DE3535839A1 - METHOD FOR OPERATING HYDRAULIC SYSTEMS WITH LIQUIDS BASED ON GLYCOLES - Google Patents

Description

The invention relates to a method for operating Hydraulic systems with a hydraulic fluid on the Base of glycols.

The essential parts of equipment for hydraulic Power transmission (hydraulic systems) are known the hydraulic pump to convey the hydraulic fluid generating a hydraulic pressure, the with the hydraulic fluid and / or with hydraulic Device to be supplied with pressure, for example a too lubricating plain bearing or a working cylinder or Hydraulic motor for converting hydraulic energy into mechanical energy, the pipe system in which the hydraulic Liquid from the pump to the facility mentioned and flows back to the pump (circulatory system) and the hydraulic fluid reservoir. This reservoir is in the circulatory system and is open to the outside, that is, in the container there is atmospheric pressure, so no (no significant) Overpressure or underpressure. That in the storage or liquid container liquid volume is in usually two to three times the flow rate per minute the hydraulic pump. The container is also so large that above the liquid level a more or less there is a large (free) space. In the known hydraulic systems with a storage container, these are containers, which are a number of useful and beneficial  Facilities include, as mentioned above is open to the outside; this is through some opening, for example in the lid of the container, by its own Venting device and the like reached.

As hydraulic fluids based on glycols are glycols or mixtures within the scope of the invention understood by glycols with water.

Glycols (stabilized with corrosion inhibitors, antioxidants, Wear inhibitors and other useful Additives) as hydraulic fluid, for example used for the lubrication of hydrostatic plain bearings.

Glycol-water mixtures (solutions) are among the heaviest flammable hydraulic fluids. These liquids according to international agreements (cf. e.g. DIN 51 502) in the four groups A, B, C and D. divided and designated with HFA, HFB, HFC and HFD (in the designation HF stands for "H" for hydraulic fluid and the "F" for fire resistant).

HFA liquids are oil-in-water emulsions with a Oil content of at most 20%. The permissible application temperature range is between +5 and + 55 ° C.

HFB liquids are water-in-oil emulsions with a Oil content of at most 60%. They are for operating temperatures approved between +5 and + 60 ° C.

HFC liquids are aqueous, additive-containing polymer solutions with at least 35% water. As HFC liquids are usually glycol-water mixtures (solutions) understood with the additives mentioned above. you are Can be used for temperatures from -20 to + 60 ° C.

HFD liquids are anhydrous synthetic products, those from high-boiling, oxidation-stable, additive-containing Liquids exist and are used from -20 to + 150 ° C can be. As HFD fluids are usually Phosphoric acid esters and chlorinated hydrocarbons as well Mixtures understood.  

In hydraulic systems with a flame retardant Hydraulic fluid in which temperatures exceed 60 ° C occur, are currently HFD liquids used. However, these hydraulic fluids have a number of disadvantages. The phosphoric acid esters allow especially with regard to flame retardancy wish left. The chlorinated hydrocarbons are polychlorinated biphenyls (PCB), are due to the latest Findings especially with regard to ecological Viewpoints problematic. The HFD liquids also leave with regard to viscosity-temperature behavior to be desired. After the HFC fluids (glycol Water mixtures) sufficient flame resistance exhibit, are ecologically almost without problems and also the important properties such as viscosity-temperature behavior, Rubber and elastomer behavior, metal compatibility (Corrosion behavior) and the like, there is a great need for glycol-water Use mixtures as a replacement for HFD liquids to be able to. However, this presupposes that these mixtures withstand temperatures of more than 60 ° C and are operational at these temperatures.

In hydraulic systems with glycols as hydraulic fluid particularly high temperatures may occur on, which increases the stability and lifespan of the used Glycols are particularly badly affected. So the glycol in the hydrostatic mentioned above Bearing lubrication heated to such a high temperature be that the use of glycol from several Reasons already seems problematic.

