A flow rate assembly can include a fluid flow interface portion having a front facing wall and a back facing wall. The flow interface portion can include an inlet passage within the fluid flow interface portion, an outlet passage within the fluid flow interface portion, at least one inlet aperture extending through the front facing wall of the fluid flow interface portion into the inlet passage, and at least one outlet aperture extending through the back facing wall of the fluid flow interface portion into the outlet passage. In some cases, the fluid flow interface portion includes a plug forming at least a portion of the inlet passage.

A flow rate assembly can include a fluid flow interface portion having a front facing wall and a back facing wall. The flow interface portion can include an inlet passage within the fluid flow interface portion, an outlet passage within the fluid flow interface portion, at least one inlet aperture extending through the front facing wall of the fluid flow interface portion into the inlet passage, and at least one outlet aperture extending through the back facing wall of the fluid flow interface portion into the outlet passage. In some cases, the fluid flow interface portion includes a plug forming at least a portion of the inlet passage.

An electric measurement method and apparatus for detecting a mass by an electric capacity (permittivity) or a material's dielectric constant, or alternatively, electric inductance (permeability). The mass may be any phase or combination of phases. The mass may be stationary or flowing. It may comprise discrete particles such as grain, or manufactured products such as ball bearings or threaded fasteners, etc. The mass may be a flow element in a rotameter or similar flow measurement device. The sensor comprises a volume which may be completely full or only partially full of the material. The material may be discrete components or a continuum. Sensor signals may be received by existing planter monitoring systems. In some embodiments the flow sensors are positioned external to the application port. In some embodiments sensors may be utilized which are responsive to the refractive index variation of specific chemicals.

An electric measurement method and apparatus for detecting a mass by an electric capacity (permittivity) or a material's dielectric constant, or alternatively, electric inductance (permeability). The mass may be any phase or combination of phases. The mass may be stationary or flowing. It may comprise discrete particles such as grain, or manufactured products such as ball bearings or threaded fasteners, etc. The mass may be a flow element in a rotameter or similar flow measurement device. The sensor comprises a volume which may be completely full or only partially full of the material. The material may be discrete components or a continuum. Sensor signals may be received by existing planter monitoring systems. In some embodiments the flow sensors are positioned external to the application port. In some embodiments sensors may be utilized which are responsive to the refractive index variation of specific chemicals.

Electric fluid flow monitoring apparatus, and agricultural fluid application systems and methods including the same are described. The fluid flow monitoring apparatus generally includes an outer housing defining a cavity. The outer housing includes an inlet for fluid to enter the cavity and an outlet for fluid to exit the cavity. Fluid flows through the cavity from the inlet to the outlet. The flow monitoring apparatus also includes an inner housing defining an interior cavity and positioned within the outer housing cavity such that fluid flows through the interior cavity. The inner housing is removably connected to the outer housing such that the inner housing is interchangeable with another inner housing having a different cross-sectional profile. The flow monitoring apparatus further includes a traveler movably disposed within the interior cavity.

Electric fluid flow monitoring apparatus, and agricultural fluid application systems and methods including the same are described. The fluid flow monitoring apparatus generally includes an outer housing defining a cavity. The outer housing includes an inlet for fluid to enter the cavity and an outlet for fluid to exit the cavity. Fluid flows through the cavity from the inlet to the outlet. The flow monitoring apparatus also includes an inner housing defining an interior cavity and positioned within the outer housing cavity such that fluid flows through the interior cavity. The inner housing is removably connected to the outer housing such that the inner housing is interchangeable with another inner housing having a different cross-sectional profile. The flow monitoring apparatus further includes a traveler movably disposed within the interior cavity.

An electric measurement method and apparatus for detecting a mass by an electric capacity (permittivity) or a material's dielectric constant, or alternatively, electric inductance (permeability). The mass may be any phase or combination of phases. The mass may be stationary or flowing. It may comprise discrete particles such as grain, or manufactured products such as ball bearings or threaded fasteners, etc. The mass may be a flow element in a rotameter or similar flow measurement device. The sensor comprises a volume which may be completely full or only partially full of the material. The material may be discrete components or a continuum. Sensor signals may be received by existing planter monitoring systems. In some embodiments the flow sensors are positioned external to the application port. In some embodiments sensors may be utilized which are responsive to the refractive index variation of specific chemicals.

An electric measurement method and apparatus for detecting a mass by an electric capacity (permittivity) or a material's dielectric constant, or alternatively, electric inductance (permeability). The mass may be any phase or combination of phases. The mass may be stationary or flowing. It may comprise discrete particles such as grain, or manufactured products such as ball bearings or threaded fasteners, etc. The mass may be a flow element in a rotameter or similar flow measurement device. The sensor comprises a volume which may be completely full or only partially full of the material. The material may be discrete components or a continuum. Sensor signals may be received by existing planter monitoring systems. In some embodiments the flow sensors are positioned external to the application port. In some embodiments sensors may be utilized which are responsive to the refractive index variation of specific chemicals.

Electric fluid flow monitoring apparatus, and agricultural fluid application systems and methods including the same are described. The fluid flow monitoring apparatus generally includes a housing, a sensor assembly, and a traveler. The housing defines an interior cavity, and includes an inlet for fluid to enter the interior cavity and an outlet for fluid to exit the interior cavity. The sensor assembly is disposed in the interior cavity, and extends longitudinally in the direction of fluid flow. The traveler is movably supported by the sensor assembly such that fluid flow through the interior cavity causes the traveler to move longitudinally along the sensor assembly. The sensor assembly detects a longitudinal position of the traveler relative to the sensor assembly.

Electric fluid flow monitoring apparatus, and agricultural fluid application systems and methods including the same are described. The fluid flow monitoring apparatus generally includes a housing, a sensor assembly, and a traveler. The housing defines an interior cavity, and includes an inlet for fluid to enter the interior cavity and an outlet for fluid to exit the interior cavity. The sensor assembly is disposed in the interior cavity, and extends longitudinally in the direction of fluid flow. The traveler is movably supported by the sensor assembly such that fluid flow through the interior cavity causes the traveler to move longitudinally along the sensor assembly. The sensor assembly detects a longitudinal position of the traveler relative to the sensor assembly.