You have a couple of conceptual problems in your code. I agree with @itsbruce, it's simpler to point you in the way of a correct solution than to fix each of the errors found in the question.

First of all, notice that the procedure can be written in terms of existing higher-order functions: `foldr`

for accumulating the values and `build-list`

for creating the range of values:

```
(define (accumulate-interval op init lower upper)
(foldr op init
(build-list (add1 (- upper lower))
(lambda (x) (+ lower x)))))
```

Alternatively, in Racket you can use `for/list`

for creating the range of values:

```
(define (accumulate-interval op init lower upper)
(foldr op init
(for/list ([n (in-range lower (add1 upper))]) n)))
```

If the solution needs to be written from scratch (that's probably the case), it's a good idea to split the problem in parts. First, generate the range of numbers:

```
(define (range lower upper)
(if (> lower upper)
'()
(cons lower
(range (add1 lower) upper))))
```

Now, accumulate the values:

```
(define (accumulate op init lst)
(if (null? lst)
init
(op (car lst)
(accumulate op init (cdr lst)))))
```

Finally, combine the two previous helper procedures into a solution to the problem. Notice that in the first two solutions we did exactly the same problem decomposition (first: generate range; second: accumulate; third: combine), the only difference is that here we wrote the helper procedures by hand instead of using already existing procedures:

```
(define (accumulate-interval op init lower upper)
(accumulate op init
(range lower upper)))
```

Of course, you could merge all the procedures in one as in your solution - it's more efficient, because it doesn't create an intermediate list of numbers:

```
(define (accumulate-interval op init lower upper)
(if (> lower upper)
init
(op lower
(accumulate-interval op init (add1 lower) upper))))
```

...But doing so produces a tailor-made solution for just one particular problem, instead of a set of composable procedures useful in other contexts. In functional programming style, it's preferred to define generic, reusable functions.

Anyway, this works as expected:

```
(accumulate-interval + 0 2 4)
> 9
(accumulate-interval * 1 2 5)
> 120
```