Compact bearing assemblies including superhard bearing surfaces, bearing apparatuses, and methods of use

What is claimed is: 1. A power generation unit, comprising: a shaft; a housing; and a bearing apparatus including: a first bearing assembly including: a first support structure substantially centered about an axis and including a top surface, the first support structure defining a recess positioned about the axis and extending inwardly from the top surface, the first support structure defining an opening configured to receive the shaft; a first substrate, wherein at least a portion of the first substrate is secured in the recess of the first support structure; a first superhard body substantially centered about the axis and bonded to the first substrate at an interface therebetween, the first superhard body protruding above the top surface of the support structure, the first superhard body defining a convex radial-bearing surface and a top surface that intersects the axis, at least a portion of the first superhard body exhibiting a thickness of about 0.25 inches to about 0.50 inches; and a second bearing assembly including a second superhard body including an opening defined by a concave radial-bearing surface, the concave radial bearing surface sized and configured to engage the convex radial-bearing surface of the first superhard body. 2. The power generation unit of claim 1 , wherein the shaft is threadedly coupled to or press-fitted into the opening of the first support structure. 3. The power generation unit of claim 1 , wherein the shaft is brazed or welded to the opening of the first support structure. 4. The power generation unit of claim 1 , wherein the first superhard body is a unitary body. 5. The power generation unit of claim 1 , wherein the first superhard body includes a first portion exhibiting a first thickness and a second portion exhibiting a second thickness that is less than the first thickness. 6. The power generation unit of claim 1 , wherein the first superhard body includes a polycrystalline diamond body defining the convex radial-bearing surface, the top surface, and a volume enclosed by the convex bearing surface, the top surface, and the interface between the first superhard body and the first substrate. 7. The power generation unit of claim 1 , wherein at least one of the first radial-bearing surface or the second radial-bearing surface is substantially continuous. 8. The power generation unit of claim 1 , further comprising a turbine attached to the shaft. 9. The power generation unit of claim 8 , wherein the housing defines one or more housing opening therein configured to channel fluid toward the turbine. 10. The power generation unit of claim 8 , further comprising an alternator operably connected to the shaft. 11. A power generation unit, comprising: a housing; a shaft; a turbine attached to the shaft; and a bearing apparatus including: a first bearing assembly including: a first support structure substantially centered about an axis and including a top surface; a first substrate; a first superhard body substantially centered about the axis and bonded to the first substrate at an interface therebetween, the first superhard body protruding above the top surface of the support structure, the first superhard body defining a convex radial-bearing surface and a top surface that intersects the axis, at least a portion of the first superhard body exhibiting a thickness of about 0.2 inches to about 0.50 inches; a second bearing assembly including a second superhard body including an opening defined by a concave radial-bearing surface, wherein the concave radial bearing surface is sized and configured to engage the convex radial-bearing surface of the first superhard body; and the first support structure defines an opening configured to receive the shaft. 12. The power generation unit of claim 11 , wherein the first superhard body is a unitary body. 13. The power generation unit of claim 11 , wherein the first superhard body includes a polycrystalline diamond body defining the convex radial-bearing surface, the top surface, and a volume enclosed by the convex bearing surface, the top surface, and the interface between the first superhard body and the first substrate. 14. A power generation unit, comprising: a shaft; a housing defining a recess; a bearing apparatus including: a first bearing assembly connected to or integrally formed with the shaft, the first bearing assembly including: a first support structure substantially centered about an axis and including a top surface; a first substrate; wherein the first support structure defines a recess positioned about the axis that includes at least a portion of the first substrate secured therein, the recess extending inwardly from the top surface; a first superhard body substantially centered about the axis and bonded to the first substrate at an interface therebetween, the first superhard body protruding above the top surface of the support structure, the first superhard body defining a convex radial-bearing surface and a top surface that intersects the axis, at least a portion of the first superhard body exhibiting a thickness of about 0.25 inches to about 0.50 inches; and a second bearing assembly including: a second support structure that is distinct from the housing and at least partially disposed in the recess of the housing; a second superhard body secured to the second support structure, the second superhard body including an opening defined by a concave radial-bearing surface, the concave radial bearing surface sized and configured to engage the convex radial-bearing surface of the first superhard body. 15. The power generation unit of claim 14 , wherein the first support structure defines an opening configured to receive the shaft. 16. The power generation unit of claim 14 , wherein the first superhard body is a unitary body. 17. The power generation unit of claim 14 , wherein the first superhard body includes a polycrystalline diamond body defining the convex radial-bearing surface, the top surface, and a volume enclosed by the convex bearing surface, the top surface, and the interface between the first superhard body and the first substrate.