A water softener apparatus comprises two water softener tanks one of which is always operating, valves controlling the flow of water and a flow-meter, wherein, after a set volume of water has passed through one tank, water is passed through the other tank. The apparatus uses ion-exchange tanks which may be regenerated by brine when not softening hard water. The flow-meter preferably comprises an actuator which moves in a cyclic movement in response to the flow of a set quantity of water and actuates two service valves which send pressured water signals to a drain shuttle valve. The drain shuttle valve then diverts hard water from one tank to another and initiates regeneration of the first tank. A regeneration meter terminates the alternate regeneration of the two tanks. The regeneration meter is positioned in the apparatus of a point where brine for regeneration of the two water softener components is received into the apparatus.

A water softener salt monitoring system includes a brine tank configured for retaining a quantity of salt, a quantity of water and having a bottom, a sensor secured to the brine tank and constructed and arranged for sending a signal to the bottom, the sensor including a receiver configured for receiving a reflected signal off of at least one of the quantity of salt, the quantity of water and the bottom, and a controller connected to the sensor and programmed to compare the reflected signals with preset values, and for generating an alarm signal upon receipt of deviations from the preset values.

Control strategy and algorithms to be utilized in a programmable logic control for automating injection rates of corrosion inhibitor and scaling inhibitor in a process plant. The logic control system can be programmed on a Distributed Control System (DCS) or Supervisory Control And Data Acquisition (SCADA) of the plant. The automating system is developed with the objective of optimizing corrosion inhibitor and scale inhibitor usage, thereby reducing operating cost, improving the reliability and integrity of process plant facilities, and preventing undesirable incident of loss of containment.

Control strategy and algorithms to be utilized in a programmable logic control for automating injection rates of corrosion inhibitor and scaling inhibitor in a process plant. The logic control system can be programmed on a Distributed Control System (DCS) or Supervisory Control And Data Acquisition (SCADA) of the plant. The automating system is developed with the objective of optimizing corrosion inhibitor and scale inhibitor usage, thereby reducing operating cost, improving the reliability and integrity of process plant facilities, and preventing undesirable incident of loss of containment.

A residential retrofit brine reclamation system includes a brine reclamation control panel; a flow sensor; and a three-way valve. The control panel includes a controller with an adjustable timer. The flow sensor is electrically connected to the controller and is connected to a tee fitting via a push-connect fitting with tubing. The three-way valve is electrically connected to the controller and has a softener effluent inlet, a brine water return outlet, and a drain outlet. A method of brine reclamation includes installing the brine reclamation system onto a resin tank and a brine tank and programming the controller to set a regeneration cycle time. The system identifies the start of a regeneration mode by sensing a flow in a softener brine line and directs softener effluent into the valve inlet. After draining some of the softener effluent, the system closes the drain outlet and opens the brine tank return outlet.

A residential retrofit brine reclamation system includes a brine reclamation control panel; a flow sensor; and a three-way valve. The control panel includes a controller with an adjustable timer. The flow sensor is electrically connected to the controller and is connected to a tee fitting via a push-connect fitting with tubing. The three-way valve is electrically connected to the controller and has a softener effluent inlet, a brine water return outlet, and a drain outlet. A method of brine reclamation includes installing the brine reclamation system onto a resin tank and a brine tank and programming the controller to set a regeneration cycle time. The system identifies the start of a regeneration mode by sensing a flow in a softener brine line and directs softener effluent into the valve inlet. After draining some of the softener effluent, the system closes the drain outlet and opens the brine tank return outlet.

Control strategy and algorithms to be utilized in a programmable logic control for automating injection rates of corrosion inhibitor and scaling inhibitor in a process plant. The logic control system can be programmed on a Distributed Control System (DCS) or Supervisory Control And Data Acquisition (SCADA) of the plant. The automating system is developed with the objective of optimizing corrosion inhibitor and scale inhibitor usage, thereby reducing operating cost, improving the reliability and integrity of process plant facilities, and preventing undesirable incident of loss of containment.

Control strategy and algorithms to be utilized in a programmable logic control for automating injection rates of corrosion inhibitor and scaling inhibitor in a process plant. The logic control system can be programmed on a Distributed Control System (DCS) or Supervisory Control And Data Acquisition (SCADA) of the plant. The automating system is developed with the objective of optimizing corrosion inhibitor and scale inhibitor usage, thereby reducing operating cost, improving the reliability and integrity of process plant facilities, and preventing undesirable incident of loss of containment.

The present invention is a water softener brine tank salt bag splitter with a blade and telescoping mounting rod positioned below the tank lid to accommodate a variety of tank sizes and stiffen the lateral flexibility of the tank sidewall. Looped vertical mounting brackets secure over and around the upper edge of the tank sidewall to preserve the seal between the tank sidewall and lid. The mounting rod and brackets form a platform to support the weight of a salt bag when pouring salt pellets into the tank. The configuration of the brackets and the weight of the bag locks the bracket in place to prevent the blade from rotating when the bag drops down onto the blade. The device includes a rod assembly with an adjustable length, a cutting blade attached to a surface of the rod assembly, and brackets connectable to first and second ends of the rod assembly.

The present invention is a water softener brine tank salt bag splitter with a blade and telescoping mounting rod positioned below the tank lid to accommodate a variety of tank sizes and stiffen the lateral flexibility of the tank sidewall. Looped vertical mounting brackets secure over and around the upper edge of the tank sidewall to preserve the seal between the tank sidewall and lid. The mounting rod and brackets form a platform to support the weight of a salt bag when pouring salt pellets into the tank. The configuration of the brackets and the weight of the bag locks the bracket in place to prevent the blade from rotating when the bag drops down onto the blade. The device includes a rod assembly with an adjustable length, a cutting blade attached to a surface of the rod assembly, and brackets connectable to first and second ends of the rod assembly.