| Patent application number | Description | Published |
|---|
| 20080291270 | TRANSPORT SYSTEM FOR MONITORING INDUSTRIAL PROCESSES - A system transports a device into a piece of industrial equipment for the purpose of collecting data inside of the industrial equipment. In an embodiment, the industrial equipment is a furnace and the device is an IR camera. The system opens a door covering an opening on the furnace, moves the IR camera inside of the furnace for a short time, the IR camera captures images, and the system removes the camera from the furnace and closes the door. | 11-27-2008 |
| 20080314150 | Mechanical oscillator activated or deactivated by a predetermined condition - The present invention is a mechanical oscillator for detection and measurement of corrosive or foreign materials. The elements include a means for mechanical excitation, and a mechanical oscillator, wherein said mechanical oscillator has a resonant frequency, f, and a quality factor, Q. A fuse fixed to the oscillator to change oscillator amplitude to or from essentially zero to resonance amplitude. In a preferred embodiment, the mechanical oscillator has the shape of a tuning fork where one region is compatible with the service fluid and the other region is incompatible with the service fluid or other contaminant. The sensor alarms when a measured amount of the incompatible material has been removed or the physical strength of the material has been compromised. | 12-25-2008 |
| 20100021154 | TRANSPORT SYSTEM FOR MONITORING INDUSTRIAL PROCESSES - A system transports a device into a piece of industrial equipment for the purpose of collecting data inside of the industrial equipment. In an embodiment, the industrial equipment is a furnace and the device is an IR camera. The system opens a door covering an opening on the furnace, moves the IR camera inside of the furnace for a short time, the IR camera captures images, and the system removes the camera from the furnace and closes the door. | 01-28-2010 |
| 20100151397 | SYSTEM AND METHOD FOR CONTROLLING FIRED HEATER OPERATIONS - Method of controlling the operation of a combustion device to provide safe and reliable operation while reducing NOx emission that includes providing a flow of fuel and diluent at a determined volume ratio to a flame in the combustion device; providing a flame stability sensor to generate a measurement of a characteristic of the flame, providing a flow measurement for each of the fuel and diluent, and controlling the determined volume ratio of fuel:diluent using the measurement from the flame stability sensor and/or flow measurements. A combustion system incorporating this method also is included. | 06-17-2010 |
| 20100163461 | METHOD AND SYSTEM FOR CONTROLLING THE AMOUNT OF ANTI-FOULING ADDITIVE FOR PARTICULATE-INDUCED FOULING MITIGATION IN REFINING OPERATIONS - A method and system for controlling fouling in a hydrocarbon refining process that includes measuring a level of a particulate in a process stream of the hydrocarbon refining process in communication with a hydrocarbon refinery component, identifying an effective amount of additive capable of reducing particulate-induced fouling based at least in part on the measured level of the particulate in the process stream, and introducing the effective amount of additive to the hydrocarbon refining process. | 07-01-2010 |
| 20100275689 | Tuning Fork Oscillator Activated or Deactivated by a Predetermined Condition - The present invention is a tuning fork oscillator for detection and measurement of corrosive or foreign materials. The elements include a means for mechanical excitation, and a mechanical oscillator, wherein said mechanical oscillator has a resonant frequency, f, and a quality factor, Q. A fuse fixed to the oscillator to change oscillator amplitude to or from essentially zero to resonance amplitude. In a preferred embodiment, the tuning fork has one region compatible with the service fluid and the other region is incompatible with the service fluid or other contaminant. The sensor alarms when a measured amount of the incompatible material has been removed or deposited. | 11-04-2010 |
| 20100324852 | DETERMINING THE RESONANCE PARAMETERS FOR MECHANICAL OSCILLATORS - The prior art describes the application of mechanical oscillators for the measurement of corrosion and/or deposition. Mechanical oscillators employ the use of resonance parameters, frequency and the quality factor Q, for the measurement of corrosion or deposition. However, the prior art does not consider the required precision for measuring frequency or Q in the presence of noise to make these measurements. In particular, the ability of the mechanical oscillator to measure small amounts of metal loss or deposition is not only dependent upon the mechanical design but is limited by the precision in determining the resonance frequency and Q. The present invention discloses methods for measuring these resonance parameters with a high precision in the presence of noise. This degree of precision is required to maximize the utility of these devices as sensitive probes for corrosion and deposition (fouling) measurement. All of the embodiments described herein employ curve fitting consistent with modeling the mechanical oscillator as a simple harmonic oscillator. This curve fitting procedure, combined with averaging and utilizing signal processing parameters to mitigate noise effects, adds considerable precision in measuring resonance parameters. | 12-23-2010 |
