A method for detecting a structural anomaly in a pipeline supply network is disclosed where the pipeline supply network is configured to supply fluid to multiple receiving locations. The method comprises receiving acoustic signal data from a selected location in the pipeline supply network and generating a first time window of acoustic signal data based on the acoustic signal data. The method then includes benchmarking the first time window of acoustic signal data with respect to historical background acoustic signal data characterising the pipeline supply network to generate a corresponding background benchmarked first time window of acoustic signal data and then determining an anomaly measure for the background benchmarked first time window of acoustic signal data where the anomaly measure indicates a presence of the structural anomaly.

A plumbing distribution and control panel system is provided. The plumbing distribution and control panel system has a main control panel unit having an interior. A portion of each of a plurality of pipes of a residence or commercial building may pass through the control panel to various zones of the building such as, for example, a water heater or tankless heater, a kitchen, a bathroom, a utility room, a laundry room, a basement, an exterior unit, or a mechanical room of a commercial building. The main control panel may allow a user to control the flow of water through the pipes in those zones. The main control panel allows for the easy cut-off of flowing water which may prevent damage to the residence or commercial building. A wireless system may also allow a user to wirelessly control the flow of water through the pipes.

The present invention is a system and method for quickly and efficiently detecting water leaks and leak flow rates in plumbing systems which can include flexible materials and components. The preferred system is comprised of a static device (known as a “water widget”), an expansion gauge temporarily connected to the physical system through a controllable manifold, a mathematical model (known as a “phantom water widget”), and a software program which accepts input related to the physical system and which outputs a result.

A water leakage detection device for a water and sewage pipe is provided. The water leakage detection device includes a sound detector installation pipe having a tubular shape with the same cross-section as that of a hole formed in the water and sewage pipe at an interval and configured to allow one end thereof to be fixed and installed in the hole, and an adjustment valve installed on the inside spaced apart from an end part of the other end of the sound detector installation pipe at a predetermined interval and configured to adjust whether to introduce water inside the water and sewage pipe to the sound detector installation pipe.

Techniques for managing delivery of water or other fluids have been disclosed. A central server provides real-time data and cost analysis to a client. In addition, fluid delivery techniques provide alerts or automatic schedule suspensions to reduce risk of loss. The techniques reduce or eliminate the impact of air or gas captured with water or other fluid of a fluid delivery system. The techniques allow a preexisting fluid delivery system to be retrofitted to communicate with a central system and one or more sensors of a fluid delivery system.

A water circuit purging system for purging water from a water circuit, comprising: a water discharge line; a flow directing device coupling a main water line to a water source and to the water discharge line, and movable between an operative configuration in which the main water line is in fluid communication with the water source, and a discharge configuration in which the main water line is in fluid communication with the water discharge line; a pump for pumping water from the water discharge line when the flow directing device is in the discharge configuration; a condition sensor for sensing a condition of the main water line; and a controller for receiving an indication of the sensed condition and to move the flow directing device from the operative configuration to the discharge configuration upon determination that the main water line is in a predetermined condition based on the sensed condition.

Systems and methods for determining leaks in a water distribution system using water devices within buildings. Pressure readings over time from two or more water devices. Egress readings and possibly other noise are removed from the pressure readings to isolate signals for leaks from outside of the buildings. Using the isolated signals, the location of the leak in the water distribution system can be approximated.

A method and system for analysing a condition of a pipeline in real time is disclosed. The method and system comprise generating a transient pressure wave in fluid carried along the pipeline and detecting a transient pressure wave interaction signal responsive to the transient pressure wave where the pressure wave interaction signal has a time duration corresponding to a region of interest of the Generate Transient Pressure pipeline. The method and system further includes processing the transient pressure wave interaction signal to analyse the region of interest of the pipeline.

A method for identifying the source of pressure transients in a water distribution network comprising a plurality of high-frequency pressure sensors installed therein. The method includes an acquisition step to acquire a plurality of pressures values for each high frequency pressure sensor during a preset time limit, said plurality of pressures values defining a sampled pressure variation record nearby each sensor during said preset time limit; a detection step for detecting transient events amongst the sampled pressure variation record; a grouping step for grouping detected transient events amongst the sampled pressure variation record; and a localization step for localizing the source of said grouped transient events in function of said sampled pressure variation records.

The invention relates in part to an autonomous, self-powered valve for continuous monitoring of water flow within a domestic or commercial water pipe network. The invention also relates to a network in which the valve is remotely monitored for detection of abnormalities in water use patterns.