Gasification system flow damping

The invention claimed is: 1. A gasification system component comprising: a pool of cooling fluid; a vessel configured to retain the pool of a cooling fluid; a dip tube disposed in the vessel to direct another fluid towards the pool; a draft tube encircling the dip tube to form an inner chamber between the dip tube and the draft tube and an outer chamber between the draft tube and the vessel walls; and a flow damping mechanism comprising: a first annular ring disposed contiguous to the vessel; and a second annular ring disposed contiguous to the draft tube, wherein the first and second annular rings are configured to form a tortuous flow path for the cooling fluid through the outer chamber to dampen flow of the cooling fluid, or the another fluid, or both within the gasification system component, and wherein a level of the cooling fluid in the pool is high enough that the first and second annular rings extend below the surface of the pool. 2. The gasification system component of claim 1 , wherein the gasification system component comprises a quench unit or a scrubber. 3. The gasification system component of claim 1 , wherein the first annular ring is situated above the second annular ring, and wherein the damping mechanism further comprises a third annular ring disposed continugous to the vessel and situated below the second annular ring. 4. The gasification system component of claim 1 , wherein the first annular ring and the second annular ring are angled towards the lower section. 5. A gasification system component, comprising: a pool of cooling fluid; a vessel configured to retain the pool of a cooling fluid; a dip tube disposed in the vessel to direct another fluid towards the pool and to create an annular chamber between the dip tube and walls of the vessel; and a flow damping mechanism comprising: a first annular ring disposed contiguous to the vessel; and a second annular ring disposed contiguous to the dip tube, wherein the first and second annular rings are configured to form a tortuous flow path for the cooling fluid through the outer chamber to dampen flow of the cooling fluid, or the another fluid, or both within the gasification system component, and wherein a level of the cooling fluid in the pool is high enough that the first and second annular rings extend below the surface of the pool. 6. The gasification system component of claim 5 , wherein the first annular ring is situated above the second annular ring, and wherein the damping mechanism further comprises a third annular ring disposed continugous to the vessel and situated below the second annular ring. 7. The gasification system component of claim 5 , wherein first annular ring and the second annular ring are angled towards the lower section.