Fuel and related compositions – Liquid fuels – Containing organic -c
Reexamination Certificate
2001-04-23
2004-09-07
Toomer, Cephia D. (Department: 1714)
Fuel and related compositions
Liquid fuels
Containing organic -c
C044S351000, C044S408000, C044S418000, C044S419000
Reexamination Certificate
active
06786940
ABSTRACT:
The present invention relates to mixtures suitable as paraffin dispersants having a lubricity effect, their use in mineral oil middle distillates, mineral oil middle distillates of this type and concentrates for this purpose.
Mineral oil distillates, in particular middle distillates, such as gas oils, diesel oils or light fuel oils, which are obtained by distillation from mineral oils, have different paraffin contents, depending on the origin of the crude oil. At relatively low temperatures, solid paraffins separate out (cloud point, CP). On further cooling, the lamellar n-paraffin crystals form a type of “house of cards structure” and the middle distillate sets although the predominant part of the middle distillate is still liquid. The flowability of the middle distillate fuels is considerably impaired by the precipitated n-paraffins in the temperature range between cloud point and pour point; the paraffins block filters and result in a nonuniform supply of fuel to the combustion units or completely stop said supply. Similar faults occur in the case of light fuel oils.
It has long been known that the crystal growth of the n-paraffins in the combustion or power fuels obtained from mineral oil distillates can be modified by suitable additives. Effective additives prevent middle distillates from becoming solid at temperatures of only a few degrees Celsius below the temperature at which the first paraffin crystals separate out. Instead, fine, well crystallized, separate paraffin crystals form, which crystals pass through filters in motor vehicles and heating systems or at least form a filter cake which is permeable for the liquid part of the middle distillates, so that trouble-free operation is ensured. According to European standard EN 116, the efficiency of the flow improvers is expressed indirectly by measuring the cold filter plugging point (CFPP).
Ethylene/vinyl carboxylate copolymers have long been used as flow improvers. The disadvantage of these additives is that, owing to their higher density compared with the liquid part, the precipitated paraffin crystals tend to settle out to an increasing extent on the bottom of the container on storage. Consequently, a homogeneous low-paraffin phase forms in the upper part of the container and a two-phase paraffin-rich layer at the bottom. Since the middle distillate is generally taken off slightly above the bottom of the tank, both in the vehicle tanks and in storage or delivery tanks of the mineral oil dealers, there is a danger that the high concentration of solid paraffins will block filters and metering means. This danger is all the greater the greater the amount by which the storage temperature is below the precipitation temperature of the paraffins, since the amount of precipitated paraffin increases with decreasing temperature.
These problems can be reduced by the additional use of paraffin dispersants (wax antisettling additives).
Thus, EP-A-0 398 101 describes reaction products of aminoalkylene polycarboxylic acids with long-chain, secondary amines as paraffin dispersants for mineral oil middle distillates. However, the effect is not sufficient in all mineral oil middle distillate compositions, particularly when they have a low sulfur content of less than 500 ppm.
DE-A-11 49 843 describes the use of maleamic acids and their amine salts obtained from primary amines and maleic anhydride as corrosion inhibitors and stability improvers for mineral oil distillates as well as for preventing sediment formation. EP-A-0 106 234 describes the use of amine salts of maleamic acids obtained from primary amines and maleic anhydride as corrosion inhibitors for the storage and the transport of crude oils.
Since October 1996, only low-sulfur middle distillates having a sulfur content of not more than 500 ppm may be used as diesel fuels in the European Union, which fuels, owing to said sulfur content, help to achieve exhaust gases having a lower pollutant content. From the year 2000 onward, the maximum permissible sulfur content of diesel fuels in the European Union may not exceed 350 ppm. However, such diesel fuels have a substantially reduced lubricity, which can in some cases lead to high mechanical wear in distributor injection pumps of diesel engines.
The lubricity of low-sulfur diesel fuels can be improved by adding lubricity additives. According to standard CEC F-06-A-96, the efficiency is determined by the HFRR test (High Frequency Reciprocating Rig test) by determining the wear size WS1.4 in &mgr;m at 60° C.; the smaller the WS1.4, the lower is the wear and the better is the lubricity.
There are numerous patent applications for products which can improve the lubricity of low-sulfur diesel fuels. WO 95/33805 states that flow improvers and paraffin dispersants, including reaction products according to EP-A-0 398 101, can improve the lubricity of middle distillates. However, the lubricity effect is not sufficient in many mineral oil middle distillate compositions.
It is an object of the present invention to provide improved products which ensure improved flowability of mineral oil middle distillates at low temperature by virtue of the fact that they have a dispersing effect such that settling of precipitated paraffins is delayed or prevented, and which simultaneously contribute to improved lubricity of the mineral oil middle distillates.
We have found that this object is achieved, according to the invention, by a mixture containing
(a) from 5 to 95% by weight of at least one reaction product of a poly(C
2-20
-carboxylic acid) having at least one tertiary amino group with secondary amines and
(b) 5-95% by weight of at least one reaction product of maleic anhydride and a primary alkylamine.
The present invention also relates to the use of these mixtures as additives for mineral oil middle distillates, in particular as paraffin dispersants and lubricity additives. The invention likewise relates to concentrates and mineral oil middle distillates containing these mixtures.
Component (a)
Component (a) is a reaction product of a poly(C
2-20
-carboxylic acid) having at least one tertiary amino group with secondary amines.
The polycarboxylic acid preferably contains at least 3, particularly preferably 3 to 12, in particular 3 to 5, carboxyl groups. The carboxyl groups in the polycarboxylic acid preferably have 2 to 10 carbon atoms, acetyl groups being preferred. The carboxyl groups are linked in a suitable manner to the polycarboxylic acid, for example via one or more C and/or N atoms. They are preferably bonded to tertiary nitrogen atoms which, in the case of a plurality of nitrogen atoms, are linked via hydrocarbon chains.
Component (a) is preferably an amide, amidoammonium salt or ammonium salt, or a mixture thereof, of aminoalkanecarboxylic acids of the formulae I and II
where A is straight-chain or branched alkylene of 2 to 6, preferably 2 to 4, in particular 2 or 3, carbon atoms, or a radical of the formula (III)
where B is a radical of 1 to 19 carbon atoms, preferably a C
1-19
-alkylene radical, particularly preferably C
1-10
-alkylene, in particular a methylene radical. A is preferably an ethylene radical.
The secondary amine may be selected from a multiplicity of amines which carry hydrocarbon radicals which may be bonded to one another.
The secondary amine is preferably of the formula HNR
2
, where radicals R independently are straight-chain aliphatic radicals, in particular alkyl of 10 to 30, preferably 14 to 24, carbon atoms. They preferably have no hetero atoms or double or triple bonds. Preferably, the radicals R are identical.
The secondary amines can be bonded by means of amide structures or in the form of their ammonium salts to the polycarboxylic acid, also partly by means of amide structures and partly in the form of the ammonium salts. Preferably, little or no free acid groups are present.
Preferably, the amines are bonded completely in the form of the amide structures.
The amides or amidoammonium salts or ammonium salts of, for example, nitrilotriacetic acid, ethylenediamine-tetraacetic acid or 1,2-propylenediaminetetra
Hermeling Dieter
Wenderoth Bernd
BASF - Aktiengesellschaft
Toomer Cephia D.
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