An arrangement for closing a container, in particular a flask, for determining evaporation properties of a liquid in the flask according to at least one standardized test. The arrangement has at least one temperature measurement system, a sensor, a closing element adapted for contacting a surface of an opening in the container for closing the container and having a through-opening through which a portion of the temperature measurement sensor is guided such that a lower end of the sensor is arranged within the container. The arrangement further includes a mechanism for adjusting a position of the lower end of the sensor along a longitudinal direction of the temperature measurement sensor.

A system for determining a property of a fluid includes a sensing cable including an optical fiber sensor array located within the sensing cable; a heating element aligned with the optical fiber sensor array; and a nucleating surface, surrounding the sensing cable, to induce boiling of the fluid exposed to the nucleating surface when heated by the heating element. A system for determining a property of a fluid includes a sensing cable including an optical fiber sensor array located within the sensing cable; and a heating element, aligned with the optical fiber sensor array, to continuously heat the fluid exposed to the sensing cable. A system for determining a property of a fluid includes a sensing cable including an optical fiber sensor array; and a heating element, aligned with the optical fiber sensor array, to heat the fluid exposed to the sensing cable to induce nucleate boiling of the fluid.

A substance detection system and a substance detection method are provided. The temperature identifying portion identifies a surface temperature of the quartz substrate, based on a difference between a deviation of the fundamental wave frequency from at least any predetermined reference fundamental wave frequency of the reference crystal resonator and the detecting crystal resonator and a deviation of the third harmonic frequency from a predetermined reference third harmonic frequency. The substance identifying portion identifies a temperature at which a contaminant attached to the detecting crystal resonator is desorbed from the detecting crystal resonator to identify the contaminant based on the temperature at which the contaminant is desorbed. The temperature is identified based on a difference between the fundamental wave frequency of the reference crystal resonator and the fundamental wave frequency of the detecting crystal resonator measured by the frequency measuring portion and the temperature identified by the temperature identifying portion.

A substance detection system and a substance detection method are provided. The temperature identifying portion identifies a surface temperature of the quartz substrate, based on a difference between a deviation of the fundamental wave frequency from at least any predetermined reference fundamental wave frequency of the reference crystal resonator and the detecting crystal resonator and a deviation of the third harmonic frequency from a predetermined reference third harmonic frequency. The substance identifying portion identifies a temperature at which a contaminant attached to the detecting crystal resonator is desorbed from the detecting crystal resonator to identify the contaminant based on the temperature at which the contaminant is desorbed. The temperature is identified based on a difference between the fundamental wave frequency of the reference crystal resonator and the fundamental wave frequency of the detecting crystal resonator measured by the frequency measuring portion and the temperature identified by the temperature identifying portion.

A system and method for distillation of a liquid sample at atmospheric pressure for the improved prediction of the heating necessary before the initial boiling point (IBP) of the sample is detected regardless of sample composition to ensure the IBP is observed within certain time constraints. A plurality of infrared (IR) sensors provides real-time temperature control in addition to a conventional measurement of vapor temperature. One IR-sensor monitors the liquid sample temperature in the distillation flask to obtain a corrected IBP time independent of the sample properties. Another IR-sensor monitors the temperature of the rising vapor column as the vapor rises up the neck of the distillation flask. Alternatively, an IR matrix may monitor the temperature of the rising vapor column. The system and method expand the scope of samples analyzed with improved signal, reproducibility, and test accuracy and still remain within the prescribed limits of a selected standard.

A detachable boiling point detector for brake fluid includes a holding portion and a detecting portion connected to the holding portion. The holding portion has a connecting portion, and an assembling end of the detecting portion is detachably connected to the connecting portion. The detecting portion has a heater and a temperature sensor which are connected to a first port. A first circuit board and a second circuit board are assembled in the holding portion and spaced by a distance. A second port is assembled on the second circuit board and facing the detecting portion. The first port is detachably combined with the second port. When the detecting portion is connected to the holding portion, the first port and the second port are combined with each other at a connection between the assembling end and the connecting portion.

A detachable boiling point detector for brake fluid includes a holding portion and a detecting portion connected to the holding portion. The holding portion has a connecting portion, and an assembling end of the detecting portion is detachably connected to the connecting portion. The detecting portion has a heater and a temperature sensor which are connected to a first port. A first circuit board and a second circuit board are assembled in the holding portion and spaced by a distance. A second port is assembled on the second circuit board and facing the detecting portion. The first port is detachably combined with the second port. When the detecting portion is connected to the holding portion, the first port and the second port are combined with each other at a connection between the assembling end and the connecting portion.

A system for determining a property of a fluid includes a sensing cable including an optical fiber sensor array located within the sensing cable; a heating element aligned with the optical fiber sensor array; and a nucleating surface, surrounding the sensing cable, to induce boiling of the fluid exposed to the nucleating surface when heated by the heating element. A system for determining a property of a fluid includes a sensing cable including an optical fiber sensor array located within the sensing cable; and a heating element, aligned with the optical fiber sensor array, to continuously heat the fluid exposed to the sensing cable. A system for determining a property of a fluid includes a sensing cable including an optical fiber sensor array; and a heating element, aligned with the optical fiber sensor array, to heat the fluid exposed to the sensing cable to induce nucleate boiling of the fluid.

A process for determining the distillation characteristics of a liquid petroleum product that contains an azeotropic mixture of an oxygenated or nitrogen-containing component and at least one petroleum blending component.

An apparatus for Vapour Liquid Equilibrium (VLE) data measurement of a mixture to establish a quick equilibrium and to avoid flashing is disclosed herein. With the known apparatus, the underlining problems are heat loss or improper mixing, flashing inside the apparatus High boiling point difference, and prolong time to establish equilibrium conditions. In order to overcome stated problems, the apparatus is provided with a vapour-liquid mixer (K) for proper mixing of equilibrium liquid from the equilibrium chamber and vapor condensate from the condenser (L) before recycling back to the boiling chamber (F) to avoid any temperature and composition gradient and for fast attainment of equilibrium. Additionally, a cooling jacket (P) is provided to a mixing chamber (K) and a connecting tube between an equilibrium chamber and the mixing chamber (K) to avoid flashing for the accurate measurement of VLE data.