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Title:
GAS TURBINE ENGINE PACKAGE AND CORRESPONDING METHOD
Document Type and Number:
WIPO Patent Application WO/2016/032998
Kind Code:
A1
Abstract:
A gas turbine engine unit (110) for use in a modular power generation system includes an engine package (112) and a mechanical handling system adapted to convey components (114) out of and into the engine package (112). The engine package (112) includes a floor (132), a plurality of side walls (136), and a ceiling (134) that cooperate to define a sheltered space (140) sized to receive a gas turbine engine. The mechanical handling system includes rails (121) adapted to support components (114) conveyed out of and into the sheltered space (140) defined by the engine package (112).

Inventors:
KERSEY BRENT R (US)
GROSS CHRISTOPHER D (US)
HANSON ALLAN G (US)
STEADY LOREN J (US)
MACZURA ANTHONY (US)
Application Number:
PCT/US2015/046636
Publication Date:
March 03, 2016
Filing Date:
August 25, 2015
Export Citation:
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Assignee:
ROLLS ROYCE ENERGY SYSTEMS INC (US)
International Classes:
F01D25/28; F02B63/04; F02C7/20; F16M5/00
Domestic Patent References:
WO2009008712A12009-01-15
Foreign References:
FR2864209A12005-06-24
US20100060093A12010-03-11
Attorney, Agent or Firm:
SWEENEY II, James R. et al. (11 South Meridian StreetIndianapolis, Indiana, US)
Download PDF:
Claims:
What is claimed is:

1 . A gas turbine engine unit for use in a modular power generation system, the gas turbine engine unit comprising

an engine package including a floor, a plurality of side walls, and a ceiling that cooperate to define a sheltered space,

a gas generator arranged in the sheltered space defined by the engine package, and

a mechanical handling system adapted to convey the gas generator from inside the sheltered space to outside the sheltered space for repair or replacement, the mechanical handling system including a door coupled to the engine package to pivot about a horizontal axis between a substantially vertical closed position and a substantially horizontal opened position, a plurality of floor rails coupled to the floor of the engine package, and a plurality of door rails coupled to the door to move with the door between a stowed position arranged in the sheltered space when the door is in the closed position and a use position outside the sheltered space when the door is in the opened position.

2. The gas turbine engine unit of claim 1 , wherein the mechanical handling system includes at least one leg coupled to the door to pivot about a leg axis relative to the door between a stored position extending generally parallel to the door and a support position extending generally perpendicular to the door.

3. The gas turbine engine unit of claim 2, wherein the at least one leg includes a main member and an extension member coupled to the main member to slide relative to the main member between a retracted position and an extended position to change the length of the at least one leg.

4. The gas turbine engine unit of 1 , wherein the mechanical handling system includes a transportation stand coupled to the gas generator for movement with the gas generator from inside the sheltered space to outside the sheltered space.

5. The gas turbine engine unit of claim 4, wherein the transportation stand includes a frame coupled to the gas generator and a plurality of roller feet coupled to the frame, the roller feet are arranged to engage the floor rails when the gas generator is inside the sheltered space, and the roller feet are arranged to engage the door rails when the gas generator is moved outside the sheltered space.

6. The gas turbine engine unit of claim 5, wherein each roller foot includes a support plate coupled to the frame, a first roller coupled to the support plate, and a second roller coupled to the support plate at a location spaced along a floor rail or a door rail from the first roller.

7. The gas turbine engine unit of claim 1 , wherein the mechanical handling system includes at least one bridge rail adapted to be coupled to the engine package and sized to fill at least a portion of a gap formed between one of the floor rails and a corresponding one of the door rails when the door is moved to the opened position and the door rails are moved to the use position.

8. The gas turbine engine unit of claim 1 , further comprising a power turbine arranged in the sheltered space defined by the engine package, the mechanical handling system includes a transportation sled coupled to the power turbine, and the transportation sled is configured to engage the floor rails and the door rails.

