A self-contained well water system is designed to be interposed between an external well pump and a plumbing system of a building. The system requires an installer or building owner to make only three basic connections for fully-functional operation: a single water inlet connection from the well pump to the well water system, a single water outlet connection from the well water system to a main input line of the building plumbing system, and a single power connection to provide electrical power to the electrical components of the system, and may also distribute power out to the well pump. The remaining components and the connections therebetween are configured and factory-assembled for maximum performance and efficiency.

Systems, apparatuses, and methods are disclosed for changing a primary extraction location from an aquifer. An elongate tube-like structure has an upper end and a lower end. The upper end is adapted to attach to a well pump above an intake of the well pump. The lower end is adapted to receive water from the aquifer for the well pump. A length of the elongate tube-like structure is longer than the well pump and extends to a depth below a motor configured with the well pump.

A method of determining a condition of an electric submersible pump (ESP) includes gathering acceleration data from a first accelerometer and a second accelerometer. The first accelerometer and the second accelerometer are affixed to the ESP. The first accelerometer is oriented orthogonally with respect to the second accelerometer. The method further includes obtaining orbit data from the acceleration data, determining a magnitude and/or phase angle of a harmonic of a rotational frequency of a motor of the ESP based on the orbit data, and determining a condition of the ESP based on the magnitude and/or phase angle of the harmonic.

A method of determining a condition of an electric submersible pump (ESP) includes gathering acceleration data from a first accelerometer and a second accelerometer. The first accelerometer and the second accelerometer are affixed to the ESP. The first accelerometer is oriented orthogonally with respect to the second accelerometer. The method further includes obtaining orbit data from the acceleration data, determining a magnitude and/or phase angle of a harmonic of a rotational frequency of a motor of the ESP based on the orbit data, and determining a condition of the ESP based on the magnitude and/or phase angle of the harmonic.

The present disclosure relates to systems and methods for determining the water level and health of a wellbore. The system may be configured to perform a wellbore water level determination method and a wellbore health determination method to determine the water level in a wellbore (and/or the health of the wellbore) using a set of real-time parameters and pump-characteristics data.

The present disclosure relates to systems and methods for determining the water level and health of a wellbore. The system may be configured to perform a wellbore water level determination method and a wellbore health determination method to determine the water level in a wellbore (and/or the health of the wellbore) using a set of real-time parameters and pump-characteristics data.