Save to shopping list
Create a new shopping list

Add products by adding codes

Add a CSV file
Enter the product codes that you want to add to the basket in bulk (after a comma, with a space or from a new line). Repeating the code many times will add this item as many times as it appears.
DNOX dosing module DAF OE-0444011023
DNOX dosing module DAF OE-0444011023
DNOX dosing module DAF OE-0444011023
DNOX dosing module DAF OE-0444011023
Part nr1819790
SeriesOriginal
ConditionNew
Warranty12 Months

DNOX dosing module DAF OE-0444011023

SizePrice / szt.DiscountAvailability and ShippingBuy with pointsQuantity
Kat.
280,10 € net
Discount
The product is available in very small quantities
The product is available in very small quantitiesOrder by 13:00 and it will ship today (2 szt. in stock+ ∞ szt. on demand)
Buy with points
Sum of selected products:
(Discount %)
0
net / 1szt.
/ 1szt.
Express checkout 1-Click(without registration)
14 days for easy returns
Safe shopping
After purchase you will receive pts.

DNOX dosing module OEM 0444011023 for DAF:

  • The dosing module in heavy-duty vehicles serves a similar function to that in passenger vehicles. It is a device responsible for delivering a dosing fluid (most commonly AdBlue or DEF) to the SCR system.

  • The primary goal of the dosing module in heavy-duty vehicles is the reduction of nitrogen oxide emissions, contributing to the protection of the natural environment and compliance with emission standards.

  • In the transportation sector, particularly in the case of heavy-duty vehicles, effective control of NOx emissions is of significant importance due to the extensive number of miles traveled and the potential impact on air quality.

  • Regular maintenance of the dosing module is crucial to ensure its proper operation. The manufacturer may recommend periodic inspections and monitoring of the dosing fluid level.

Invoice

  • We issue a 23% VAT invoice for each purchased part. EU customers 0% VAT (VAT ID must be active). The gross price applies to consumers.
  • If you have any questions, please contact us.

 

SCR technology
SCR technology consists in converting (reducing) nitrogen oxides into non-toxic nitrogen and water vapor in a catalyst using ammonia as a reducer. In commercial vehicles, a non-toxic, odorless, 32.5% aqueous solution of urea is used. Under the control of the engine management system, the urea solution (NOX), stored in a separate tank, is dosed in the desired amounts into the hot exhaust stream. Under high temperature exhaust gases, the urea solution decomposes to ammonia and carbon dioxide. Ammonia then reacts with nitrogen oxides to form free nitrogen and water vapor.

Denoxtronic Bosch systems have been used since 2004 in trucks equipped with diesel power systems. They add AdBlue to the SCR catalyst to reduce NOx emissions from exhaust gases by up to 85%. As a result, lorries meet the exhaust emission standards from Euro 4 to Euro 6.

Brand
Symbol
OE-0444011023
Producer code
OE-0444011023
Series
Original
Part number
OE Codes
OE-0444011023
0 444 011 023
Technical Specifications
Product type
Dosing module
Exhaust emission standard
Euro 6
Application
Truck type
Trucks
DAF
Transport
Package size [cm]
20 x 11 x 9
Gross weight [kg]
0.5
Box type
Neutral carton
Additional information
Complaint condition
A diagnostic printout with an error is required for a complaint
Terms of warranty
We do not provide warranty for parts installed outside the authorized service.
Do you need help? Do you have any questions?Ask a question and we'll respond promptly, publishing the most interesting questions and answers for others.
Ask a question
If this description is not sufficient, please send us a question to this product. We will reply as soon as possible. Data is processed in accordance with the privacy policy. By submitting data, you accept privacy policy provisions.
Write your opinion
Your opinion:
5/5
Add your own product photo:

BANACZEK Sp. z o.o. | ul. Szkolna 33, 83-047 Pomlewo | woj. pomorskie
tel.: 503 302 310 | email: info@proengines.eu | NIP: PL9571068326 | REGON: 221848236

pixel