9. The gas turbine engine unit of claim 8, wherein the transportation sled includes a frame coupled to the power turbine and a plurality of roller feet and each of the roller feet include a support plate coupled to the frame, a first roller coupled to the support plate, and a second roller coupled to the support plate.

10. The gas turbine engine unit of claim 1 , wherein the mechanical handling system includes a plurality of alignment rails coupled to the floor of the engine package and the alignment rails extend generally perpendicular to the floor rails.

1 1 . A gas turbine engine unit comprising

an engine package including a floor, a plurality of side walls, and a ceiling that cooperate to define a sheltered space, and

a mechanical handling system configured to convey a gas generator out of the engine package, the mechanical handling system including a door coupled to the engine package to move relative to the engine package between a closed position and an opened position, a plurality of floor rails coupled to the floor of the engine package, and a plurality of door rails coupled to the door to move with the door relative to the engine package.

12. The gas turbine engine unit of claim 1 1 , wherein the mechanical handling system includes at least one leg coupled to the door that extends generally perpendicular to the door from a side of the door opposite the door rails.

13. The gas turbine engine unit of claim 12, wherein the at least one leg is coupled to the door to pivot relative to the door.

14. The gas turbine engine unit of claim 1 1 , wherein the mechanical handling system includes at least one bridge rail arranged in a gap formed between one of the floor rails and a corresponding one of the door rails.

15. The gas turbine engine unit of claim 1 1 , wherein the mechanical handling system includes a plurality of alignment rails coupled to the floor of the engine package and the alignment rails extend generally perpendicular to the floor rails.

16. A method of removing components from an engine package, the method comprising

pivoting a door mounted to the engine package from a substantially vertical closed position to a substantially horizontal opened position, and

sliding a gas generator out of a sheltered space defined by the engine package along a plurality of floor rails mounted to a floor of the engine package and a plurality of door rails mounted to the door.

17. The method of claim 16, further comprising pivoting at least one leg coupled to the door about a leg axis relative to the door from a stored position extending generally parallel to the door to a support position extending generally perpendicular to the door.

18. The method of claim 16, further comprising sliding the gas generator within the sheltered space defined by the engine package along a plurality of alignment rails extending generally perpendicular to the floor rails.

19. The method of claim 16, further comprising sliding a power turbine out of the sheltered space along the plurality of floor rails mounted to a floor of the engine package and the plurality of door rails mounted to the door.

20. The method of claim 19, further comprising sliding the power turbine within the sheltered space defined by the engine package along a plurality of alignment rails extending generally perpendicular to the floor rails.

Description:
GAS TURBINE ENGINE PACKAGE AND CORRESPONDING METHOD

FIELD OF THE DISCLOSURE

[0001] The present disclosure relates generally to power generation units, and more specifically to power generation units with gas turbine engines.

BACKGROUND

[0002] Modular power generation units are used to provide electrical power when power from a large scale grid is unavailable or intermittent such as in remote locations or during power outages. For example, modular power generation units may be used on oil rigs in off-shore operations or on oceangoing ships. Many modular power generation units include a gas turbine engine module adapted to convert stored energy from fuel (e.g. natural gas etc.) into mechanical energy that may be used to drive an electrical generator unit.

[0003] Gas turbine engine units used in modular power generation units typically include a gas generator, a power turbine, and an engine package that shelters the gas generator along with the power turbine.

Various handling systems for removing the gas generator and/or the power turbine from the engine package have been devised to allow for repair or replacement of the gas generator and/or the power turbine. For example, overhead lift systems have been designed to lift gas generators and power turbines upwardly out of engine packages before being lowered into transport dollies. Use of an overhead lift system may be difficult in situations when the engine package is moving during lifting such as when an oil rig or ship pitches and rolls due to ocean waves and/or in situations when high winds cause movement of components being lifted from the engine package. SUMMARY

[0004] The present disclosure may comprise one or more of the following features and combinations thereof.

