DE102004055474A1 - Bitumen mix production for road paving comprises mixing bitumen with broken rock, mineral filler and recycled asphalt granules comprises adding oil to recycled asphalt granules - Google Patents

Abstract

The production of a bitumen mix for road paving by mixing bitumen with broken rock, mineral filler and recycled asphalt granules comprises adding an oil to the recycled asphalt granules.

Description

The The invention relates to a process for the production of bituminous mix for the Road construction.

asphalt represents the most important building material for road construction. Rolled asphalt exists from a mineral mixture of graded grits with bitumen as binder. The mix is hot installed and compacted. In 99% of all cases, road asphalt mixtures are used in road construction used.

mastic asphalt is a dense mass of split, sand, filler and bitumen. The binder content is on the cavities of the mineral mixture adjusted so that these in the installed state fully filled are. Mastic asphalt is in hot Condition pouring and brushable and requires no compaction during installation. Its meaning for the road construction is however limited and it will only be in 1% of all cases Mastic asphalt in road construction used. The production of the for the road construction certain bituminous Mixing is done in asphalt mixing plants, of which the finished material trucked to the construction site and installed there. In the asphalt mixing plants, the bituminous mix (asphalt) passes through together of the components mineral rock, rock fillers, bitumen and old asphalt granules / milled material (granules) produced. Optionally, additional additives are added.

The Manufacturing process comprises the following stages:

1. pre-dosage:

Out individual Doseuren be different rock varieties and grains subtracted according to the prescribed recipe.

2nd drying:

In a rotating rotary kiln (drying drum) is the moisture driven out of the minerals and the material heated to 200 ° C to 350 ° C.

3. Screening:

The Mineral mixture is in the sieve tower in the individual grain fractions split and in hot mineral bags cached.

4. Weighing:

ever according to recipe will be needed Dosed and weighed amount into the mineral balance. Parallel to this will be Weigh the fine component (filler) in another balance.

5. Mixing:

In a compulsory mixer, the components rock, filler with Bitumen and asphalt granules are batch mixed into asphalt. The finished mix reaches temperatures of 160 ° C to 180 ° C.

since A few years ago, the idea of recycling was also used in the production of asphalt special importance. The reuse of reclaimed asphalt means namely a substitution of new minerals and recovery of bitumen, what essential for the protection of the natural Rock deposits and the world's limited crude oil resources contributes. Accordingly, includes in many cases the production process of bituminous mix for road construction still another process step, namely:

6. Recycling:

Of the Old asphalt or maturing asphalt is in granulated form (granules / milled material) either when cold (cold addition) or as a separately heated material Added (hot addition) in the mixing plant to the mix. The recycling process can therefore be carried out in two ways, namely on the one hand as cold addition and on the other hand as a hot addition.

When Cold addition is the addition of non-heated recycled material to the heated minerals in the production process, without them to heat yourself first. By contact with the hot minerals in the mixer the material moisture of the granulate / milled material is expelled and the warming reached on the resulting mixed product temperature. The released Steam can relax in the system unhindered and is over a Suction device fed to the dedusting.

The System technology of cold addition consists of add-ons, RC-Elevator or RC riser and weighing with subsequent feeding of the Granules / milled material into the batch mixer of the asphalt mixing plant. The quantity-proportional addition is by weighing (belt scale, wagon container) with high accuracy carried out.

About powerful Kaltzugabevorrichtungen be added depending on the type of mixed material addition rates driven by 40%.

When Hot addition is the addition of separately heated granules / milled material in the production process. The energy input takes place in a special installed drying and heating plant, which the granules / milled material passes in cocurrent to the burner flame. Due to the separate heating of the Granules / milled material is opposite the cold addition a much higher Addition rate possible. The hot addition is primarily used to remove in the mix retarded Humidity.

The through recycling Reuse of worn asphalt pavements, d. H. Removal asphalt or Old asphalt, has Although already great ecological and economic Benefits, but the recycling process is still in some Points in need of improvement. For example, attachments occur in product-contacted plant parts and caking of the heated Granules / milled material and the maximum possible Residence time of the heated Granules / milled material in the middle silo is too short. Desirable would continue an increase the recycling rate and the possibility lower the production temperatures, thereby saving fuel consumption and reducing emissions.

