Method and apparatus for handling oil and gas well drilling fluids
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F17D-001/00
F17D-001/08
B65D-025/00
E21B-021/01
출원번호
US-0490409
(2012-06-06)
등록번호
US-9027596
(2015-05-12)
발명자
/ 주소
Ness, Daniel W.
Bartlett, Robert
출원인 / 주소
Ness, Daniel W.
대리인 / 주소
Garvey, Smith, Nehrbass & North, L.L.C.
인용정보
피인용 횟수 :
5인용 특허 :
12
초록▼
A fluids management apparatus is disclosed herein that enables management of multiple volumes of different fluids when drilling and/or producing oil and/or gas with an oil and gas well drilling platform. The apparatus includes a structural, transportable frame that has upper and lower reservoir sect
A fluids management apparatus is disclosed herein that enables management of multiple volumes of different fluids when drilling and/or producing oil and/or gas with an oil and gas well drilling platform. The apparatus includes a structural, transportable frame that has upper and lower reservoir sections, each with a plurality of tanks for holding fluid. The upper reservoir section is easily lifted and transported, such as by crane. A docking station on the lower reservoir section is receptive of the upper reservoir section. A piping system enables a selected fluid volume contained in a tank of the upper reservoir section to be selectively transmitted to a selected tank of the lower reservoir section. The lower reservoir section has its own piping system that enables a user to withdraw fluid from any selected one of its tanks.
대표청구항▼
1. A fluids management apparatus for managing multiple, different fluids on an oil and gas well drilling platform, comprising: a) a structural, transportable frame that has upper and lower end portions, a plurality of side walls, a plurality of corners, a base, and an upper panel;b) a reservoir sect
1. A fluids management apparatus for managing multiple, different fluids on an oil and gas well drilling platform, comprising: a) a structural, transportable frame that has upper and lower end portions, a plurality of side walls, a plurality of corners, a base, and an upper panel;b) a reservoir section on the frame having a plurality of storage reservoirs for holding multiple, separate fluids, one separate fluid in each reservoir;c) a plurality of flow outlets for discharging a selected fluid from a selected reservoir;d) a docking station on the frame above the reservoir section, each station configured to receive a tank having a fluid holding interior that connects to a selected reservoir, the docking station having multiple spaced apart feet;e) piping that enables a selected of the tanks to transfer its contents to a selected of the storage reservoirs;f) each side wall having an outer surface with multiple spaced apart vertical beams and multiple spaced apart horizontal beams connected to said outer surface, each vertical beam having a web, each horizontal beam connecting to a said vertical beam at said web;g) each storage reservoir having a side that is a part of a said side wall, said plurality of storage reservoirs separated by a plurality of transverse sides, and an internal longitudinal wall;h) a reservoir panel that extends a partial distance but not completely across a said storage reservoir;i) a plurality of lifting eyes attached to the frame, at least a pair of said horizontal beams attaching to each said lifting eye;j) each vertical beam having a said web attached to a said side wall and a flange attached to said web;k) a load transfer interface that enables load transfer from the docking station to the frame, said interface including a load transfer plate at a top of each vertical beam, said load transfer plate attached to both a said web and a said flange of a said vertical beam; andl) wherein each foot of the docking station rests upon a said load transfer plate. 2. The fluids management apparatus of claim 1 wherein each reservoir beam attaches to a transverse wall. 3. The fluids management apparatus of claim 1 wherein there are between 4 and 6 storage reservoirs. 4. The fluids management apparatus of claim 1 wherein at least one of the storage reservoirs is smaller than another of the storage reservoirs. 5. The fluids management apparatus of claim 1 wherein one of the storage reservoirs extends from one side wall to another side wall. 6. The fluids management apparatus of claim 1 wherein the frame has multiple lifting eyes that attach to a side wall and said upper panel. 