based web layer directly, just some more work). The additional benefit is that, if you ever need any mathematical computations, analysis, plots, statistics, it's all there, and state of the art.
I'd think it should be much faster to develop the functionality you need in Mathematica than in many other languages / solutions (I program professionally in Mathematica, C, Java and Javascript, so can at least compare these languages). The full commercial license should be 2 or 3 K for a single machine (4 cores), I think. It has several parallelization features. The hardest thing in this approach would be to find a competent Mathematica programmer, but someone with a background in functional/rule-based programming (LISP / Prolog, say) should be able to pick up things fairly quickly. Also, it may not be sufficiently fast if you need very high performance - I really don't know how it compares in terms of performance with other rule engines. On occasion, I had a chance to compare in Mathematica a rule-based solution for some problem to the one compiled to C, and I'd say well written rule-based code should be on the level of Python in terms of performance, and on the average perhaps one order of magnitude or so slower than the one compiled to C. But that was mostly for numerical/computational or data-manipulation-related problems, so I'd think for problems inherently based on rules, the performance gap could be smaller.
One thing I am sure about is that in Mathematica you can create sets of rules of any generality and complexity fairly easily with a small amount of code. It is a best tool for exploratory programming based on rules that I encountered so far, with a very short development cycle. I invite you to visit the Mathematica tag here at SO to see what types of problems people are solving with it. For one prominent project written entirely in Mathematica language (15 millions lines of code), check out WolframAlpha knowledge engine.