The object of the invention is therefore a Propose solution that liquids on the Base of glycols even at elevated temperatures  Hydraulic fluids can be used while doing so no significant interference with their chemical and physical properties and their operational Suffer functions. The object of the invention consists in particular in proposing a solution for that the flame retardant hydraulic fluids of the glycol water type even at temperatures up to can be applied at about 100 ° C.

It has surprisingly been found that liquids, which essentially consist of glycols or of glycol Water mixtures exist, even at high temperatures can use as hydraulic fluids if the glycol or the glycol-water mixture charged with an inert gas, so that a permanent Inert gas pressure is present.

The method according to the invention for operating hydraulic systems with a hydraulic fluid on the base of glycols is characterized in that the Hydraulic fluid (that's the glycol or the glycol- Water mixture) in the reservoir of the hydraulic system is kept under an inert gas pressure.

According to the invention, the storage container is outward closed, for security reasons with With the help of a pressure relief valve. The one above the liquid level free space of the storage container is located acted upon according to the invention with an inert gas and it an overpressure is maintained on the inert gas used. According to the invention, the excess pressure is in the range of 0.01 up to 10 bar, preferably in the range from 0.1 to 1 bar. Argon, helium and nitrogen are suitable inert gases called; Nitrogen is for convenience prefers.  

With the method according to the invention, even at high Temperatures a surprisingly good stabilization of Glycols or glycol-water mixtures achieved. The The method according to the invention is primarily for the field the flame retardant hydraulic fluids. With the new process, it is possible everywhere where HFD fluids were previously used had to use HFC fluids based on glycol and Use water. Glycol water solutions currently only up to 60 ° C can be used with the help of The inventive method up to about 100 ° C trouble-free be used for operation, that is, without loss their estimated beneficial chemical and physical properties. This is a totally unexpected Result, especially to be feared was that when using the in question HFC liquids at a temperature of more than 60 ° C considerable malfunctions would occur especially by oxidation and tribochemical Changes. It was surprising that neither oxidative nor tribochemical changes occurred; the liquids rather, they retained their functionally decisive features at, that is, their corrosion behavior, wear behavior, Viscosity-temperature behavior, their pH and their reserve alkalinity.

In the context of the invention, glycol is a hydraulic fluid understood, which essentially consists of glycol consists (glycol is the main component) and with the usual additives is provided. Such liquids become, as already mentioned above, for lubrication used by plain bearings.

Under the terms glycol-water mixtures and glycol- Water solutions are used in the context of the invention international agreements defined HFC liquids understood on the basis of glycols and water.  

By definition, they contain glycol and water as the main components corrosion inhibitors, wear inhibitors, Oxidation inhibitors, pH stabilizers and other useful additives.

The monomeric or polymeric glycol compounds are called glycol of ethylene oxide and propylene oxide understood. The term glycol therefore includes monoethylene glycol, Diethylene glycol, monopropylene glycol, dipropylene glycol and Polyalkylene glycols from ethylene oxide and / or propylene oxide.

The invention is now based on a drawing and Examples explained in more detail.

Fig. 1 of the drawing shows a schematic representation of a hydraulic system in which a working cylinder is operated as a work-performing device with an HFC liquid of the glycol-water type.

Fig. 2 shows a schematic representation of a hydraulic system in which a plain bearing is lubricated with glycol (hydrostatic plain bearing lubrication).

In Fig. 1, the reservoir 1 glycol-water containing liquid 2. The free space 3 above the liquid 2 is acted upon by nitrogen gas 4 , a nitrogen overpressure being maintained. The nitrogen gas 4 has been brought into the room 3 via the line 5 with the valve 6 . The manometer 7 is used to set and control the nitrogen pressure. The storage vessel 1 is connected to the circular line system 8 and the pump 9 . The pump 9 conveys the hydraulic fluid 2 under control with the control valve 10 to the work-performing device in the form of a working cylinder 11 and back to the container 1 .