[0005] According to one aspect of the present disclosure, a gas turbine engine unit for use in a modular power generation system may include an engine package that defines a sheltered space, a gas generator arranged in the sheltered space, and a mechanical handling system. The mechanical handling system may be adapted to convey the gas generator from inside the sheltered space defined by the engine package to outside the sheltered space for repair or replacement.

[0006] In some embodiments, the engine package may include a floor, a plurality of side walls, and a ceiling that cooperate to define the sheltered space. The mechanical handling system may include a door, a plurality of floor rails, and a plurality of door rails. The door may be coupled to the engine package to pivot about a horizontal axis between a substantially vertical closed position and a substantially horizontal opened position. The plurality of floor rails may be coupled to the floor of the engine package. The plurality of door rails may be coupled to the door to move with the door between a stowed position arranged in the sheltered space when the door is in the closed position and a use position outside the sheltered space when the door is in the opened position.

[0007] In some embodiments, the mechanical handling system may include at least one leg. The at least one leg may be coupled to the door to pivot about a leg axis relative to the door between a stored position extending generally parallel to the door and a support position extending generally perpendicular to the door. The at least one leg may include a main member and an extension member coupled to the main member to slide relative to the main member between a retracted position and an extended position to change the length of the at least one leg.

[0008] In some embodiments, the mechanical handling system may include a transportation stand coupled to the gas generator for movement with the gas generator from inside the sheltered space to outside the sheltered space. The transportation stand may include a frame coupled to the gas generator and a plurality of roller feet coupled to the frame. The roller feet may be arranged to engage the floor rails when the gas generator is inside the sheltered space and may be arranged to engage the door rails when the gas generator is moved outside the sheltered space. In some embodiments, each roller foot may include a support plate coupled to the frame, a first roller coupled to the support plate, and a second roller coupled to the support plate at a location spaced along a floor rail or a door rail from the first roller.

[0009] In some embodiments, the mechanical handling system may include at least one bridge rail. The at least one bridge rail may be adapted to be coupled to the engine package and may be sized to fill at least a portion of a gap formed between one of the floor rails and a corresponding one of the door rails when the door is moved to the opened position and the door rails are moved to the use position.

[0010] In some embodiments, the gas turbine engine unit may include a power turbine. The power turbine may be arranged in the sheltered space defined by the engine package. The mechanical handling system may include a transportation sled coupled to the power turbine. The transportation sled may be configured to engage the floor rails and the door rails.

[0011] In some embodiments, the transportation sled may include a frame coupled to the power turbine and a plurality of roller feet. Each of the roller feet may include a support plate coupled to the frame, a first roller coupled to the support plate, and a second roller coupled to the support plate.

[0012] In some embodiments, the mechanical handling system may include a plurality of alignment rails coupled to the floor of the engine package. The alignment rails may extend generally perpendicular to the floor rails.

[0013] According to another aspect of the present disclosure, a gas turbine engine unit may include an engine package and a mechanical handling system configured to convey a gas generator out of the engine package. The engine package may include a floor, a plurality of side walls, and a ceiling that cooperate to define a sheltered space. In some

embodiments, the mechanical handling system may include a door movable relative to the engine package between a closed position and an opened position, a plurality of floor rails coupled to the floor of the engine package, and a plurality of door rails coupled to the door to move with the door relative to the engine package.

[0014] In some embodiments, the mechanical handling system may include at least one leg coupled to the door. The at least one leg may extend generally perpendicular to the door from a side of the door opposite the door rails. In some embodiments, the at least one leg may be coupled to the door to pivot about an axis.

[0015] In some embodiments, the mechanical handling system may include at least one bridge rail. The bridge rail may be arranged in a gap formed between one of the floor rails and a corresponding one of the door rails.

[0016] In some embodiments, the mechanical handling system may include a plurality of alignment rails coupled to the floor of the engine package. The alignment rails may extend generally perpendicular to the floor rails.

