SU763442A1 - Combined heat-carrier - Google Patents

Description

The invention relates to the composition of organic coolants and can be used for heating and cooling process equipment in the chemical industry, petrochemical, nuclear energy and other industries. Known 1 coolant, including diphenyl mixture, which contains (wt.% :) diphenyloxide 73.5, diphenyl 26.5. However, this coolant has a high melting point (vl23 ° C) j, which makes it difficult to operate. The closest to the invention by technical properties and the achieved result is the composition of the coolant, including a diphenyl mixture consisting of (wt.%) Diphenyloxide 6.8, technical diphenyl 28.0, as well as an additive in an amount of 12 wt.% As Naphthalene 2 is used. A disadvantage of the known coolant is its high melting point 5., 7 ° C) and also the insufficiently wide range of working temperature zones. The aim of the invention is to expand the range of operating temperatures and lower the melting point. This goal is achieved by introducing 10-40 wt.% Monoisopropylterphenyl into the known composition of the heat carrier as an additive. The combined heat transfer compositions are prepared by mixing the starting components. The table shows the melting points of the combined heat carrier containing various amounts of diphenyl mixture (DFS) and monoisopropylterphenyl (MIPT). Temperature Composition, wt.% Melting, ° C

3763442

Table continuation

And private (2

t5,7

As can be seen from the obtained data, the proposed coolant has a lower melting point, equal to -18 ° C, and allows to expand the range of operating temperatures (from -18 ° to + 380 ° C), allows to simplify the instrumentation of the heating system and

cooling of machines and apparatus, and t 1K-zs, the cost of the coolant compared to the known at 107s.

Claims (2)

1. Chechetkin A. V. High-temperature coolants, M., Energie, 1971. 2. US patent number 1972847, cl. 252-73, 12.19.31 (prototype).