Of the Invention is therefore based on the object, the above-mentioned shortcomings of the prior art overcome the technique and in particular a new production process for bituminous mixtures in which the intermediate storage of the heated granules / milled material significantly improved and lowered the production temperatures can be. About that In addition, the processability of the asphalt granules / Milling material to the Mischgutherstellung and the installation of the resulting asphalt mix to be improved on the construction site.

These The object is achieved by a A process for the production of bituminous mix for road construction solved, the characterized in that the asphalt granules / milled material Oil-based adduct is added.

at the method according to the invention can, as with the conventional ones Procedures usually used components, namely Mineral rock, rock fillers, Bitumen and granules / milled material, be used.

in the Difference to the methods known from the prior art is inventively but one Oil-based additive used. The invention used Additive is referred to as slip and / or release agent. The additive according to the invention can be made from flux oils and heavy oils are selected.

Are flux oils chemically high-boiling paraffin and naphthenic mineral oil-hydrocarbon mixtures.

Examples of suitable flux oil, which may be used according to the invention are: Polyflux ^® 70/50, Storflux, flux oil heavy oils are chemically understood high-boiling, highly viscous petroleum hydrocarbon mixtures which are formed as residual oil in the processing of crude oil.

Examples for suitable Heavy oils used in the invention can be are: fuel oil S, heating oil SA.

Generally correspond to the material properties of the invention used Additive mixtures higher boiling petroleum hydrocarbons, and the additives are incorporated insoluble in the matrix of bitumen. The boiling point of the invention used Additives is consistently above the production temperatures occurring of the production process, the volatility of Substances is low.

It can be assumed that the inventively used as additives Substances as release agent between the contact surfaces of the storage silo and the heated Granules work and by surface contact be insoluble in the matrix of aged bitumen. The As a result, reduced buildup in the buffer silo and the reduced bitumen hardness (RK value) causes an extension the granulate / milling material residence time in the buffer silo and an improvement in the processability of the granules / Milling material the Mischgutherstellung and the installation of the resulting asphalt mix the construction site. Due to the high boiling temperatures of the invention used Adducts (generally> 250 ° C) and the significantly lower granulate / milling material temperatures in the production process (generally at the output parallel drum about 120 ° C, in the mixer about 150 ° C) are no significant changes in emissions for the parameter total carbon detected in the exhaust air of the mixing plant.

• • Zugabe in den Einlaufbereich der Paralleltrommel: Die Zugabelanze ragt mit der Spitze in den Einlaufbereich der Paralleltrommel hinein und dosiert das Gleit- und Trennmittel vor Anordnung der Flammschutzbleche über das Granulat/Fräsgut.
• • Zugabe in den Auslaufbereich der Paralleltrommel: Die Zugabelanze ragt mit der Spitze in den Auslaufbereich der Paralleltrommel hinein und dosiert das Gleit- und Trennmittel im Bereich der Auslaufschnecke über das Granulat/Fräsgut.
• • Zugabe in die Förderschnecke zum Mischer: Die Zugabeleitung ist direkt am Einlaufbereich des Schneckentroges angebracht und dosiert das Gleit- und Trennmittel auf das Granulat/Fräsgut während der Mischerzugabe.
• • Zugabe in den Pufferbehälter oder Wiegebehälter: Die Zugabelanze ragt mit der Spitze in den Einwurfbereich des Pufferbehälter oder Wiegebehälter hinein und dosiert das Gleit- und Trennmittel in den parabelförmigen Materialfluss des Granulats/ Fräsgut.
• • Zugabe in den Mischer: Die Zugabelanze ragt mit der Spitze direkt in den Mi scher hinein und dosiert das Gleit- und Trennmittel in einem Vormischgang über das Granulat/Fräsgut.