[0017] According to another aspect of the present disclosure, a method of removing components from an engine package may include pivoting a door mounted to the engine package from a substantially vertical closed position to a substantially horizontal opened position. The method may also include sliding a gas generator out of a sheltered space defined by the engine package along a plurality of floor rails mounted to a floor of the engine package and a plurality of door rails mounted to the door.

[0018] In some embodiments, the method may also include pivoting at least one leg coupled to the door about a leg axis relative to the door. The at least one leg may be moved from a stored position extending generally parallel to the door to a support position extending generally perpendicular to the door.

[0019] In some embodiments, the method may include sliding the gas generator within the sheltered space defined by the engine package along a plurality of alignment rails. The alignment rails may extend generally perpendicular to the floor rails. [0020] In some embodiments, the method may include sliding a power turbine out of the sheltered space along the plurality of floor rails mounted to a floor of the engine package and the plurality of door rails mounted to the door. The method may include sliding the power turbine within the sheltered space defined by the engine package along a plurality of alignment rails extending generally perpendicular to the floor rails.

[0021] These and other features of the present disclosure will become more apparent from the following description of the illustrative embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] Fig. 1 is a perspective view of a modular power generation system showing that the modular power generation system includes an air inlet unit, a gas turbine engine unit, and an electrical generator unit,

[0023] Fig. 2 is a perspective view of the gas turbine engine unit of Fig. 1 showing a door mounted to a side wall of an engine package in a closed position blocking access to components sheltered in the engine package;

[0024] Fig. 3 is a perspective view of the gas turbine engine unit of Figs. 1 and 2 showing the door pivoted about a horizontal axis to an opened position allowing access to components in the engine package and showing a gas generator moved out of the engine package along rails included in a mechanical handling system integrated into the engine package;

[0025] Fig. 4 is a perspective view of two sets of rails mounted to a floor of the engine package showing that one set of rails extend generally along the length of the engine package to facilitate movement of the gas generator within the engine package and the other set of rails is set perpendicular to the first set to facilitate movement of the gas generator out of the engine package;

[0026] Fig. 5 is a detail view of a bridge rail included in mechanical handling system showing that the bridge rail is adapted to fill a gap formed between a floor rail coupled to the floor of the engine package and a corresponding door rail coupled to the door when the door is moved to the opened position; [0027] Fig. 6 is a detail view of a roller foot included in a transportation stand of the mechanical handling system showing that the roller foot engages the rails to guide movement of the gas generator along the rails;

[0028] Fig. 7 is a cross-sectional view of the roller foot shown in Fig. 6 showing that the roller foot includes a support plate and two rollers mounted to the support plate so that even if the roller ball included in the first roller is unsupported at a gap in the underlying rails the other roller ball included in the second roller is engaged with the underlying rails and supports the gas generator;

[0029] Fig. 8 is a perspective view of one illustrative roller adapted for use in the roller foot of Figs. 7 and 8;

[0030] Fig. 9 is a side elevation view of a portion of the engine package and the mechanical handling system showing that the mechanical handling system includes a plurality of legs coupled to the door to pivot relative to the door and adapted to extend from the door to an underlying platform when the door is in the opened position;

[0031] Fig. 10 is a perspective view of a portion of the gas turbine engine unit of Figs. 1 -3 showing a power turbine mounted to a transportation sled included in the mechanical handling system and moved out of the engine package along the rails included in the mechanical handling system;

[0032] Figs. 1 1 -14 are a series of views showing a method of removing components from the gas turbine engine unit using the mechanical handling system of Figs. 10;

[0033] Fig. 1 1 is a perspective view of the gas turbine engine unit with the door of the mechanical handling unit in the closed position before a user pivots the door about a horizontal axis to the opened position as shown in Fig. 12;

[0034] Fig. 12 is a perspective view of the gas turbine engine unit with the door of the mechanical handling unit pivoted to the opened position showing that door rails coupled to the door are aligned with floor rails coupled to a floor of the engine package;

[0035] Fig. 13 is a perspective view the gas turbine engine unit showing the drive turbine included in the gas turbine engine unit slid out from a shelter space defined by the engine package onto the door rails arranged outside the engine package; and

[0036] Fig. 14 is a perspective view of the gas turbine engine unit showing the power turbine included in the gas turbine engine unit slid out from the shelter space defined by the engine package onto the door rails arranged outside the engine package.

