Patent application number | Description | Published |
20090190924 | Method and system for automatic feedback control for fine tuning a delay interferometer - A method for receiving an optical signal is included where an ingress signal is split into a first portion and a second portion. A relative delay is induced between the first portion and the second portion, which are optically interfered to generate at least one interfered signal. Quality criteria of a monitored signal at least based on the at least one interfered signal is monitored so that a relative delay based in the quality criteria may be adjusted. | 07-30-2009 |
20100119225 | Fiber optic telecommunications card with security detection - A transceiver card for a telecommunications box for transmitting data over a first optical fiber and receiving data over a second optical fiber. The card has transmitter for transmitting data over the first optical fiber, the transmitter having a laser and a modulator, a fiber output optically connected to the laser for connecting the first optical fiber to the card, a fiber input for connecting the second optical fiber to the card, a receiver optically connected to the fiber input for receiving data from the second optical fiber, and an OTDR optically connected between the transmitter and the fiber output or between the receiver and the fiber input. An energy level detector is also provided between the receiver and the fiber input. | 05-13-2010 |
20100205629 | Device and method for provisioning or monitoring cable services - A device for controlling cable signals between a network cable and drop cables to customers includes an input for receiving cable signals; a first output connector for sending the cable signals to a first customer; a second output connector for sending the cable signals to a second customer; electronics selectively connecting the input to the first output connector so as to permit or deny a provision of the cable signals to the first customer, and selectively connecting the input connector to the second output connector to permit or deny provision of the cable signals to the second customer; and a cable modem, the cable modem capable of receiving instructions via the input and sending the instructions to the microprocessor and sending information via the input. A device for connecting between a cable tap and drop cables is also provided, as are various methods and cable systems. | 08-12-2010 |
20110089082 | Method and device for enhanced metal and amine removal from crude oil with controlled electrostatic coalescence - A method for removing metals, amines, and other impurities from crude oil in a desalting process that includes the steps of adding a wash water to the crude oil; adding the wash water to the crude oil to create an emulsion; adding to the wash water or the emulsion at least one water-soluble hydroxyacid; selecting the hydroxyacid additive from the group consisting of glycolic acid, gluconic acid, C.sub.2-C.sub.4 alpha-hydroxy acids, malic acid, lactic acid, poly-hydroxy carboxylic acids, thioglycolic acid, chloroacetic acid, polymeric forms of the above hydroxyacids, poly-glycolic esters, glycolate ethers, and ammonium salt and alkali metal salts of these hydroxyacids, and mixtures thereof; resolving the emulsion containing the crude oil, wash water, and hydroxyacid additive into a hydrocarbon phase and an aqueous phase using electrostatic coalescence, the undesired impurities being transferred to the aqueous phase; measuring the characteristics of one or more of the resulting crude oil output, effluent waste, and/or other intermediate points; and altering one or more characteristics of the desalting operation as a function of the measurements. Various oil desalting configurations are also provided. | 04-21-2011 |
20110100877 | Method and device for automated control of enhanced metal and amine removal from crude oil - A method for removing calcium, iron, other metals, and amines from crude oil in a refinery desalting process includes the steps of adding a wash water to the crude oil; adding the wash water to the crude oil to create an emulsion; adding to the wash water, the crude oil or the emulsion an acid additive consisting of at least one of the following: oxalic acid, citric acid, water-soluble hydroxyacid selected from the group consisting of glycolic acid, gluconic acid, C.sub.2-C.sub.4 alpha-hydroxy acids, malic acid, lactic acid, poly-hydroxy carboxylic acids, thioglycolic acid, chloroacetic acid, polymeric forms of the above hydroxyacids, poly-glycolic esters, glycolate ethers, and ammonium salt and alkali metal salts of these hydroxyacids, and mixtures thereof; heating at least one of the crude oil, the wash water or the emulsion to a desired temperature; resolving the emulsion containing the acid additive into a hydrocarbon phase and an aqueous phase using electrostatic coalescence, the metals and amines being transferred to the aqueous phase; measuring at least one desalting process characteristic at at least one process point; performing a statistical calculation of the desalting process performance based upon the measuring; and adjusting a control setting of the desalting process as a function of the statistical calculation. Other methods and devices are also provided. | 05-05-2011 |
20110120913 | Method and device for electrostatic desalter optimization for enhanced metal and amine removal from crude oil - A method for removing calcium, iron, other metals, and amines from crude oil in a refinery desalting process includes the steps of: running a plurality of tests to determine at least one statistically significant processing characteristic of the refinery desalting process; adding a wash water to the crude oil; adding the wash water to the crude oil to create an emulsion; adding to the wash water, the crude oil or the emulsion an acid additive consisting of at least one of the following: oxalic acid, citric acid, water-soluble hydroxyacid selected from the group consisting of glycolic acid, gluconic acid, C.sub.2-C.sub.4 alpha-hydroxy acids, malic acid, lactic acid, poly-hydroxy carboxylic acids, thioglycolic acid, chloroacetic acid, polymeric forms of the above hydroxyacids, poly-glycolic esters, glycolate ethers, and ammonium salt and alkali metal salts of these hydroxyacids, and mixtures thereof; resolving the emulsion containing the acid additive into a hydrocarbon phase and an aqueous phase; and adjusting a control setting of the processing characteristic as a function of the tests. | 05-26-2011 |