Einar Brendeng scite author profile

A new flow calorimeter Ibr measuring isobaric enthalphy increme.lt and JouleThomson efl~:ct was built :rod tested during the period 1987-1993. The calorirneter has several features that reduce the heat leakage better than previous designs: this includes thermal shields cooled by propane, a heat sink, and superinsulation on all piping. The temperature and pressure range covered by the calorimeter is 133 to 343 K and 0.17 to 14 MPa. Measurements on a mixture of 68.32'!/,, methane and 31.68 % propane are presented. The enthalpy increment measurements have an average standard uncertainty of 0.08 kJ-kg ~, or 0.22% of the enthalpy increment.

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Enthalpy increment measurements on liquid ethane between the temperatures 146.0 K and 256.2 K, at pressures (≈1.6, 3.20, and 5.07) MPa

Grini

Mæhlum

Brendeng

et al. 1996

The Journal of Chemical Thermodynamics

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New Development in Design of Equipment for Measuring Thermal Conductivity and Heat Flow

Brendeng

Frivik

1974

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Thermal conductivity of materials and heat transmission through complex structures have been studied for many years at the Refrigeration Division of the Trondheim University. This paper describes some of the recent developments in test equipment design and operation. One fully-automatic guarded hot plate apparatus of the unidirectional type for high accuracy has been put in operation. It is capable of measuring at cold plate temperatures between 80 and 330 K at a typical difference of 10 K. A special method of accelerated balancing was introduced, and is used successfully for a number of different measuring purposes. A description of the control system is given. The study of convection influence in full-size insulations is continued. A part of this work is done using a large-scale hot box apparatus with a special edge design. Further, a large guarded hot plate equipment with a measuring area of 2 by 3 m2 for the same purpose is under construction. The temperature range for this equipment has been extended to 90 K on the cold side with a view to the testing of liquid natural gas tank insulations. Another important project concerns the heat transmission in natural ground freezing and the use of insulation for frost protection. Three guarded hot plate apparatus of special design are built to measure thermal conductivity of soils and building materials. These apparatus operate at cold plate temperatures between 200 and 320 K. Some work on the development of transient methods for heat conductivity measurement is also recorded.

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Einar Brendeng

Development and analysis of a natural gas reliquefaction plant for small gas carriers

State of the Art in Liquefaction Technologies for Natural Gas

New enthalpy increment flow calorimeter and measurements on a mixture of 68% methane and 32% propane

Enthalpy increment measurements on liquid ethane between the temperatures 146.0 K and 256.2 K, at pressures (≈1.6, 3.20, and 5.07) MPa

New Development in Design of Equipment for Measuring Thermal Conductivity and Heat Flow

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