DETAILED DESCRIPTION OF THE DRAWINGS

[0037] For the purposes of promoting an understanding of the principles of the disclosure, reference will now be made to a number of illustrative embodiments illustrated in the drawings and specific language will be used to describe the same.

[0038] An illustrative modular power generation system 10 adapted to produce electricity is shown in Fig. 1 . The modular power generation system 10 includes an air inlet unit 12, a gas turbine engine unit 1 10, and an electrical generator unit 14. The air inlet unit 12 receives and conveys atmospheric air to the gas turbine engine unit 1 10 be mixed with fuel and burned by the gas turbine engine unit 1 10. The gas turbine engine unit 1 10 converts stored energy from fuel (such as natural gas etc.) into mechanical energy that is transferred to the electrical generator unit 14 via combustion within the gas turbine engine unit 1 10. Leftover products of combustion within the gas turbine engine unit 1 10 are exhausted through an exhaust 16 coupled to the gas turbine engine unit 1 10. The mechanical energy transferred to the electrical generator unit 14 is used to produce electrical power for various applications.

[0039] The gas turbine engine unit 1 10 illustratively includes an engine package 1 12, an engine inlet bell 1 14, a turbine engine gas generator 1 16, and a power turbine 1 18 as shown, for example, in Figs. 2 and 3. The engine package 1 12 houses and protects the other components 1 14, 1 16, 1 18 from rain, salt, dirt, and other atmospheric contaminants. The engine inlet bell 1 14 extends into the engine packagel 12 and conditions air before it is ingested by the gas generator 1 16. The power turbine 1 18 is driven by hot, high-pressure gas generated by the gas generator 1 16 transmits mechanical energy to the electrical generator

unit 1 14.

[0040] The gas turbine engine unit 1 10 also includes a mechanical handling system 120 integrated with the engine package 1 12 as shown in Fig. 3. The mechanical handling system 120 is adapted to convey components out of and into the engine package 1 12 as suggested in Figs. 1 1 -14. The mechanical handling system 120 illustratively includes rails 121 -126, a transport stand 128, and a door 130 as shown in Fig. 3. The rails 121 -126 are engaged by the transport stand 128 such that movement of the transport stand 128 is guided along the rails 121 -126. The transport stand 128 in the illustrative embodiment supports the gas generator 1 16 so that the gas generator may be moved along the rails 121 -126. The door 130 is

illustratively coupled to the engine package 1 12 to pivot relative to the engine package 1 12 about a horizontal axis 131 from a closed position, as shown in Fig. 2, to an opened position, as shown in Fig. 3, to selectively allow

components to move out of or into the engine package 1 12.

[0041] The engine package 1 12 illustratively provides a climate controlled acoustic enclosure for other components of the gas turbine engine unit 1 10 which are protected from the elements as shown in Fig. 3. The engine package 1 12 includes a floor 132, a ceiling 134, and a plurality of side walls 136-139 that cooperate to define a shelter space 140. The shelter space 140 is generally protected from atmospheric conditions around the gas turbine engine unit 1 10 and receives the gas generator 1 16 and the power turbine 1 18 when the gas turbine engine unit 1 10 is in use as part of the modular power generation system 10. The shelter space 140 also receives all of the rails 121 -126 and other tooling associated with the mechanical handling system 120 when the gas turbine engine unit 1 10 is in use and the door 130 is in the closed position as shown in Fig. 2. Accordingly, the rails 121 -126 and other tools are protected from the elemental damage, loss, and degradation over time.