The additive may preferably be added to the granules / milled material at different points of the production plant both in the hot addition and in the cold addition:

• • Adding to the inlet area of the parallel drum: The gauge lance protrudes with the point into the inlet area of the parallel drum and doses the lubricant and separating agent before placing the flame protection plates over the granulate / milled material.
• • Adding to the outlet area of the parallel drum: The feed lance protrudes with the tip into the outlet area of the parallel drum and doses the lubricant and release agent in the area of the outlet screw over the granulate / milled material.
• • Addition to the screw conveyor to the mixer: The feed line is directly attached to the inlet area of the screw trough and doses the lubricant and release agent onto the granulate / milled material during mixer addition.
• • Addition to the buffer tank or weighing bin: The metering lance protrudes with the tip into the throw-in area of the buffer tank or weighing bin and doses the lubricant and release agent into the parabolic material flow of the granulate / milled material.
• • Addition to the mixer: The metering lance projects directly into the mixer with the tip and doses the lubricant and release agent in a pre-mixing cycle over the granulate / milled material.

The Additive is in a double-walled steel tank with aptitude determination stored and then removed from it for admixing the granules. The technical equipment of the tank corresponds to the standard of approved heating oil tanks, i.e. with double-walled shell, Leak warning indicator and overfill protection by limiters.

When For example, media line becomes a seamless steel tube with a Diameter of example 1 inch and with cutting ring fittings used. The line is in the single-strand system with as a lance operated free outlet. The promotion takes place through a media-resistant pump with a maximum output of, for example 300 l / h. The delivery rate is given and over regulated a flow measurement.

Regarding the invention zuzusetzenden Amount of the oil-based additive Depending on the nature of the additive certain differences. In case of using flux oils and heavy oils as an additive, the amount of addition is generally in the range of 1-10 l / t Asphalt granulate / milled material, preferably 2-5 l / t asphalt granulate / milling good, most preferably about 3 l / t asphalt granulate / milled material.

By the invention achieves multiple advantages over the prior art. As a decisive advantage According to the invention, the system temperatures (Manufacturing temperatures) significantly, for example, 20 ° -30 ° C, lowered resulting in significant fuel savings and savings leads to a significant reduction in emissions. Other advantages are seen in the circumstance that sticking and baking of the heated Granules / milled material on product contact Plant parts for the hot addition (parallel drum), RC storage silo (Addition device) is significantly reduced and the residence time of granules / milled material increased in the RC storage silo becomes. Further advantages result from improved processability of the resulting mix due to improved flow properties and higher Smoothness, especially when installed manually as well as from structural engineering View of the increase the recycling rates (RK value reduction).

The invention will be apparent from the attached 1 and 2 explained in more detail. The figures depict asphalt mixing plants for the process according to the invention. The plants are essentially similar plants according to the prior art with the exception that special facilities for the supply of the additive according to the invention are installed.

• a) in den Einlaufbereich Paralleltrommel und
• b) in den Auslaufbereich Paralleltrommel.

When in the 1 The system shown is the addition of additive (ie, the lubricant and release agent) on hot addition, and indeed

• a) in the inlet area parallel drum and
• b) in the outlet area parallel drum.

In the 1 The system shown contains the following plant components:
A drying drum 100 , a heating oil tank 110 , an RC pre-dosage 200 , an RC elevator 210 , an RC parallel drum 220 , an RC storage silo 230 , an RC weighing 240 , an RC feed chute 250 , a lubricant and separating agent tank 300 and a sliding and separating agent metering pump 310 ,

The handled substances are in 1 as follows:
The raw material with the reference numeral 1 , the hot raw material by the reference numeral 2 , the asphalt granules by the reference number 3 , the rock flour with the reference numeral 4 , the bitumen by the reference numeral 5 , the mix with the reference number 6 , the fuel oil by the reference numeral 7 and the adduct added in accordance with the invention, which also acts as a lubricant and release agent, is identified by reference B.

• a) in den Einlaufbereich der Paralleltrommel 220 oder
• b) in den Auslaufbereich der Paralleltrommel 220 zugegeben werden. Das Asphaltgranulat 3 wird mit dem zugesetzten Gleit- und Trennmittel 8 daraufhin im RC-Vorratsilo 230 gelagert und gelangt von dort über die RC-Verwiegung 240 und die RC-Zugabeschurre 250 in einen Zwangsmischer.

