Recovery hopper trough for vibratory separator and method

What is claimed: 1. An apparatus comprising: a vibratory separator having a top deck, a middle deck, and a bottom deck; and a collection trough coupled to at least one of the top deck, the middle deck, and the bottom deck, the collection trough comprising: a collection container having an inlet configured to receive a material retained on the at least one of the top deck, the middle deck, and the bottom deck and a sloped surface configured to guide the material from the inlet to an outlet of the collection container; a discharge end opposite with respect to the inlet of the collection container such that a flow path is provided from the outlet of the collection container to the discharge end and through the discharge end, wherein the discharge end is configured to convey guided material from the outlet of the collection container; and a pressure differential generator, having a tapered nozzle with an exit end, positioned below the outlet of the collection container such that the exit end of the tapered nozzle is provided directly below the outlet of the collection container and within the flow path between the outlet of the collection container and the discharge end, when the collection trough is coupled to the at least one of the top deck, the middle deck, and the bottom deck. 2. The apparatus of claim 1 , wherein the collection trough comprises a conduit coupled to the outlet of the collection container, the pressure differential generator coupled between the conduit and the outlet. 3. The apparatus of claim 2 , wherein the pressure differential generator is an eductor. 4. The apparatus of claim 2 , wherein the conduit comprises a fluid inlet located upstream of the pressure differential generator. 5. The apparatus of claim 2 , wherein the collection container comprises a fluid inlet disposed proximate the inlet. 6. The apparatus of claim 5 , wherein the fluid inlet of the collection container is fluidly coupled to the conduit. 7. An apparatus comprising: a vibratory separation having deck with a screening surface; and a collection trough coupled to the deck, the collection trough comprising: a hopper having an inlet and an outlet; a conduit coupled to the outlet of the hopper such that a flow path is proved from the outlet of the hopper to the conduit, and an eductor coupled to the outlet of the hopper and having a tapered nozzle with an exit end, wherein the exit end of the eductor is provided within the flow path and directly below the outlet of the hopper when the collection trough is coupled to the deck, wherein the eductor is coupled to the conduit such that the eductor and the conduit form a continuous flow path. 8. The apparatus of claim 7 , wherein the tapered nozzle tapers in a direction toward a discharge end of the conduit. 9. The apparatus of claim 7 , wherein the collection trough further comprises: a collection container having an inlet and an outlet, the conduit fluidly coupling the outlet of the hopper and the outlet of the collection container. 10. The apparatus of claim 9 , wherein the conduit further comprises a fluid inlet located between the outlet of the hopper and the outlet of the collection container. 11. The apparatus of claim 9 , wherein the collection trough further comprises a second eductor coupled to the conduit proximate the outlet of the collection container. 12. The apparatus of claim 9 , wherein the eductor of the hopper and the eductor of the collection container are oriented oppositely. 13. The apparatus of claim 7 , further comprising a hose fluidly coupled between the conduit and a fluid distribution apparatus disposed in the hopper. 14. A method comprising: providing a flow of drilling fluid from a wellbore to a screening deck of a vibratory separator; separating the drilling fluid into a filtrate and an overflow; directing the overflow to a hopper of a collection trough proximal to the screening deck; creating a pressure differential below an outlet of the hopper via pressure differential generator having a tapered nozzle with an exit end, wherein the exit end of the tapered nozzle is provided directly below the outlet of the hopper and within a flow path from the outlet of the hopper, and flowing the overflow from the collection trough through an outlet conduit coupled to the outlet of the hopper. 15. The method of claim 14 , further comprising injecting a flushing fluid into the hopper proximate an inlet of the hopper. 16. The method of claim 14 , wherein the creating the pressure differential comprises providing a fluid to the pressure differential generator comprising an eductor coupled to the outlet of the hopper. 17. The method of claim 14 , further comprising creating a pressure differential proximate an outlet of a second hopper of the collection trough, thereby flowing the overflow from the second hopper through the outlet pipe coupled between the second hopper and the hopper. 18. The method of claim 14 , further comprising: forming a continuous conduit or flow path, via the pressure differential generator and the outlet conduit, by coupling the pressure differential generator between the outlet of the hopper and the outlet conduit.