[0042] The rails 121 -126 of the mechanical handling system 120 illustratively include floor rails 121 , 122, door rails 123, 124, and alignment rails 125, 126 as shown in Fig. 3. The floor rails 121 , 122 are coupled to the floor 132 of the engine package 1 12 and are arranged to guide components through an opening 141 formed in a first side wall 136 of the engine package 1 12 around the door 130. The door rails 123, 124 are coupled to the door 130 for movement with the door 130 The alignment rails 125, 126 are coupled to the floor 132 of the engine package 1 12 and extend generally perpendicular to the floor rails 121 , 122 as shown in Fig. 4. In the illustrative embodiment, the floor rails 121 , 122 and the alignment rails 125, 126 form intersecting upwardly facing channels as shown in Fig. 4 that allow roller balls to switch direction while rolling along the rails 121 , 122, 125, 126 and supporting a component being moved along the rails 121 , 122, 125, 126.

[0043] The door rails 123, 124 move with the door 130 between a stowed position arranged in the sheltered space 140 when the door 130 is in the closed position and a use position outside the sheltered space 140 when the door 130 is in the opened position as shown in Figs. 2 and 3. The door rails 123, 124 are sized so as not to interfere with the gas generator 1 16, the power turbine 1 18, or other components in the sheltered space 140 when the door 130 is in the closed position. The door rails 123, 124 illustratively extend generally vertically and are generally perpendicular to with the floor rails 121 , 122 when the door 130 is in the closed position.

[0044] The door rails 123, 124 illustratively extend generally

horizontally and are aligned with the floor rails 121 , 122 so that upwardly facing channels formed by the door rails 123, 124 are arranged to receive roller balls moving along floor rails 121 , 122 when the door 130 is in the opened position. Thus, a component guided by the floor rails 121 , 122 through the opening 141 is further guided by the door rails 123, 124 as the component moves outside the engine package 1 12.

[0045] In some embodiments, the door 130 may be coupled to the engine package 1 12 for movement along the horizontal axis 131 . Movement of the door 130 along the axis 131 may allow for adjustment to the alignment of the door rails 123, 124 with the floor rails 121 , 122 prior to transition of a component from the floor rails 121 , 122 to the door rails 123, 124. In some embodiments, the floor rails 121 , 122 and/or the door rails 123, 124 may be moveable parallel to the horizontal axis 131 to allow for adjustment to the alignment of the door rails 123, 124 with the floor rails 121 , 122 prior to transition of a component from the floor rails 121 , 122 to the door rails 123, 124.

[0046] In the illustrative embodiment, the mechanical handling system 120 includes optional bridge rails 144 adapted to fill a gap 145 formed between the floor rails 121 , 122 and a corresponding one of the door rails 123, 124 when the door 130 is moved to the opened position as suggested in Fig. 5. Each bridge rail 144 forms an upwardly facing channel that aligns with upwardly facing channels of the floor rails 121 , 122 and the door rails 123, 124 to receive roller balls moving between the floor rails 121 , 122 and the door rails 123, 124 and avoiding an unsupported condition. The bridge rails 144 may be removed from the gap 145 and stowed within the shelter space 140 of the engine package 1 12 by removably attaching the bridge rails 144 to side walls 136-139 of the engine package 1 12 or to the door 130 when the door 130 is moved to the closed position.

[0047] The transportation stand 128 is illustratively coupled to the gas generator 1 16 for movement with the gas generator 1 16 from inside the sheltered space 140 to outside the sheltered space 140 as suggested in Figs. 2 and 3. The illustrative transportation 128 stand includes a frame 148 coupled to the gas generator 1 16 and a plurality of roller feet 150 coupled to the frame 148 as shown in Fig. 3. The roller feet 150 are arranged to engage the various rails 121 -126 (and 144) as the gas generator 1 16 moves around and out of the sheltered space 140 of the engine package 1 12. In the illustrative embodiment, the transportation stand 128 may remain in the sheltered space 140 but is detached from the gas generator 1 16 during operation of the modular power generation system 10. Accordingly, the transportation stand 128 is available when removal of the gas generator 1 16 is desired.

