The application relates to processes for a water heater or boiler, particularly to operation and troubleshooting modes for a water heater or boiler.
Newly installed or new construction commercial gas fired water heaters or boilers often require a gas company representative be present when the water heater or boiler is first fired. Some commercial installations operate a series of water heaters or boilers at the same time for increased heating capacity. Once operational, there can be certain sequences or profiles of operation which repeat only occasionally or seemingly at random times.
A pre-startup control method for a boiler or water heater includes: providing a controller operatively coupled to a boiler or water heater unit; performing a unit shutdown operation; enabling a pre-start up mode; at about a same time or in any order, moving an air fuel valve by a controller to a non-off position with a gas supply to the water heater or boiler turned off, wherein the controller turns on a blower at an operational level associated with a set air fuel position, and the controller causes an ignitor to spark; and displaying parameters which allow an affirmation of a safe and reliable ignition prior to a gas turn on of the boiler or water heater unit.
A flow balancing method for a plant having a plurality of boilers or water heaters includes: providing a controller operatively coupled to a plurality of boiler or water heater units of a plant, each unit of the plant including an isolation valve; initiating by use of the controller a manual or automatic flow balancing process; shutting down the plant and setting each unit to a certain fire rate; and automatically setting valve position of each unit by the controller to achieve a common desired temperature rise across each water heater or boiler unit or adjusting a valve position of each unit manually by use of the controller to achieve a common desired temperature rise across each water heater or boiler unit.
A programmed auto run method for a boiler or water heater includes: providing a controller operatively coupled to a boiler or water heater unit; shutting down the boiler or water heater unit by the controller; setting at least one profile with a plurality of points, each point including a hold duration and a setpoint as a configured profile; running the boiler or water heater unit to recreate the configured profile by an on demand run of the configured profile; and on completion of run of the configured profile returning by the controller, the boiler or water heater unit to a normal mode of operation.
The foregoing and other aspects, features, and advantages of the application will become more apparent from the following description and from the claims.
The features of the application can be better understood with reference to the drawings described below, and the claims. The drawings are not necessarily to scale, emphasis instead generally being placed upon illustrating the principles described herein. In the drawings, like numerals are used to indicate like parts throughout the various views.
The description is divided into three parts describing three new processes for water heaters or boilers: a control method—pre-start up, a flow balancing method, and a programmed auto run process.
Control Method—Pre-Start Up
One of the problems with commissioning a new water heater or boiler installation is to be able to know if the new water heater or boiler is functional and operational before the gas supply is turned on. A related problem is that utility company personnel called to inspect an installation and/or turn on the gas supply to a new water heater or boiler may be delayed or forced to make a second trip to the site, if when powered, the new water heater or boiler exhibits some fault which delays the inspection and gas turn on process.
A solution to the problem of commissioning a new water heater or boiler is a new procedure which allows a water heater or boiler technician to check the water heater or boiler unit before the gas is turned ON to the building. This new pre-start up procedure ensures that an installer or owner/operator can verify correct operation of the key gas and electric related components before calling for utility company personnel to inspect an installation. When the utility company person arrives on site, he or she does not have to come back after waiting for some time while an otherwise unexpected or unanticipated problem is fixed.
Flow Balancing Method
A plant can include two or more water heaters or boilers which can operate in concert as a “cascade”. For example, a boiler sequencing technology an exemplary Boiler Sequencing Technology system (BST) can operate up to 16 boilers as part of an integrated boiler control system. When there is a demand, the Manager will light off one of the boilers based on the BST Sequencing selection in the BST Cascade Status screen. When there is a demand, the Manager will light off one of the boilers based on the BST Sequencing selection in the BST Cascade Status screen. As the systems load, the Manager will light off the next available unit.
In any multiunit system, such as the exemplary BST Cascade described hereinabove, it is desirable to balance units operating at the same time. A Valve Balancing screen GUI can be used to setup and configure a Balanced Flow Isolation Valve feature. The goal of this Valve Balancing feature is to raise or lower all unit's current ΔT (water outlet temp minus water inlet temp) to match the plant's target ΔT, thereby balancing the load across multiple boilers (e.g. multiple boilers in a BST cascade). Prior to balancing, in normal operation all isolation valves (each unit is connected to the cascade by an isolation valve) are either fully closed or fully open (0% or 100% open). Valve balancing is accomplished by reducing the isolation valve's “fully open” position, thereby restricting the flow from the unit's hot water outlet, as needed, until the unit's ΔT matches the plant's target ΔT. This can be repeated on the other units in the BST cascade until each unit's ΔT is approximately the same.
A new flow balancing method allows an owner/operator of two or more water heater or boiler units to balance the flow through a valve max position adjustment at a selected valve position and inlet location, while maintaining a given temperature rise. The graphical user interface (GUI) screens of the flow balancing method provide a quick visual view of all of the units in a plant, what their temperature rise is, and if they are faulted.
In manual mode, a user can select one unit at a time to balance. However, in automatic mode, the system controller goes through each unit automatically.
While the controller is performing the functions on the left side of the flowchart, it can simultaneously check that there is no unsafe condition, fault, error, etc. occurring. All the safety checks are in place. The block for operational integrity applies the entire time the unit is automatically or manually setting the valve balancing function.
Programmed Auto Run
One problem in trouble shooting, diagnosing, and repairing problems with water heaters or boilers is that it can be difficult to recreate certain running conditions at will. For example, there may be some awareness of sequences of operation or profiles that are related to a problem. While some of those sequences might seem random in nature, others are at least generally known or observed sequences, but difficult or impossible to re-produce on demand while the technician is present.
A solution is a new programmed auto run mode where the owner/operator, or more typically, a repair technician can program a suspect profile to intentionally run on demand By use of the new programmed auto run mode, an otherwise frustrating seeming random sequence can now be run on demand for the repair technician to observe and diagnose the problem that might repeat only during one or a limited number of sequences or profiles of operation.
Controller (a controller having disposed within one or more processors) code in firmware and/or software to provide the features, functions, and modes for a hot water heater or boiler as described hereinabove can be provided on a computer readable non-transitory storage medium. A computer readable non-transitory storage medium as non-transitory data storage includes any data stored on any suitable media in a non-fleeting manner Such data storage includes any suitable computer readable non-transitory storage medium, including, but not limited to hard drives, non-volatile RAM, SSD devices, CDs, DVDs, etc.
It will be appreciated that variants of the above-disclosed and other features and functions, or alternatives thereof, may be combined into many other different systems or applications. Various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the following claims.
All references cited herein are incorporated herein by reference in their entirety and for all purposes to the same extent as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated by reference in its entirety for all purposes.
This application claims priority to and the benefit of co-pending U.S. provisional patent application Ser. No. 62/842,013, WATER HEATER AND BOILER PROCESSES, filed May 2, 2019, which application is incorporated herein by reference in its entirety.
Number | Date | Country | |
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62842013 | May 2019 | US |