In Fig. 2, the reservoir 12 contains a polypropylene glycol 13 as a hydraulic fluid (lubricant). The free space 14 located above the liquid 13 is acted upon by nitrogen gas 15 , a nitrogen overpressure being maintained. The nitrogen gas 15 has been brought into the room 14 via the line 16 with the valve 17 . The manometer 18 is used to set and control the nitrogen pressure. The reservoir 12 is connected to the circular line system 19 and the pump 20 . The pump 20 conveys the lubricant 13 to the slide bearing 21 and back to the container 12 .

example 1

An HFC liquid of the following type was used in a system according to the present FIG. 1:
45% by weight water
30% by weight monoethylene glycol
20% by weight of polyethylene propylene glycol with an average molecular weight of 30,000
5% by weight additives.

The hydraulic system was at a temperature for 1000 hours operated at 95 ° C and a pressure difference of 105 bar, that is, the HFC liquid specified above had a temperature of 95 ° C during operation. in the free space of the storage container, that is the space above of the liquid level, a nitrogen Maintain overpressure of 0.3 bar (the space above the Liquid level is usually about 5 to 30%, based on the volume of the container).

Comparative example

Example 1 was repeated, but with the plant was not kept under a nitrogen pressure, but under the pressure that arises at 95 ° C Glycol water solution and the free space of the storage container located atmosphere resulted. That pressure was 0.2 bar.  

Result of Example 1 and Comparative Example: No faults occurred in Example 1. The values important chemical and physical properties the HFC liquid used was retained. in the In contrast, the liquid pointed out after performing of the comparative example property values that are considerable below the required levels; obviously had the glycol when the comparative example was carried out experienced significant thermal decomposition.

The results are summarized in the table below. The table contains the values of four important chemical and physical properties of the glycol-water mixture used, namely before its use (unused state), after implementation of Example 1 and after implementation of the comparative example. The four characteristics are:
(1) viscosity at 20 ° C (mm ² / s)
(2) viscosity at 40 ° C (mm ² / s)
(3) pH
(4) Reserve alkalinity (ml 0.1 normal hydrochloric acid per 10 g sample).

Properties of the glycol-water mixtures

Example 2

In a hydraulic system according to the present FIG. 2, a conventional polypropylene glycol was used as the liquid for lubricating the slide bearing. The space in the storage container above the liquid level was pressurized with nitrogen and a nitrogen overpressure of 0.8 bar was maintained. The liquid reached a temperature of 180 ° C during operation. It was shown that the properties of the polypropylene glycol were largely retained in spite of this high temperature, so that thermal decomposition could be largely prevented. The measurement of the viscosity at 98.9 ° C in mm ² / s (property 1), the pH (property 2) and the acid number in mg KOH / g sample (property 3) for the polypropylene glycol used (unused polypropylene glycol) and for Polypropylene glycol after performing Example 2 gave the following values:

Properties of the polypropylene glycols

With the method according to the invention, one becomes surprising high stabilization of glycols and glycol Water solutions reached. This makes it possible - and this is a particularly great advantage of the invention Process - HFC liquids of the water type Use glycol instead of HFD liquids, for example in mining, where a particularly great need after such a replacement exists because of the toxicological and ecological problems of HFD liquids.

Claims (8)

1. A method for operating hydraulic systems with a hydraulic fluid based on glycols, characterized in that the hydraulic fluid is kept in the reservoir of the hydraulic system under an inert gas pressure. 2. The method according to claim 1, characterized in that that an inert gas pressure of 0.01 to 10 bar is maintained becomes. 3. The method according to claim 1, characterized in that an inert gas pressure of 0.1 to 1 bar is maintained becomes. 4. The method according to any one of claims 1 to 3, characterized characterized in that nitrogen is used as the inert gas becomes. 5. The method according to one or more of claims 1 to 4, characterized in that as hydraulic fluid Glycols are used. 6. The method according to one or more of claims 1 to 4, characterized in that as hydraulic fluid Glycol-water mixtures used will. 7. The method according to claim 1, characterized in that as hydraulic fluid a glycol water Mix with at least 35 wt .-% water and as Inert gas and nitrogen are used Inert gas overpressure kept from 0.01 to 10 bar becomes.   8. The method according to claim 7, characterized in that that an inert gas pressure of 0.1 to 1 bar is maintained becomes.