The asphalt granulate 3 passes through the RC pre-dosage 200 and the RC-Elevator 210 to dry in the RC parallel drum 220 , In this case, the additive (ie the lubricant and release agent 8th ) via warm addition by the lubricant and separating agent metering pump 310 from the lubricant and separating agent tank 300 either

• a) in the inlet region of the parallel drum 220 or
• b) in the outlet area of the parallel drum 220 be added. The asphalt granulate 3 becomes with the added lubricant and release agent 8th then in the RC storage silo 230 stored and passes from there via the RC weighing 240 and the RC add-on chute 250 into a compulsory mixer.

The raw material 1 is transported via a conveyor belt to dry in the drying drum 100 transported and comes in the form of hot raw material 2 over an elevator in a sieve tower, in which the hot raw material 2 divided into the individual grain fractions and stored in hot material bags. From there it is fed to the compulsory mixer, in which it with asphalt granules 3 , Rock flour 4 and bitumen 5 is mixed. The resulting mix 6 is then transported in silos, from where it can be transported away.

The addition of the adduct used in the invention 8th takes place in the RC parallel drum 220 ,

• a) in die Förderschnecke zum Mischer,
• b) in den Puffer/Wiegebehälter und
• c) in den Mischer.

At the in 2 As shown plant, the additive addition (ie, the sliding and release agent addition) via cold addition, namely

• a) in the screw conveyor to the mixer,
• b) in the buffer / weigh bin and
• c) in the mixer.

The system contains the following parts: A drying drum 100 , a heating oil tank 110 , an RC pre-dosage 200 , an RC riser 210 , an RC screw conveyor 220 (Option a), an RC buffer / weigh bin 230 (Option b), an RC addition chute 240 (Option c), a lubricant and separator tank 300 and a sliding and separating agent metering pump 310 ,

The handled substances are in 2 as follows:
The raw material with the reference numeral 1 , the hot raw material by the reference numeral 2 , the asphalt granules by the reference number 3 , the rock flour with the reference numeral 4 , the bitumen by the reference numeral 5 , the mix with the reference number 6 , the fuel oil by the reference numeral 7 and the adduct added in accordance with the invention, which also acts as a lubricant and release agent, is identified by reference B.

• a) in die RC-Förderschnecke 220,
• b) in den RC-Puffer/Wiegebehälter 230 oder
• c) in die RC-Zugabeschurre 240 befördert. An diesen Stellen wird das Gleit- und Trennmittel 8 jeweils alternativ über die Gleit- und Trennmitteldosierpumpe 310 aus dem Gleit- und Trennmitteltank 300 zugegeben. Von dort gelangt das Asphaltgranulat 3 mit dem zugesetzten Gleit- und Trennmittel 8 in einen Zwangsmischer. Analog zum in 1 beschriebenen Verfahren wird auch hier das heiße Rohmaterial 2, das Gesteinsmehl 4, das Bitumen 5 und Asphaltgranulat 3 mit dem zugesetzten Gleit- und Trennmittel 8 homogen miteinander vermischt. Von dort wird das Mischgut 6 in Silos transferiert, wo es zwischengelagert und auf LKWs zu den Baustellen abtransportiert wird.

At the in 2 The method described is the asphalt granules 3 via an RC pre-dosage 200 through the RC riser 210

• a) in the RC screw conveyor 220 .
• b) in the RC buffer / weigh bin 230 or
• c) in the RC-Zugabeschurre 240 promoted. At these points, the lubricant and release agent 8th each alternatively via the sliding and Trennmitteldosierpumpe 310 from the lubricant and separating agent tank 300 added. From there the asphalt granulate arrives 3 with the added lubricant and release agent 8th into a compulsory mixer. Analogous to in 1 also described here is the hot raw material 2 , the rock flour 4 , the bitumen 5 and asphalt granules 3 with the added lubricant and release agent 8th homogeneously mixed together. From there, the mix becomes 6 transferred to silos, where it is stored temporarily and transported on trucks to the construction sites.

Claims (4)

A process for the production of bituminous mix for road construction by mixing mineral rock, rock filler, bitumen and asphalt granules / milled material and optionally further additives, characterized in that the asphalt granulate / milled material is added to an oil-based adduct. Method according to claim 1, characterized in that that as an additive a lubricant and release agent is used. Method according to claim 1 or 2, characterized the additive is one or more materials from the group of flux oils and heavy oils. Method according to claim 3, characterized the additive is added in an amount of 1 to 10 l / t asphalt granulate / milled material becomes.