A photothermal deflection measuring system includes a substrate, a detecting light source, a detecting unit, and a processor. The substrate includes a plurality of positioning structures, on each of which supports a cell emitting heat outside a surface thereof. The detecting light source is utilized to project a detecting light passing through a specific position outside the surface whereby the detecting light is deflected due to a thermal gradient caused by the emitted heat. The detecting unit is arranged at a side of the cell for receiving the deflected detecting light thereby generating an optical deflection signal corresponding to a deflection of the deflected detecting light. The processor is configured to receive the optical deflection signal, analyze the optical deflection signal and determine a heat value corresponding to the specific position out side the surface of the cell according to the optical deflection signal.

A composite sensor includes a first sensor configured to detect a first physical quantity; a second sensor as a sensor of a different type from the first sensor, the second sensor being configured to detect a second physical quantity identical to or correlating with the first physical quantity; and an internal control unit configured to perform failure diagnosis for at least one of the first sensor or the second sensor by comparison between a detection result of the first sensor and a detection result of the second sensor.

A composite sensor includes a first sensor configured to detect a first physical quantity; a second sensor as a sensor of a different type from the first sensor, the second sensor being configured to detect a second physical quantity identical to or correlating with the first physical quantity; and an internal control unit configured to perform failure diagnosis for at least one of the first sensor or the second sensor by comparison between a detection result of the first sensor and a detection result of the second sensor.

A sample of a material is placed into a measuring cell of a calorimeter consisting of upper and the lower parts connected with each other by a movable detachable tight connection. The cell is equipped with two coaxially arranged tubes capable of independent connection to external devices. An outer tube is connected to the upper part of the cell and an inner tube is connected to the lower part of the cell via the movable detachable tight connection and is movable. At least once a contact of the sample with vapor of a liquid is provided and heat of adsorption is measured, then contact of the sample with the same or another liquid is provided and heat of wetting of the sample by the same or the other liquid is measured.

A sample of a material is placed into a measuring cell of a calorimeter consisting of upper and the lower parts connected with each other by a movable detachable tight connection. The cell is equipped with two coaxially arranged tubes capable of independent connection to external devices. An outer tube is connected to the upper part of the cell and an inner tube is connected to the lower part of the cell via the movable detachable tight connection and is movable. At least once a contact of the sample with vapor of a liquid is provided and heat of adsorption is measured, then contact of the sample with the same or another liquid is provided and heat of wetting of the sample by the same or the other liquid is measured.