7. The fluids management apparatus of claim 6 wherein each lifting eye is connected to a horizontal beam. 8. The fluids management apparatus of claim 7 wherein each lifting eye is in the form of a plate that forms an acute angle with a side wall. 9. The fluids management apparatus of claim 8 wherein each lifting eye is spaced in between a corner and another lifting eye. 10. The fluids management apparatus of claim 1 wherein each tank support is mounted upon a said vertical beam. 11. The fluids management apparatus of claim 10 wherein said plate forming a load transfer location for a said tank. 12. A fluids management apparatus for managing multiple, different fluids in an oil and gas well drilling platform, comprising: a) a structural, transportable frame;b) a lower tank section on the frame having a plurality of interval storage tanks for holding multiple, separate fluids, said interval storage tanks surrounded by external side walls and end walls;c) a plurality of flow outlets for discharging a selected fluid from a selected interval storage tank;d) an upper tank section that comprises one or more transportable, crane liftable tanks;e) a docking station on the frame above the lower tank section that is configured to receive the upper tank section, the docking station having multiple spaced apart feet, the upper tank section having a plurality of supply tanks;f) piping that enables a selected of the supply tanks to transfer its contents to a selected of the interval storage tanks;g) a plurality of horizontal stiffeners and a plurality of vertical beams each having a web, said stiffeners and beams mounted on said lower tank section, the horizontal stiffeners and vertical beams intersecting wherein a horizontal stiffner connects the web of a vertical beam;h) the docking station feet defining load transfer plates on said vertical beams that define supports for receipt of the docking station;i) each vertical beam having a said web attached to a side wall and a flange attached to a said web;j) a load transfer interface that enables load transfer from the docking station to the frame, said interface including a load transfer plate at a top of each vertical beam, said load transfer plate attached to both said web and said flange; andk) wherein each foot of the docking station rests upon a said load transfer plate. 13. The fluids management apparatus of claim 12 wherein there are at least three interval storage tanks. 14. The fluids management apparatus of claim 12 wherein there are between 4 and 6 interval storage tanks. 15. The fluids management apparatus of claim 12 wherein at least one of the supply tanks is smaller than one of the interval storage tanks. 16. The fluids management apparatus of claim 12 wherein all of the supply tanks are smaller than each interval storage tank. 17. The fluids management apparatus of claim 12 wherein all of the flow outlets are positioned on the same side of the frame. 18. The fluids management apparatus of claim 12 wherein all of the flow outlets are positioned side-by-side and next to each other. 19. The fluids management apparatus of claim 12 wherein each supply tank has a supply tank outlet and the piping includes a plurality of flow lines, each connectable to a supply tank outlet. 20. The fluids management apparatus of claim 19 wherein each interval storage tank has a flow inlet and the piping includes multiple flow lines that enable flow to be directed to a selected interval storage tank from a selected supply tank. 21. A fluids management apparatus for managing multiple, different fluids in an oil and gas well drilling platform, comprising: a) a structural, transportable frame having side walls, end walls, a bottom wall and an upper panel;b) a lower reservoir section on the frame having a plurality of interval storage reservoirs for holding multiple, separate fluids;c) a plurality of flow outlets for discharging a selected fluid from a selected interval storage reservoir;d) a docking station on the frame above the lower reservoir section, said docking station having a plurality of feet and configured to receive one or more fluid holding vessels;e) a reinforcement system for multiple of said side walls that includes intersecting pluralities of horizontal beams and vertical beams, each said vertical beam having a web attached to a said side wall and a flange connected to said web and an upper fitting that provides an attachment for and load transfer from a said fluid holding vessel;f) each fitting connected to a top of a said vertical beam, said fitting attached to both said web and said flange of the said vertical beam; andg) wherein a said docking station foot rests upon a said upper fitting. 22. The apparatus of claim 21 further comprising an upper frame that holds multiple of said fluid holding vessels. 23. The apparatus of claim 22 wherein said upper frame has legs, each leg resting upon a said fitting. 24. The apparatus of claim 22 wherein the upper frame has one or more doors that can be opened and closed. 25. The apparatus of claim 1 wherein one of the storage reservoirs is a larger reservoir that extends to opposing sides of the internal longitudinal wall and further comprising an opening in the internal longitudinal wall that is in communication with the larger reservoir. 26. The apparatus of claim 23 wherein the upper frame has multiple upper angled plates that each form an obtuse angle with the bottom of a fluid holding vessel.
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