Leaching chamber with locking swivel latch

What is claimed is: 1. A leaching chamber, comprising: a first end of the leaching chamber having a first end flange and at least one locking pin associated with the first end flange; a second end of the leaching chamber having a second end flange and at least one well having a plurality of gear teeth defining an array of locking grooves associated with the second end flange; and a chamber body between the first end and second end of the leaching chamber, wherein the first end flange is configured to overlap and rotatably connect with a complementary end flange of a second leaching chamber such that the leaching chamber is configured to rotate with respect to the second leaching chamber and to be disposed at a selected angular orientation relative to the second leaching chamber, and wherein the at least one locking pin of the first end flange of the leaching chamber is configured to engage with a locking groove of an array of locking grooves of the complementary end flange of the second leaching chamber to lock the leaching chamber in the selected angular orientation relative to the second leaching chamber. 2. The leaching chamber of claim 1 , wherein: the at least one locking pin depends from an underside of the first end flange. 3. The leaching chamber of claim 2 , wherein the at least one locking pin of the first end flange comprises: a first locking pin configured to engage a first array of locking grooves on the complementary end flange of the second leaching chamber; and a second locking pin configured to engage a second array of locking grooves on the complementary end flange. 4. The leaching chamber of claim 1 , wherein the at least one well of the second end flange of the leaching chamber comprises a first well comprising a first array of locking grooves and a second well comprising a second array of locking grooves, the locking grooves of the second array being spaced apart from the locking grooves of the first array. 5. The leaching chamber of claim 4 , wherein the first array of locking grooves and the second array of locking grooves are arranged along an arc that is part of a circumference of a circle. 6. The leaching chamber of claim 4 , wherein the arrays of locking grooves are configured to engage with a locking pin of an adjacent leaching chamber to lock the leaching chamber in a plurality of angular orientations relative to the adjacent leaching chamber, the plurality of angular orientations varying by increments of approximately 5 degrees. 7. The leaching chamber of claim 4 , wherein the arrays of locking grooves are configured to engage with a locking pin of an adjacent leaching chamber to lock the leaching chamber in a plurality of angular orientations relative to the adjacent leaching chamber, each angular orientation defining an angle between the leaching chamber and the adjacent leaching chamber that is between approximately 0 degrees and approximately 15 degrees. 8. The leaching chamber of claim 1 , further comprising: a catch disposed at a top portion of the first end of the leaching chamber, wherein the catch is configured to mutually engage with a latch disposed on the second leaching chamber to form a connection when the leaching chamber is joined to the second leaching chamber, wherein the catch is configured to move laterally beneath the latch during rotation of the leaching chamber relative to the second leaching chamber. 9. The leaching chamber of claim 1 , further comprising: a latch disposed at a top edge of the second end of the leaching chamber, wherein the latch is configured to mutually engage with a catch disposed on a third leaching chamber to form a connection when the leaching chamber is joined to the third leaching chamber, wherein the latch is configured to be disposed over the catch, and to permit lateral movement of the catch, during rotation of the leaching chamber relative to the third leaching chamber. 10. A leaching field assembly, comprising: a first leaching chamber comprising a first end having a first end flange, at least one locking pin depending from an underside of the first end flange, a second end having a second end flange, and at least one well having a plurality of gear teeth defining an array of locking grooves on the second end flange; and a second leaching chamber comprising a first end having a first end flange, at least one locking pin depending from an underside of the first end flange, a second end having a second end flange, and at least one well having a plurality of gear teeth defining an array of locking a plurality of grooves on the second end flange, wherein the first end flange of the second leaching chamber is configured to overlap and rotatably connect with the second end flange of the first leaching chamber such that the second leaching chamber is configured to rotate with respect to the first leaching chamber and to be disposed in a selected angular orientation relative to the first leaching chamber, and wherein each locking pin of the second leaching chamber is configured to engage with a locking groove of the array of locking grooves of the first leaching chamber to lock the second leaching chamber in the selected angular orientation relative to the first leaching chamber. 11. The leaching field assembly of claim 10 , further comprising: a third leaching chamber comprising a first end having a first end flange, at least one locking pin depending from an underside of the first end flange, a second end having a second end flange, and at least one well having a plurality of gear teeth defining an array of locking grooves on the second end flange, wherein the first end flange of the third leaching chamber is configured to overlap and rotatably connect with the second end flange of the second leaching chamber such that the third leaching chamber is configured to rotate with respect to the second leaching chamber and to be disposed in a second selected angular orientation relative to the second leaching chamber, and wherein each locking pin of the third leaching chamber is configured to engage with a locking groove of the array of locking grooves of the second leaching chamber to lock the third leaching chamber in the second selected angular orientation relative to the second leaching chamber. 12. The leaching field assembly of claim 10 , wherein the first leaching chamber is substantially identical to the second leaching chamber. 13. The leaching field assembly of claim 10 , wherein: the at least one well of the first leaching chamber includes a first well comprising a first array of locking grooves and a second well comprising a second array of locking grooves, the second array of locking grooves being spaced apart from the first array of locking grooves, and the at least one locking pin of the second leaching chamber includes a first locking pin configured to engage the first array of locking grooves, and a second locking pin configured to engage the second array of locking grooves. 14. The leaching field assembly of claim 13 , wherein the first array of locking grooves and the second array of locking grooves are arranged in an arc. 15. The leaching field assembly of claim 10 , wherein the at least one locking pin of the second leaching chamber and the array of locking grooves of the first leaching chamber are configured to lock the second leaching chamber in a plurality of angular orientations relative to the first leaching chamber, the plurality of angular orientations varying by increments of approximately 5 degrees. 16. The leaching field assembly of claim 10 , wherein the at least one locking