Manually oriented internal shaped charge alignment system and method of use

What is claimed is: 1. A shaped charge orientation system, comprising: a tool string comprising a first perforating gun housing having a first hollow interior and a second perforating gun housing having a second hollow interior; a first shaped charge holder positioned in the first hollow interior, wherein the first shaped charge holder is oriented in a first direction; a second shaped charge holder positioned in the second hollow interior, wherein the second shaped charge holder is oriented in a second direction that is different than the first direction; and a manual alignment tool including: an alignment tool handle extending from an alignment tool body, wherein a portion of the alignment tool body is configured to engage with a structure in the second hollow interior to rotate the second shaped charge holder from the second direction to the first direction, and wherein the second shaped charge holder is secured in the first direction, and an engagement contact pin and an external contact pin provided on opposing surfaces of the alignment tool body, wherein the manual alignment tool is configured to provide an electrical connection to the tool string. 2. The shaped charge orientation system of claim 1 , wherein the structure in the second hollow interior comprises a detonator holder provided in the second hollow interior, wherein the detonator holder is coupled to the shaped charge holder, and the shaped charge orientation system further comprises: a centralizer, wherein the centralizer is coupled to the detonator holder and the portion of the alignment tool body is configured to engage with the centralizer to rotate the second shaped charge holder from the second direction to the first direction. 3. The shaped charge orientation system of claim 2 , wherein the centralizer further comprises: a central tube extending axially along a length of the hollow interior, wherein the detonator holder is provided in the central tube; a centralizer ring encircling the central tube and in frictional engagement with an inner surface of the second perforating gun housing; a plurality of spokes extending radially between the central tube and the centralizer ring to connect the central tube to the centralizer ring, wherein an open space is provided between the spokes. 4. The shaped charge orientation system of claim 1 , wherein an engagement recess extends inward into the alignment tool body. 5. The shaped charge orientation system of claim 4 , wherein the engagement contact pin is included on a surface of the alignment tool body that bounds the engagement recess. 6. The shaped charge orientation system of claim 3 , wherein: the alignment tool body further comprises at least one engagement projection; the at least one engagement projection is configured to fit in the open space between the spokes. 7. The shaped charge orientation system of claim 6 , wherein the at least one engagement projection comprises a first engagement projection extending from the alignment tool body and a second engagement projection extending from the alignment tool body. 8. The shaped charge orientation system of claim 7 , wherein an engagement projection channel is provided between the first and second engagement projections. 9. The shaped charge orientation system of claim 6 , wherein: the first perforating gun housing further comprises a marker provided on an outer surface of the perforating gun housing, wherein the marker is positioned radially away from the first shaped charge holder in the first direction; the manual alignment tool further comprises a laser mounted to the alignment tool body; and the at least one engagement projection is in radial alignment relative to the laser such that a common plane includes the at least one engagement projection channel and the laser. 10. The shaped charge orientation system of claim 7 , further comprising: a ground contact plate extending radially outward from the detonator holder toward an inner surface of the second perforating gun housing, wherein the inner surface has a surface profile including a machined surface portion having a larger diameter relative to an adjacent portion of the inner surface, and the ground contact plate is configured to clip into the machined surface portion to secure an axial position of the detonator holder in the second hollow interior. 11. The shaped charge orientation system of claim 1 , wherein the first perforating gun housing is coupled directly to the second perforating gun housing with a corresponding threaded connection. 12. The shaped charge orientation system of claim 1 , wherein the first perforating gun housing is coupled to the second perforating gun housing with the use of a sub adapter. 13. The shaped charge orientation system of claim 1 , wherein the first direction is zero degrees, and the first and second directions are radially offset from one another about a central longitudinal axis defined by the tool string. 14. A method of manually aligning a first shaped charge holder in a first perforating gun with a second shaped charge holder in a second perforating gun, the method comprising: positioning the first shaped charge holder in a first direction in the first perforating gun, the first perforating gun comprising a first perforating gun housing having a first housing end, a second housing end, and a first hollow interior; positioning the second shaped charge holder in the second perforating gun, the second perforating gun comprising a second perforating gun having a first housing end, a second housing end, and a second hollow interior; connecting the first perforating gun housing to the second perforating gun housing to form at least a portion of a tool string; engaging a manual alignment tool with a structure in the second hollow interior of the second perforating gun, the alignment tool including an alignment tool handle extending from an alignment tool body, wherein a portion of the alignment tool body engages with the structure in the second hollow interior; providing an electrical connection to the tool string via an engagement contact pin and an external contact pin provided on opposing surfaces of the alignment tool body; orienting the second shaped charge holder into an alignment relative to the first shaped charge holder, wherein the alignment is in the first direction, wherein the orienting of the second shaped charge holder comprises rotating the second shaped charge holder independently of the second perforating gun using the manual alignment tool; and securing the alignment of the second shaped charge holder in the first direction. 15. The method of claim 14 , further comprising: marking an outer surface of the first perforating gun housing with a visual indicator in alignment with the first direction; and the securing of the alignment of the second shaped charge holder relative to the second perforating gun housing is done with at least one of a frictional engagement, an anchoring mechanism, a locking mechanism, and a clamping mechanism. 16. The method of claim 14 , wherein connecting the first perforating gun housing to the second perforating gun housing further comprises one of: coupling the first end of the second perforating gun housing directly to the second end of the first perforating gun housing using a corresponding threaded connection; and coupling the first end of the second perforating gun housing to the second end of the first perforating gun housing with the use of a sub assembly. 17. The method of claim 14 , wherein the orienting of the second shaped cha