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| Categories | Car Engine Care |
|---|---|
| Brand Name: | Getsun |
| Model Number: | GT-2094 |
| Certification: | ISO9001/MSDS |
| Place of Origin: | China |
| MOQ: | 2400pcs |
| Payment Terms: | T/T |
| Supply Ability: | 1000000pcs/month |
| Delivery Time: | 30 working days |
| Packaging Details: | 24pcs/ctn |
| Company Info. |
| Guangzhou Helioson Car Care Co., Ltd. |
| Verified Supplier |
| View Contact Details |
| Product List |
Advanced Diesel Particulate Filter Foam Cleaning Technology for Optimal Exhaust System Performance
GETSUN DPF Cleaner represents a breakthrough in professional diesel particulate filter maintenance, specifically engineered to address the critical challenge of exhaust back pressure increase caused by DPF blockage. This advanced diesel particulate filter cleaner effectively handles catalytic activity reduction and blockage resulting from carbon and ash accumulation that plague modern diesel emission control systems. Designed for professional automotive service facilities, fleet maintenance operations, and diesel engine specialists, this specialized DPF foam cleaner delivers comprehensive filtration system restoration that maintains engine performance, fuel efficiency, and emissions compliance.
The sophisticated foam formulation utilizes innovative application methodology, wetting and immersing at the oxygen sensor port while leveraging the high-temperature environment created during engine operation. This intelligent approach enables the diesel particulate filter cleaner to penetrate deep into the DPF matrix, breaking down and shedding carbon deposits and accumulated particulate matter from carrier surfaces. The result is restored DPF surface coating smoothness and optimized filtration function that returns diesel engines to peak performance. For businesses serving commercial diesel fleets, heavy equipment operations, or modern diesel passenger vehicles, GETSUN provides the professional-grade solution that addresses one of the most challenging maintenance issues facing diesel technology today.
Purpose-developed chemistry specifically targeting diesel particulate filter blockage. This DPF cleaner addresses the unique challenges of carbon and ash accumulation in emission control systems.
Utilizes engine operating temperatures to activate cleaning compounds. This diesel particulate filter cleaner works synergistically with DPF thermal environment for maximum effectiveness.
Advanced foam delivery ensures complete coverage and penetration. This DPF foam cleaner wets and immerses effectively at oxygen sensor ports for optimal distribution throughout system.
Breaks down stubborn carbon accumulations blocking filtration efficiency. This DPF cleaner chemically attacks deposits causing catalytic activity reduction and flow restriction.
Restores covered DPF surface coating to smooth functional condition. This diesel particulate filter cleaner optimizes filtration function and regeneration capability.
Addresses exhaust back pressure increases from particulate blockage. This DPF foam cleaner restores proper exhaust flow characteristics essential for engine performance.
Professional diesel service providers face significant challenges related to DPF maintenance:
GETSUN DPF Cleaner systematically addresses diesel particulate filter maintenance challenges through specialized chemistry and intelligent application methodology. The formulation is specifically developed to target the carbon and ash accumulations that cause DPF blockage, utilizing chemical compounds that break molecular bonds holding deposits to ceramic filter substrates. This targeted approach proves far more effective than generic cleaning attempts that fail to address the specific chemistry of diesel particulate matter and ash composition.
The foam delivery system represents a critical innovation distinguishing this diesel particulate filter cleaner from conventional approaches. By applying at the oxygen sensor port, the product gains access to the DPF system without requiring physical filter removal, dramatically reducing service complexity and time requirements. The foam formulation provides superior coverage and penetration compared to liquid cleaners, ensuring complete distribution throughout the complex honeycomb structure of modern DPF systems where effective cleaning must reach all surfaces to restore proper function.
The high-temperature activation mechanism leverages the thermal environment naturally created during engine operation. As the DPF foam cleaner enters the system and engine temperatures rise, the cleaning compounds activate and penetrate deep into accumulated deposits. This heat-activated chemistry proves essential for breaking down the baked-on carbon and ash that resists room-temperature cleaning approaches. The high temperatures also assist in volatilizing and removing dissolved deposits through the exhaust system, completing the cleaning cycle without leaving residues that could cause future problems.
The carbon deposit dissolution capability directly addresses the root cause of DPF performance degradation. Carbon accumulations from incomplete combustion gradually coat the porous ceramic substrate, reducing the effective filtration area and increasing exhaust back pressure. This DPF cleaner chemically attacks these deposits, breaking them down into smaller particles that can be purged from the system during subsequent operation. The process restores the open pore structure essential for proper particulate filtration and allows successful regeneration cycles to resume, preventing the progressive deterioration that leads to complete DPF failure.
The catalytic surface restoration provided by this diesel particulate filter cleaner proves particularly important for maintaining the chemical reactions essential to DPF function. Modern DPF systems incorporate precious metal catalysts that facilitate the oxidation of trapped particulates during regeneration. When these catalytic surfaces become coated with ash and carbon, regeneration efficiency plummets, accelerating the accumulation cycle. The specialized cleaning action removes deposits covering catalytic sites, restoring their activity and enabling effective regeneration that maintains long-term DPF function and prevents premature system failure requiring expensive replacement.
GETSUN DPF Foam Cleaner delivers critical value across diverse professional contexts:
| Performance Factor | GETSUN DPF Cleaner | Conventional Methods |
|---|---|---|
| Application Method | In-system foam application | Physical removal required |
| Service Complexity | Oxygen sensor port access | Complete DPF disassembly |
| Activation Mechanism | High-temperature chemical reaction | Manual mechanical cleaning |
| Coverage Effectiveness | Complete foam penetration | Limited surface access |
| Service Time Required | Minimal downtime | Extended hours or days |
| Catalytic Restoration | Chemical surface cleaning | Mechanical damage risk |
| Cost Effectiveness | Preventive maintenance pricing | Expensive replacement alternative |
| Professional Requirement | Trained technician application | Specialized equipment needed |
Professional DPF cleaner services command premium pricing. This diesel particulate filter cleaner creates profitable maintenance revenue stream addressing critical customer needs.
Cleaning costs fraction of DPF replacement expenses. This DPF foam cleaner provides customers affordable maintenance preserving loyalty and satisfaction.
In-system cleaning minimizes vehicle out-of-service time. This DPF cleaner proves critical for commercial fleets where downtime directly impacts revenue.
Enables proactive DPF care before severe problems develop. This diesel particulate filter cleaner supports scheduled maintenance programs preventing costly failures.
Offering specialized DPF services demonstrates advanced capabilities. This DPF foam cleaner differentiates your facility from basic service providers.
Effective diesel maintenance creates commercial fleet partnerships. This DPF cleaner supports recurring revenue from ongoing fleet service contracts.
GETSUN Diesel Particulate Filter Cleaner requires application by trained professional construction personnel following established protocols. The specialized nature of DPF systems and the critical importance of proper application technique necessitate qualified technician involvement. Professional personnel must understand diesel emission control system operation, DPF location and access procedures, oxygen sensor removal and replacement protocols, and proper product application methodology. The complexity of modern diesel emission systems makes amateur application inappropriate and potentially dangerous, requiring professional service facility capabilities for safe, effective treatment.
Application procedures for this DPF foam cleaner vary according to specific customer requirements, vehicle configurations, and DPF system designs. Professional technicians must assess individual vehicle conditions, review manufacturer specifications, and develop appropriate application strategies for each service situation. Factors influencing protocol include DPF location and accessibility, oxygen sensor configuration, vehicle operating history, and contamination severity. This customized approach ensures optimal results across diverse diesel engine platforms while maintaining safety standards and preventing complications from inappropriate application methodology.
Before applying this DPF cleaner, technicians must conduct thorough diagnostic assessment determining DPF condition and blockage severity. This evaluation includes exhaust back pressure measurement, diagnostic code analysis, regeneration history review, and physical inspection where accessible. The assessment determines whether the DPF is suitable for cleaning treatment or has progressed beyond chemical cleaning capability. Proper evaluation prevents inappropriate treatment attempts on severely compromised filters where cleaning cannot succeed, directing these cases toward necessary replacement while identifying candidates for successful restoration through professional cleaning protocols.
Professional application of this diesel particulate filter cleaner requires proper system access preparation including oxygen sensor removal following manufacturer procedures. Technicians must properly disconnect electrical connections, use appropriate removal tools preventing sensor damage, and prepare access ports for product introduction. The preparation phase also includes protecting surrounding components from overspray or contamination, positioning vehicle appropriately for safe service procedures, and ensuring adequate workspace ventilation. Proper preparation proves essential for successful cleaning execution and prevents complications that could compromise service quality or create additional problems requiring remediation.
The DPF foam cleaner is introduced through oxygen sensor ports using appropriate application equipment ensuring complete foam distribution throughout the DPF matrix. Professional technicians control application volume, timing, and pressure according to specific system requirements and manufacturer recommendations. The foam formulation wets and immerses DPF surfaces, penetrating accumulated deposits and preparing them for dissolution during subsequent engine operation. Proper application technique ensures complete coverage without overfilling that could cause complications, requiring technician experience and understanding of system volumes and configurations for optimal results.
Following application of this DPF cleaner, the vehicle undergoes controlled operation generating high temperatures within the DPF system. This thermal environment activates cleaning compounds, enabling penetration and dissolution of carbon and ash deposits. Professional protocols specify appropriate operating conditions, duration, and temperature targets ensuring effective cleaning without creating excessive stress on emission system components. The heat activation phase proves critical to treatment success, as the elevated temperatures enable chemical reactions breaking down deposits and facilitating their removal from DPF carrier surfaces through subsequent exhaust flow.
After completing the cleaning cycle with this diesel particulate filter cleaner, professional technicians conduct verification procedures confirming treatment effectiveness. Verification includes exhaust back pressure remeasurement comparing pre-treatment and post-treatment values, diagnostic code clearing and monitoring, regeneration capability assessment, and operational performance evaluation. Successful treatment shows measurable back pressure reduction, restored regeneration function, eliminated diagnostic codes, and improved engine performance characteristics. Documentation of results provides customers evidence of service value while establishing baseline data for future maintenance scheduling and long-term DPF health monitoring.
It is strictly prohibited to use GETSUN DPF Foam Cleaner on vehicles with severely blocked diesel particulate filters. This absolute restriction exists because severely compromised DPF systems cannot benefit from chemical cleaning and attempting treatment may create complications or false expectations. Severe blockage indicates advanced deterioration beyond chemical restoration capability, requiring physical DPF removal for specialized off-vehicle cleaning or complete replacement. Professional technicians must conduct proper diagnostic assessment before attempting cleaning treatment, identifying severely blocked systems through back pressure measurements, regeneration failure history, and diagnostic code patterns. Violating this restriction wastes service resources, delays necessary corrective action, and potentially damages customer relationships through failed service attempts. Always evaluate DPF condition thoroughly before proceeding with chemical cleaning protocols.
| Brand | GETSUN |
| Product Type | Specialized DPF foam cleaner |
| Application | Diesel particulate filter maintenance |
| Target Contaminants | Carbon deposits and ash accumulation |
| Unit Capacity | 450ML per container |
| Case Packaging | 24 pieces per carton |
| Delivery System | Aerosol foam formulation |
| Activation Method | High-temperature chemical reaction |
| Application Point | Oxygen sensor port access |
| Service Requirement | Professional technician application |
The recommended storage temperature range for this DPF cleaner is 10 to 40 degrees Celsius. Maintain storage conditions within this temperature range to preserve product stability, effectiveness, and container integrity. Avoid exposure to temperature extremes that could affect chemical properties or create pressure variations in aerosol containers. Store in climate-controlled facilities or temperature-regulated storage areas ensuring consistent conditions throughout inventory lifecycles.
