Unfortunately, it is very hard to convince the compiler about specific T implementations. One (nasty) approach is to cast to object in the middle (note this will box and unbox value-types):
int i = (int)(object)this.value;
this.value = (T)(object)i;
Ugly but it works. In .NET 3.5 I have some better wrappers for generic arithmetic, here. The Operator class is part of MiscUtil; at the simplest level, I suspect AddAlternative would work very well:
this.value = Operator.AddAlternative(this.value, 1);
This should infer the implicit <T,int> automatically, or you can add them yourself:
this.value = Operator.AddAlternative<T,int>(this.value, 1);
Benefit: This is preferable to the original code as it doesn't actually care about the original T - it will work for any type (even your own) that supports "T +(T,int)".
I think there is also a ChangeType hiding around somewhere in there...
 Collin K and others make a valid remark about the architectural implications - but being pragmatic there are times when the T really does matter that much... but I'd agree with avoiding this type of specialization unless really necessary. That said (as per my comment on Collin's post), the ability to perform things like basic arithmetic (increment, Int32 division, etc) on (for example) a Matrix<T> [for T in decimal/float/int/double/etc] is often highly valuable.