Autonomous downhole power generator module

What is claimed is: 1. A downhole power generator module comprising: a body having one or more couplings that are configured to connect the body to a downhole tool string and positioned downhole in a wellbore; a pressure-driven electric generator positioned within the body; a port in the body that enables fluid communication of well fluids from the wellbore to the generator; wherein pressure changes in the well fluids cause the generator to generate electric power; wherein the generator comprises a triboelectric generator having a plurality of charging blocks, including a first set of the charging blocks and a second set of the charging blocks, wherein the first set of the charging blocks is in contact with and movable with respect to the second set of the charging blocks, wherein when the first set of the charging blocks moves with respect to the second set of the charging blocks, a voltage between the first set of the charging blocks with respect to the second set of the charging blocks changes, thereby producing an electric current. 2. The downhole power generator module of claim 1 , wherein the first set of the charging blocks is mounted on a first, stationary sleeve within the body and the second set of the charging blocks is mounted on a second, movable sleeve within the body, wherein changes in the pressure of the well fluids cause the second sleeve and the second set of charging blocks to move with respect to the first sleeve and the first set of the charging blocks. 3. The downhole power generator module of claim 2 , wherein for at least one of the first and second sleeve, the corresponding set of charging blocks is spring-mounted on the corresponding sleeve, wherein the spring-mounted set of charging blocks is movably mounted to maintain contact with the other set of charging blocks. 4. The downhole power generator module of claim 1 , wherein the second set of the charging blocks comprise an array of individual charging blocks mounted on the second, movable sleeve, wherein the array comprises two or more circumferentially oriented rows and two or more axially oriented columns. 5. The downhole power generator module of claim 1 , wherein either the first set of the charging blocks or the second set of the charging blocks comprises glass. 6. The downhole power generator module of claim 1 , wherein either the first set of the charging blocks or the second set of the charging blocks comprises nylon. 7. The downhole power generator module of claim 1 , wherein either the first set of the charging blocks or the second set of the charging blocks comprises polytetrafluoroethylene (PTFE). 8. The downhole power generator module of claim 1 , wherein the first set of the charging blocks is mounted on a first, cylindrical sleeve within the body and the second set of the charging blocks is mounted on a second cylindrical sleeve within the body, wherein the first and second sleeves are coaxial with the outer housing, wherein the second sleeve is positioned within an annulus between the first sleeve and the outer housing, and wherein the second sleeve is movable with respect to the first sleeve and the outer housing. 9. The downhole power generator module of claim 8 , further comprising a pressure chamber at a first end of the second sleeve, wherein a fluid communication port enables fluid communication between the pressure chamber and the passageway through the outer housing and couplings. 10. The downhole power generator module of claim 9 , further comprising a spring positioned at a second end of the second sleeve opposite the first end of the second sleeve, wherein the spring urges the second sleeve toward the pressure chamber and wherein fluid pressure in the pressure chamber urges the second sleeve toward the spring.