Gas-fed fermentation reactors, systems and processes utilizing gas/liquid separation vessels

The invention claimed is: 1. A process for stimulating production of biomass comprising: flowing through a loop section of a loop reactor, a multi-phase mixture of a gas and a liquid culture medium; introducing a nutrient into the multi-phase mixture; separating the multi-phase mixture of a gas and a liquid culture medium into a gas phase and a liquid phase in a gas/liquid separation vessel of the loop reactor by: flowing the multi-phase mixture of a gas and a liquid culture medium into a lower portion of the gas/liquid separation vessel through an inlet side section of the gas/liquid separation vessel, the inlet side section of the gas/liquid separation vessel having a shape of an oblique conical frustum, including a lowermost edge and having an increasing diameter in a direction of flow of the multi-phase mixture through the inlet side section; and flowing the multi-phase mixture through an intermediate section located between an outlet side section of the gas/liquid separation vessel and the inlet side section of the gas/liquid separation vessel, the intermediate section having a constant diameter and including a lowermost edge, the lowermost edge of the inlet side section and the lowermost edge of the intermediate section contacting a common plane; and removing the liquid phase from an outlet of the gas/liquid separation vessel and delivering the removed liquid phase to an inlet of the loop section. 2. The process of claim 1 , wherein delivering the removed liquid phase to the inlet of the loop section includes flowing the removed liquid phase through a conduit of non-increasing diameter. 3. The process of claim 1 , wherein the nutrients include a C 1 compound. 4. The process of claim 3 , wherein the C 1 compound is methane. 5. The process of claim 1 , further comprising flowing the multi-phase mixture of a gas and a liquid culture medium through a substantially vertical downflow zone before flowing the multi-phase mixture through the loop section of a loop reactor. 6. The process of claim 1 , further comprising flowing the multi-phase mixture of a gas and a liquid culture medium through a substantially vertical upflow zone after flowing the multi-phase mixture through the loop section of a loop reactor. 7. The process of claim 1 , wherein a lowermost edge of the intermediate section, the outlet side section and the inlet side section of the gas/liquid separation vessel contact a common plane. 8. The process of claim 1 , wherein flowing the multi-phase mixture of a gas and a liquid culture medium into a lower portion of the gas/liquid separation vessel through an inlet side section of the gas/liquid separation vessel having a shape of an oblique conical frustum includes flowing the multi-phase mixture of a gas and a liquid culture medium through an inlet side section of the gas/liquid separation vessel having a shape of an oblique conical frustum including a cone angle that ranges between 5 to 30°. 9. A process for stimulating production of biomass comprising: flowing through a loop section of a loop reactor, a multi-phase mixture of a gas and a liquid culture medium; introducing a nutrient into the multi-phase mixture; separating, in a gas/liquid separation vessel having a longitudinal axis and that is an element of the loop reactor, the multi-phase mixture of a gas and a liquid culture medium into a gas phase and a liquid phase by: flowing the multi-phase mixture of a gas and a liquid culture medium into a lower portion of the gas/liquid separation vessel through an inlet side section of the gas/liquid separation vessel, the inlet side section of the gas/liquid separation vessel having a length L a measured along the longitudinal axis of the gas/liquid separation vessel, a shape of an oblique conical frustum and an increasing diameter in a direction of flow of the multi-phase mixture through the inlet side section; and flowing the multi-phase mixture through an intermediate section located between an outlet side section of the gas/liquid separation vessel and the inlet side section of the gas/liquid separation vessel, the intermediate section having a constant diameter and a length L i measured along the longitudinal axis of the gas/liquid separation vessel, L a being greater than L i ; and removing the liquid phase from an outlet of the gas/liquid separation vessel and delivering the removed liquid phase to an inlet of the loop section. 10. A process for stimulating production of biomass comprising: flowing through a substantially horizontal section of a loop reactor, a multi-phase mixture of a gas and a liquid culture medium; introducing a nutrient into the multi-phase mixture; separating the multi-phase mixture of a gas and a liquid culture medium into a gas phase and a liquid phase in a gas/liquid separation vessel of the loop reactor by: flowing the multi-phase mixture of a gas and a liquid culture medium into a lower portion of the gas/liquid separation vessel through an inlet side section of the gas/liquid separation vessel, the inlet side section of the gas/liquid separation vessel having a lowermost edge, a shape of an oblique conical frustum and an increasing diameter in a direction of flow of the multi-phase mixture through the inlet side section; and flowing the multi-phase mixture through an intermediate section located between an outlet side section of the gas/liquid separation vessel and the inlet side section of the gas/liquid separation vessel, the outlet side section including a lowermost edge and the intermediate section having a constant diameter and a lowermost edge, the lowermost edge of the intermediate section, the lowermost edge of the outlet side section and the lowermost edge of the inlet side section contacting a common plane; and removing the liquid phase from an outlet of the gas/liquid separation vessel and delivering the removed liquid phase to an inlet of the substantially horizontal section. 11. The process of claim 10 , wherein delivering the removed liquid phase to the inlet of the loop section includes flowing the removed liquid phase through a conduit of non-increasing diameter. 12. The process of claim 10 , wherein flowing the multi-phase mixture of a gas and a liquid culture medium into a lower portion of the gas/liquid separation vessel through the inlet side section of the gas/liquid separation vessel having a shape of an oblique conical frustum includes flowing the multi-phase mixture of a gas and a liquid culture medium through the inlet side section of the gas liquid separation vessel having a shape of an oblique conical frustum including a cone angle that ranges between 5 to 30°. 13. The process of claim 10 , wherein the gas/liquid separation vessel has a longitudinal axis and the inlet side section has a length L a measured along the longitudinal axis of the gas/liquid separation vessel that is greater than a length L i of the intermediate section measured along the longitudinal axis of the gas/liquid separation vessel. 14. The process of claim 13 , wherein the ratio of L a /L i is between 0.08 to 0.2. 15. The process of claim 13 , wherein length L i of the intermediate section is between 2 to 8 meters. 16. The process of claim 10 , wherein the flowing the multi-phase mixture through the intermediate section includes flowing the multi-phase mixture through the intermediate section and the intermediate section has a diameter D that is between 2 to 8 meters. 17. The process of claim 10 , further comprising flowing the multi-phase mixture of a gas and a liquid culture medium through a substantially vertical upf