Tubular fiber membrane for material exchange and method of making same

The invention claimed is: 1. A method of making an apparatus for exchanging substances between first and second mediums, the method comprising the steps of: winding a mat of semipermeable fiber tubes on an outer winding core that has an outer core opening for inflow or outflow of the first medium, fitting the outer winding core with the mat in an axially extending housing for flow of the first medium into or out of a port of the axially extending housing surrounding the outer winding core and having axially opposite ends, axially displacing the outer winding core relative to the fiber tubes around the outer winding core and relative to the housing to adjust an axial spacing between the outer winding core opening and the port to a desired value from several possible values, bonding with a sealing adhesive at the axial ends of the housing the tubes to the outer winding core, to one another, and to the housing, and thereby forming a chamber containing the tubes and through which the first medium can flow between the outer winding core opening and the port and for flow of the second medium through the tubes between the axial ends of the housing for substance exchange between the first and second mediums, sealing an end of the housing close to the port such that the fiber tubes are sealed with adhesive in an area between one of the axial ends of the housing and the port, and sealing and bonding the fiber tubes to another end of the housing close to the outer core opening in an area between an axial end face of the housing and the outer core opening axially up to the outer core opening. 2. The method according to claim 1 , further comprising: an inner winding core nested in the outer winding core and having an inner core opening for the medium flowing in or out, the fiber tubes extending between the inner and outer winding cores such that axial displacement of at least the outer winding core sets an axial spacing between the inner and outer core openings to a desired value from several possible values. 3. The method according to claim 1 , wherein the outer winding core has an axial length that is greater than an axial length of the housing and after movement to adjust an axial position of the outer core opening that projects at least at one end past the axial end face of the housing, the method further comprising the step of, after sealing, cutting off excess of the outer winding core near the axial end face and an axial housing end cap, the projecting part extending past and being connected to the axial end of the housing, and/or fitting an axial housing end cap formed with a hole over the projecting part and sealing same with one of the axial ends of the housing. 4. The method according to claim 1 , further comprising the steps of: closing the axial ends of the housing by identical axial housing end caps. 5. The method according to claim 4 , wherein the identical housing end caps each have a hole, one of the end caps with the respective hole being fitted over a projecting part of the outer winding core and the hole in the other end cap being plugged with a closure element. 6. The method according to claim 1 , comprising the step of: using a set of the housings and a set of the outer winding cores for creating different displacements of the outer winding cores and thus several different set positions of the outer core openings for adjusting mass transfer between the first and second mediums across mass transfer surfaces of different sizes.