Sealing joint for a compressor casing

What claimed is: 1. A sealing joint for a centrifugal compressor, comprising: an inner cavity defined inside a casing, the casing includes a first cover and a second cover, a sealing joint between the first cover and second cover, the first cover includes: a first portion having a first surface; a first step, the first step extends into the first cover, the first surface radially extends toward the inner cavity, the first surface extending from an external side of the first cover to the first step; a second portion having a second surface; a second step, the second step extends into the first cover, the second step extends farther into the first cover than the first step, the second surface radially extends toward the inner cavity, the second surface extending from the first step to the second step; the second step defines an upper contact surface; and a third portion having a third surface, the third surface radially extends to the inner cavity, the third surface extending from the second step to the inner cavity; the second cover includes: a first portion having a fourth surface; and a protrusion, the fourth surface radially extends toward the inner cavity, the fourth surface extending from an external side of the second cover to the protrusion, the fourth surface is configured to mate with the first surface and the second surface of the first cover when the first and second covers are connected, the protrusion radially extends to the inner cavity, the protrusion extending from the fourth surface to the inner cavity, the protrusion extending outward toward the third surface of the first cover and outward relative to the fourth surface of the second cover, and the protrusion defines a lower contact surface; a mounting mechanism inserted through the first surface of the first cover and the fourth surface of the second cover; and a sealant separately applied between the fourth surface of the second cover and the first and second surfaces of the first cover, wherein a depth of the sealant between the second surface and the fourth surface is larger than a depth of the sealant between the first surface and the fourth surface, wherein the upper contact surface of the second step and the lower contact surface of the protrusion are in direct contact, and when the first cover and the second cover are connected, the sealant is disposed on the lower contact surface of the protrusion, and a layer of the sealant is maintained between the first cover and the second cover, such that the sealant radially extends along the first surface and the second surface of the first cover, extending from the external side of the first cover to the second step, and such that the sealant radially extends along the fourth surface of the second cover, extending from the external side of the second cover to the protrusion. 2. The sealing joint of claim 1 , wherein the first cover includes a protrusion ring positioned in proximity to the second surface, and a second protrusion ring positioned in proximity to the third surface, and wherein the first and second protrusion rings increase a tolerable elongation range for the sealant. 3. The sealing joint of claim 1 , wherein the third surface and the protrusion are configured to entirely encircle the inner cavity of the sealing joint. 4. The sealing joint of claim 1 , wherein the fourth surface is planar. 5. The sealing joint of claim 1 , wherein the casing is an impeller casing. 6. The sealing joint of claim 1 , wherein the mounting mechanism comprises a bolt, wherein the bolt is disposed through the first surface of the first cover and the fourth surface of the second cover and connected to a nut. 7. A sealing joint of a compressor casing, comprising: an inner cavity defined inside the compressor casing, the casing includes a first and second cover; and a sealing joint between the first cover and second cover, the first cover includes: a first portion having a first surface; a first step, the first step extends into the first cover, the first surface radially extends toward the inner cavity, the first surface extending from an external side of the first cover to the first step; a second portion having a second surface; a second step, the second step extends into the first cover, the second step extends farther into the first cover than the first step, the second surface radially extends toward the inner cavity, the second surface extending from the first step to the second step; the second step defines an upper contact surface; and a third portion having a third surface, the third surface radially extends to the inner cavity, the third surface extending from the second step to the inner cavity; the second cover includes: a first portion having a fourth surface; and a protrusion, the fourth surface radially extends toward the inner cavity, the fourth surface extending from an external side of the second cover to the protrusion, the fourth surface is configured to mate with the first surface and the second surface of the first cover when the first and second covers are connected, the protrusion radially extends to the inner cavity, the protrusion extending from the fourth surface to the inner cavity, the protrusion extending outward toward the third surface of the first cover and outward relative to the fourth surface of the second cover, and the protrusion defines a lower contact surface; the first cover and the second cover include a mounting mechanism inserted through the first surface of the first cover and the fourth surface of the second cover, a sealant separately disposed between the first surface and the second surface of the first cover and the fourth surface of the second cover, wherein a depth of the sealant between the second surface and the fourth surface is larger than a depth of the sealant between the first surface and the fourth surface; wherein the upper contact surface of the second step and the lower contact surface of the protrusion are in direct contact, and when the first cover and second cover are connected, the sealant is disposed on the lower contact surface of the protrusion, and a layer of the sealant is maintained between the first cover and the second cover, such that the sealant radially extends along the first surface and the second surface of the first cover, extending from the external side of the first cover to the second step, and such that the sealant radially extends along the fourth surface of the second cover, extending from the external side of the second cover to the protrusion. 8. The sealing joint of claim 7 , wherein the first surface, the second surface, and the fourth surface are configured such that when they are subjected to a maximum separation, and where the sealant has a recommended elongation range relative to the depth of the sealant between the second surface and the fourth surface, the maximum separation is less than the recommended elongation range. 9. The sealing joint of claim 7 , wherein the third surface and the protrusion are configured to entirely encircle the inner cavity of the sealing joint, wherein the inner cavity contains compressed refrigerant. 10. The sealing joint of claim 7 , wherein the mounting mechanism comprises a bolt, wherein the bolt is disposed through the first surface of the first cover and the fourth surface of the second cover and connected to a nut. 11. A method to increase a reliability of a sealing joint of a compressor casing, comprising: defining an inner cavity inside a casing, the casing including a first cover and a second cover; and applying a sealant between the first cover and the second cover, the first cover including: