In this case it is important to distinguish between
IEnumerable<T>. In short
IQueryable<T> is processed by a LINQ provider to deliver an optimized query. During this transformation not all C# statements are supported, as it either is not possible to translate them to a back-end specific query (e.g. SQL) or because the implementer did not foresee the need for the statement.
IEnumerable<T> is executed against the concrete objects and, therefore, will not be transformed. So, it is quite common that constructs, which are useable with
IEnumerable<T>, cannot be used with
IQueryable<T> and also that
IQueryables<T> backed by different LINQ providers do not support the same set of functions.
However, there are some workarounds (like Phil's answer), which modify the query. Also, as a more general approach it is possible to drop back to an
IEnumerable<T> before continuing with the specification of the query. This, however, might have a performance hit - especially when using it on restrictions (e.g. where clauses). In contrast, when dealing with transformations the performance hit is a lot smaller, sometimes even non existent - depending on your query.
So the above code could also be rewritten like this:
b => b.TarrifId == tariffId && b.Diameter == diameter
|| (b.TarrifId==tariffId && !string.IsNullOrWhiteSpace(b.Diameter))
||(!b.TarrifId.HasValue) && b.Diameter==diameter
NOTE: Ths code will have an higher performance impact than Phil's answer. However, it shows the principle.