Arc welding method and arc welding arrangement with first and second electrodes

What is claimed is: 1. An arc welding arrangement comprising: a first power source, a first wire feeder for feeding a first electrode, a second wire feeder for feeding a second electrode, an electric arc welding head comprising: a first contact device housing a first duct for guiding the first electrode and providing electrical contact between the first power source and the first electrode, and a second contact device housing a second duct for guiding the second electrode and providing electrical power to the second electrode, the first and second contact devices being electrically insulated from each other, the first electrode being adapted to act on a work piece for generating a weld pool via a first electric arc formed between the first electrode and the work piece within a first arc region and the second electrode being adapted to act on the work piece for generating the weld pool via a second electric arc formed between the second electrode and the work piece within a second arc region, wherein the first electrode is adapted to be operated at welding parameters adapted to maintain the first electric arc ignited and transfer molten electrode material from the first electrode to the weld pool; wherein the second electrode is adapted to be operated at welding parameters adapted to ensure that excess energy from at least the first electrode is required to maintain the second electric arc ignited and transfer molten electrode material from the second electrode to the weld pool; and wherein the first and second ducts are arranged such that the second electrode is allowed to consume excess energy from the first electrode to ignite and maintain the second electric arc ignited and transfer molten electrode material from the second electrode to the weld pool. 2. The arc welding arrangement of claim 1 , wherein the first and second electrodes are both powered by the first power source. 3. The arc welding arrangement of claim 1 , wherein the first and second electrodes are powered by different power sources. 4. The arc welding arrangement of claim 1 , wherein the arc welding head comprises: a third contact device housing a third duct for guiding a third electrode and for providing electrical power to the third electrode, the third electrode adapted to act on the work piece for generating the weld pool via a third electric arc formed between the third electrode and the work piece within a third arc region, wherein the first and third ducts are arranged to allow the first and third arc regions to form an overlapping region, wherein the third electrode is operated at welding parameters which maintain the third electric arc ignited and transfer molten metal from the third electrode to the weld pool, and wherein the second duct is arranged to allow the second electrode to consume excess energy from the first and third electrodes to ignite and maintain the second electric arc ignited and transfer molten electrode material from the second electrode to the weld pool. 5. The arc welding arrangement of claim 4 , wherein the first and third electrodes are both powered by the first power source. 6. The arc welding arrangement of claim 4 , wherein the first and third electrodes are powered by different power sources. 7. The arc welding arrangement of claim 1 , wherein the first electrode is a hot wire electrode and the second electrode is a semi-hot wire electrode. 8. The arc welding arrangement of claim 1 , wherein the first and second ducts are arranged so that the second electrode is fed into the first arc region. 9. An arc welding head comprising: a first contact device housing a first duct for guiding a first electrode and providing electrical contact between a first power source and the first electrode, the first electrode being adapted to act on a work piece for generating a weld pool via a first electric arc formed between the first electrode and the work piece within a first arc region; a second contact device electrically insulated from the first contact device and housing a second duct for guiding a second electrode and providing electrical power to the second electrode, the second electrode being adapted to act on the work piece for generating the weld pool via a second electric arc formed between the second electrode and the work piece within a second arc region, wherein the first electrode is adapted to be operated at welding parameters adapted to maintain the first electric arc ignited and transfer molten electrode material from the first electrode to the weld pool; wherein the second electrode is adapted to be operated at welding parameters adapted to ensure that excess energy from at least the first electrode is required to maintain the second electric arc ignited and transfer molten electrode material from the second electrode to the weld pool; and wherein the first and second ducts are arranged such that the second electrode is allowed to consume excess energy from the first electrode to ignite and maintain the second electric arc ignited and transfer molten electrode material from the second electrode to the weld pool. 10. The arc welding head of claim 9 , wherein the first and second electrodes are both powered by the first power source. 11. The arc welding head of claim 9 , wherein the first and second electrodes are powered by different power sources. 12. The arc welding head of claim 9 , further comprising: a third contact device housing a third duct for guiding a third electrode and for providing electrical power to the third electrode, the third electrode adapted to act on the work piece for generating the weld pool via a third electric arc formed between the third electrode and the work piece within a third arc region, wherein the first and third ducts are arranged to allow the first and third arc regions to form an overlapping region, wherein the third electrode is operated at welding parameters which maintain the third electric arc ignited and transfer molten metal from the third electrode to the weld pool, and wherein the second duct is arranged to allow the second electrode to consume excess energy from the first and third electrodes to ignite and maintain the second electric arc ignited and transfer molten electrode material from the second electrode to the weld pool. 13. The arc welding head of claim 12 , wherein the first and third electrodes are both powered by the first power source. 14. The arc welding arrangement of claim 4 , wherein the first and third electrodes are powered by different power sources. 15. The arc welding head of claim 9 , wherein the first electrode is a hot wire electrode and the second electrode is a semi-hot wire electrode. 16. The arc welding head of claim 9 , wherein the first and second ducts are further arranged so that the second electrode is fed into the first arc region.