[0048] Each roller foot 150 is substantially similar and each roller foot 150 includes a pair of rollers 151 , 152, and a support plate 154 as shown in Fig. 7. Each roller 151 , 152 is coupled to the support plate 154 and includes a socket 156 and a roller ball 158. The rollers 151 , 152 are spaced apart from one another along a line perpendicular to the alignment rails 125, 126 and allow for one of the roller balls 158 to be out of contact with the underlying rails 121 -126 (and 144) at gaps between rails 121 -126 (and 144). The rollers 151 , 152 are ball transfer units of the type available from Bosch Rexroth.

[0049] The mechanical handling system 120 further includes a plurality of legs 161 -164 coupled to the door 130 and adapted to extend from the door 130 to an underlying platform 165 when the door 130 is in the opened position as shown in Fig. 9. Each leg 161 -164 is coupled to the door 130 on an external side of the door 130 opposite the door rails 123, 124. Each leg 161 - 164 is adapted to pivot about corresponding leg axes 171 -174 relative to the door 130 as suggested in Fig. 2. Each leg 161 -164 is movable between a stored position extending generally parallel to the door 130, as shown in Fig. 2, and a support position extending generally perpendicular to the door 130 as shown in Fig. 9.

[0050] Each leg 161 -164 includes a main member (tube) 166 and an extension member (tube) 168 as shown in Fig. 9. The extension member 168 is coupled to the main member 166 to slide relative to the main member between a retracted position and an extended position to change the length of a leg 161 -164. In the illustrative embodiment, the extension members 168 telescope into the main members 166.

[0051] The mechanical handling system 120 in the illustrative embodiment further includes a transportation sled 180 as shown in Fig. 10. The transportation sled 120 is coupled to the power turbine 1 18 for movement with the power turbine 1 18 and is adapted to facilitate removal of the power turbine 1 18 from the engine package 1 12. Overhaul periods of gas generator 1 16 and power turbine 1 18 may be different and the separate transportation stand 128 and transportation sled 180 provide the ability to leave the power turbine 1 18 in the engine package 1 12 during gas generator 1 16 repair or replacement.

[0052] The transportation sled 180 illustratively includes a frame 182 and a plurality of roller feet 184 as shown in Fig. 10. The frame 182 is adapted to couple to attachment points included in the power turbine 1 18 and is coupled to the roller feet 184. The roller feet 184 are is configured to engage the rails 121 -126 (and 144) during movement of the power turbine 1 18 along and out of the engine package 1 12. In the illustrative embodiment, the transportation sled 180 may remain attached to the power turbine 1 18 during operation of the modular power generation system 10 to minimize the number of tools needed during removal of the power turbine 1 18 from the engine package 1 12.

[0053] Each of the roller feet 184 is substantially similar to the roller feet 150 included in the transportation stand 128, shown in Figs. 6-7.

Particularly each roller foot 184 includes a pair of rollers (similar to rollers 151 , 152) and a support plate coupled to the rollers (similar to plates 154).

[0054] Hand rails 190 may also be included in the mechanical handling system 120 as shown in Figs. 3, 9, and 10. Hand rails 190 may be removably or pivotably coupled to the door 130 and may be deployed to extend upwardly from the door 130 when the door is in the opened position. In some

embodiments, non-slip floor grating 191 may be mounted to the door 130 on the same side as the door rails 123, 124 to prevent a worker from slipping while using the door 130 as a work stand. The grating 191 may be made from fiberglass or another suitable material.

[0055] The door 130 of the illustrative embodiment includes a main panel 192 and a walk door 194 as shown in Fig. 1 . The main panel 192 supports the door rails 123, 124 and is formed to define a walk opening 196 sized to allow a worker to get into and out of the engine package 1 12. The walk door 194 is coupled to the main panel 192 to pivot about an axis 195 perpendicular to the axis 131 and is configured to block or allow access to the sheltered space 140 within the engine package 1 12 through the walk opening 196. In some embodiments, the walk door 194 may be mounted to slide relative to the main panel 192 to selectively open the walk opening 196. In other embodiments, the walk door 194 may be omitted or may be mounted to the side walls 136-139 of the engine package 1 12 to allow worker access into the sheltered space 140.

