Termination arrangement for use in a horizontal connection system

What is claimed is: 1. A termination arrangement for use in a horizontal connection system for subsea connection of a first tubular member to a second tubular member, wherein a hub at an end of the first tubular member is configured to engage a corresponding hub at an end of the second tubular member, the termination arrangement comprising: a base structure comprising: a tubular body which extends in a horizontal direction and has a front end facing the hub of the first tubular member and an opposite rear end, the first tubular member is rotatably mounted to the tubular body through an annular bearing provided at the front end of the tubular body; and a fluid chamber inside the tubular body and delimited at a front end by the annular bearing and at an opposite rear end by a rear end wall, the fluid chamber accommodating a liquid with a heat-storing capacity, wherein the first tubular member extends through a central opening in the rear end wall, and a section of the first tubular member extends through the fluid chamber from the rear end of said chamber to the front end thereof and is in contact with the liquid in the fluid chamber so as to allow the liquid to delay cooling of said section by transferring heat from the liquid to said section; and a ring-shaped or tubular insulating member comprised of open cell polymer foam mounted to a section of the first tubular member located outside the fluid chamber, wherein an inner edge of the insulating member is in contact with an envelope surface of the first tubular member and a lateral surface of the insulating member is in contact with the rear end wall, wherein the insulating member is fixed to the first tubular member and is in sliding contact with the tubular body. 2. A termination arrangement for use in a horizontal connection system for subsea connection of a first tubular member to a second tubular member, wherein a hub at an end of the first tubular member is configured to engage a corresponding hub at an end of the second tubular member, the termination arrangement comprising: a base structure comprising: a tubular body having a front end facing the hub of the first tubular member and an opposite rear end, the first tubular member is rotatably mounted to the tubular body through an annular bearing provided at the front end of the tubular body; and a fluid chamber inside the tubular body and delimited at a front end by the annular bearing and at an opposite rear end by a rear end wall, the fluid chamber accommodating a liquid with a heat-storing capacity, wherein the first tubular member extends through a central opening in the rear end wall, and a section of the first tubular member extends through the fluid chamber from the rear end of said chamber to the front end thereof and is in contact with the liquid in the fluid chamber so as to allow the liquid to delay cooling of said section by transferring heat from the liquid to said section; and a ring-shaped or tubular insulating member mounted to a section of the first tubular member located outside the fluid chamber, wherein an inner edge of the insulating member is in contact with an envelope surface of the first tubular member, a lateral surface of the insulating member is in contact with the rear end wall, and the insulating member is in sliding contact with the tubular body. 3. The termination arrangement according to claim 2 , wherein the ring-shaped member has the form of a ring-shaped disc. 4. The termination arrangement according to claim 2 , wherein at least a part of an outer surface of the tubular body is covered by a layer of thermally insulating material in order to thermally insulate this part of the tubular body from ambient sea water. 5. The termination arrangement according to claim 2 , wherein at least a part of an inner surface of the tubular body is covered by a layer of thermally insulating material. 6. The termination arrangement according to claim 2 , wherein an outer edge of the rear end wall is in sliding contact with an inner surface of the tubular body. 7. The termination arrangement according to claim 2 , wherein an inner edge of the rear end wall is in sliding contact with the envelope surface of the first tubular member. 8. The termination arrangement according to claim 2 , wherein a non-return valve is arranged in the tubular body, wherein this non-return valve is configured to prevent liquid from flowing out into the surroundings from the fluid chamber and to allow liquid to flow from the surroundings into the fluid chamber when the external liquid pressure acting on the tubular body exceeds the pressure in the fluid chamber. 9. The termination arrangement according to claim 2 , wherein the first tubular member is a pup piece. 10. The termination arrangement according to claim 2 , wherein the termination arrangement is a flowline termination. 11. The termination arrangement according to claim 2 , wherein the insulating member is comprised of open cell polymer foam. 12. A termination arrangement for use in a horizontal connection system for subsea connection of a first tubular member to a second tubular member, wherein a hub at an end of the first tubular member is configured to engage a corresponding hub at an end of the second tubular member, the termination arrangement comprising: a base structure comprising: a tubular body having a front end facing the hub of the first tubular member and an opposite rear end, the first tubular member is rotatably mounted to the tubular body through an annular bearing provided at the front end of the tubular body; and a fluid chamber inside the tubular body and delimited at a front end by the annular bearing and at an opposite rear end by a rear end wall, the fluid chamber accommodating a liquid with a heat-storing capacity, wherein the first tubular member extends through a central opening in the rear end wall, and a section of the first tubular member extends through the fluid chamber from the rear end of said chamber to the front end thereof and is in contact with the liquid in the fluid chamber so as to allow the liquid to delay cooling of said section by transferring heat from the liquid to said section; and a ring-shaped or tubular insulating member mounted to a section of the first tubular member located outside the fluid chamber, wherein an inner edge of the insulating member is in contact with an envelope surface of the first tubular member, a lateral surface of the insulating member is in contact with the rear end wall, and the insulating member is in sliding contact with a ring of low friction material mounted to the rear edge of the tubular body. 13. The termination arrangement according to claim 12 , wherein the insulating member is comprised of open cell polymer foam.