Particle delivery system of an agricultural row unit

The invention claimed is: 1. A particle delivery system of an agricultural row unit, comprising: a first particle disc configured to meter a plurality of particles from a particle storage area, wherein the first particle disc comprises one or more first apertures; a second particle disc configured to receive each particle of the plurality of particles from the first particle disc and to transfer the particle toward a trench in soil, wherein the second particle disc comprises one or more second apertures; and at least one vacuum source in fluid communication with a first vacuum passage positioned adjacent to the first particle disc and with a second vacuum passage positioned adjacent to the second particle disc, wherein the at least one vacuum source is configured to reduce air pressure within the first vacuum passage to couple a particle of the plurality of particles to a first respective aperture of the one or more first apertures while the first respective aperture is aligned with the first vacuum passage, the at least one vacuum source is configured to reduce air pressure within the second vacuum passage to couple the particle to a second respective aperture of the one or more second apertures while the second respective aperture is aligned within the second vacuum passage, a rotation rate of the first particle disc is controllable to establish a particle spacing between the plurality of particles within the trench, and a rotation rate of the second particle disc is controllable to expel each particle of the plurality of particles at a particle exit speed. 2. The particle delivery system of claim 1 , comprising a controller having a memory and a processor, a first motor configured to drive the first particle disc to rotate, and a second motor configured to drive the second particle disc to rotate, wherein the controller is communicatively coupled to the first motor and the second motor, the controller is configured to control the rotation rate of the first particle disc by outputting a first output signal to the first motor, and the controller is configured to control the rotation rate of the second particle disc by outputting a second output signal to the second motor. 3. The particle delivery system of claim 2 , wherein the controller is configured to determine a target particle exit speed based on a type of the plurality of particles, a ground speed of the agricultural row unit, or both. 4. The particle delivery system of claim 3 , wherein the controller is configured to receive an input signal indicative of the particle exit speed of one particle of the plurality of particles and to output the second output signal indicative of instructions to adjust the rotation rate of the second particle disc based on the particle exit speed. 5. The particle delivery system of claim 4 , wherein the controller is configured to: output the second output signal indicative of instructions to increase the rotation rate of the second particle disc in response to determining that the particle exit speed is less than the target particle exit speed and a difference between the particle exit speed and the target particle exit speed exceeds a threshold value; and output the second output signal indicative of instructions to decrease the rotation rate of the second particle disc in response to determining that the particle exit speed is greater than the target particle exit speed and the difference between the particle exit speed and the target particle exit speed exceeds the threshold value. 6. The particle delivery system of claim 1 , comprising a particle transfer assembly disposed generally between the first particle disc and the second particle disc, wherein the particle transfer assembly is configured to facilitate transferring the plurality of particles to the second particle disc. 7. The particle delivery system of claim 6 , wherein the particle transfer assembly comprises a particle tube extending between the first particle disc and the second particle disc and configured to guide the plurality of particles from the first particle disc to the second particle disc. 8. The particle delivery system of claim 7 , comprising an air flow device configured to output an air flow into the particle tube to direct the plurality of particles from the first particle disc and into the particle tube. 9. The particle delivery system of claim 6 , wherein the particle transfer assembly comprises at least one guide wheel configured to rotate to accelerate the plurality of particles toward the second particle disc. 10. The particle delivery system of claim 1 , comprising an air flow device configured to output an air flow to accelerate the plurality of particles from the first particle disc toward the second particle disc. 11. The particle delivery system of claim 1 , comprising a first disc housing, wherein the first particle disc is disposed and configured to rotate within the first disc housing, and the particle storage area is formed within the first disc housing. 12. A particle delivery system of an agricultural row unit, comprising: a first particle disc configured to meter a plurality of particles from a particle storage area, wherein the first particle disc comprises one or more first apertures; a second particle disc configured to receive each particle of the plurality of particles from the first particle disc and to transfer the particle toward a trench in soil, wherein the second particle disc comprises one or more second apertures; at least one vacuum source configured to reduce air pressure adjacent to the first particle disc to couple a particle of the plurality of particles to a first respective aperture of the one or more first apertures and to reduce air pressure adjacent to second particle disc to couple the particle to a second respective aperture of the one or more second apertures; and a particle transfer assembly disposed generally between the first particle disc and the second particle disc, wherein the particle transfer assembly is configured to facilitate transferring the plurality of particles to the second particle disc, the first particle disc is configured to establish a particle spacing between the plurality of particles based on a rotation rate of the first particle disc, and the second particle disc is configured to expel the plurality of particles at a particle exit speed based on a rotation rate of the second particle disc. 13. The particle delivery system of claim 12 , wherein the particle transfer assembly comprises at least one guide wheel configured to rotate to accelerate the plurality of particles toward the second particle disc. 14. The particle delivery system of claim 13 , comprising a controller having a memory and a processor, and a motor configured to drive the at least one guide wheel to rotate, wherein the controller is communicatively coupled to the motor, and the controller is configured to control the rotation rate of the at least one guide wheel by outputting an output signal to the motor. 15. The particle delivery system of claim 14 , wherein the controller is configured to receive an input signal indicative of a particle transfer speed of one particle of the plurality of particles at the second particle disc and to output the output signal indicative of instructions to adjust the rotation rate of the at least one guide wheel of the particle transfer assembly based on the particle transfer speed, such that the particle transfer speed reaches a target particle transfer speed. 16. The particle delivery system of claim 15 , wherein the controller is configured to: output the output sign