[0056] Turning now to Figs. 1 1 -14, a method of removing the gas generator 1 16 and the power turbine 1 18 from the engine package 1 12 of the gas turbine engine unit 1 10 is shown. According to the disclosed method, the door 130 mounted to the engine package 1 12 is pivoted from a substantially vertical closed position, as shown in Fig. 1 1 , to a substantially horizontal opened position as shown in Fig. 12. In addition to pivoting of the door 130, the legs 161 -164 may be pivoted from the stored position to the support position and may be extended to engage the platform 165 under the door 130.

[0057] The frame 154 included in the transportation stand 128 is coupled to the gas generator 1 16 and the outer roller 151 of each foot 150 included in the transportation stand 128 is lowered into the channel of the alignment rails 125, 126. The gas generator 1 16, along with the

transportation stand 128, slides away from the power turbine 1 18 toward the inlet bell 1 14 within the engine package 1 12 along the alignment rails 125, 126 until the transportation stand engages the floor rails 121 , 122 that extend across the engine package 1 12.

[0058] Prior to sliding of the gas generator 1 16 and the transportation stand 128 out of the engine package 1 12 as shown in Fig. 12, the door 130 may slide along the horizontal pivot axis 131 so that the door rails 123, 124 align with the floor rails 121 , 122 as shown in Fig. 12. In some embodiments, the door rails 123, 124 may slide relative to the door 130 and/or the floor rails 121 , 122 may slide relative to the floor 132 of the engine package 1 12 so that the door rails 123, 124 align with the floor rails 121 , 122.

[0059] When the gas generator 1 16 and the transportation stand 128 reach the floor rails 121 , 122, the gas generator 1 16 and the transportation stand 128 slide perpendicular to the alignment rails 125, 126 along the floor rails 121 , 122 as suggested in Figs. 12 and 13. The gas generator 1 16 and the transportation stand 128 move along the floor rails 121 , 122 out of the sheltered space 140 and onto the door rails 123, 124 as shown in Fig. 13. From a position resting on the door 130 outside the engine package 1 12, the gas generator 1 16 can be lifted up by a hoist and lowered into a transport can or onto the platform 165 for repair or replacement.

[0060] Upon removal of the gas generator 1 16 from the engine package 1 12, the outer roller of each foot 184 included in the transportation sled 180 may be lowered into the channel of the alignment rails 125, 126 (if the rollers are not already engaged with the alignment rails 125, 126). The power turbine 1 18, along with the transportation sled 180, slides toward the inlet bell 1 14 within the engine package 1 12 along the alignment rails 125, 126 until the transportation sled 180 engages the floor rails 121 , 122 that extend across the engine

package 1 12.

[0061] When the power turbine 1 18 and the transportation sled 180 reach the floor rails 121 , 122, the power turbine 1 18 and the transportation sled 180 slide perpendicular to the alignment rails 125, 126 along the floor rails 121 , 122 as suggested in Fig. 14. The power turbine 1 18 and the transportation sled 180 move along the floor rails 121 , 122 out of the sheltered space 140 and onto the door rails 123, 124. From a position resting on the door 130 outside the engine package 1 12, the power turbine 1 18 can be lifted up by a hoist and lowered into a transport can or onto the platform 165 for repair or replacement. Installation of the gas generator 1 16 and/or the power turbine 1 18 may be accomplished by reverse completion of the steps described herein.

[0062] While the disclosure has been illustrated and described in detail in the foregoing drawings and description, the same is to be considered as exemplary and not restrictive in character, it being understood that only illustrative embodiments thereof have been shown and described and that all changes and modifications that come within the spirit of the disclosure are desired to be protected.