Proper disposal of used DPF cleaner containers requires specific procedures ensuring complete product discharge. Place the used container upside down into a carton or over newspaper, then press the sprayer continuously for two minutes to discharge remaining liquid and depressurize the container. This procedure prevents residual pressure that could create safety hazards during disposal. Follow local regulations for aerosol container disposal ensuring environmental compliance and workplace safety standards.
Do not store this diesel particulate filter cleaner in vehicles under any circumstances. Vehicle interior temperatures can exceed safe storage thresholds, particularly during warm weather, creating container pressure buildup and potential safety hazards. Maintain all inventory in appropriate facility storage areas with controlled temperature conditions. This restriction applies to mobile service vehicles, where product inventory should be loaded immediately before service calls and returned to proper storage facilities after completing services.
Connect with our professional sales division to explore bulk ordering options, technical training resources, and discover how GETSUN DPF foam cleaner technology can create new revenue streams while addressing critical diesel maintenance challenges for your business and customers.
Contact Our Technical TeamGETSUN Diesel Particulate Filter Cleaner represents fundamentally different technology compared to fuel additive approaches that work gradually through combustion process modification. Fuel additives attempt to reduce particulate formation or enhance regeneration temperatures, providing preventive benefits but limited effectiveness once significant DPF blockage exists. This DPF foam cleaner directly attacks existing carbon and ash deposits through targeted chemical action, providing corrective treatment for already-compromised filters rather than merely preventive benefits. The direct application at oxygen sensor ports delivers concentrated cleaning compounds precisely where needed, unlike fuel additives diluted throughout the combustion process with minimal concentration reaching DPF surfaces. The high-temperature activation mechanism works synergistically with DPF thermal environment, enabling aggressive deposit dissolution impossible through fuel additive chemistry. For severely degraded filters showing elevated back pressure and failed regenerations, fuel additives prove inadequate while this diesel particulate filter cleaner provides effective restoration capability. The approaches serve complementary roles: fuel additives support preventive maintenance extending service intervals, while direct-application DPF cleaners address established problems requiring intervention. Professional diesel services should offer both approaches, using fuel additives for ongoing maintenance while reserving foam cleaner treatments for symptomatic vehicles requiring corrective action to restore proper DPF function and avoid expensive replacement procedures.
Determining whether a DPF is suitable for cleaning treatment or requires replacement involves multiple diagnostic criteria that professional technicians must evaluate comprehensively. Candidates for successful DPF cleaner treatment typically show moderate back pressure elevation above baseline specifications but not extreme values indicating complete blockage. Diagnostic codes related to regeneration frequency increases or partial regeneration failures suggest accumulating deposits addressable through chemical cleaning, while codes indicating DPF substrate damage or sensor failures may indicate problems beyond cleaning capability. Vehicles with recent degradation showing relatively short timeframes from normal to impaired function often respond well to diesel particulate filter cleaner treatment, as deposits haven't progressed to irreversible compaction. Physical filter inspection, when accessible, revealing uniform surface discoloration without cracks, melting, or substrate damage indicates cleaning suitability. Conversely, filters showing extreme back pressure approaching or exceeding maximum specification, complete regeneration failure patterns, evidence of thermal damage from excessive regeneration attempts, or diagnostic codes indicating physical substrate compromise typically require replacement rather than cleaning attempts. The critical restriction prohibiting this DPF foam cleaner use on severely blocked systems specifically addresses situations where deposit accumulation has progressed beyond chemical restoration capability. Professional assessment combining back pressure measurement, diagnostic code interpretation, service history analysis, and physical inspection when possible provides comprehensive evaluation determining appropriate treatment pathways. When uncertainty exists, conservative approach favoring replacement prevents failed service attempts and customer disappointment, while clear moderate blockage candidates benefit significantly from professional cleaning protocols.
Optimal frequency for preventive diesel particulate filter cleaner services varies substantially based on operating conditions, duty cycles, engine maintenance quality, and fuel characteristics affecting particulate generation rates. Commercial fleets operating in severe-duty applications including frequent idling, short-trip urban delivery, or dusty environments may benefit from DPF foam cleaner treatment every 50,000 to 75,000 miles to prevent progressive accumulation requiring more aggressive intervention. Highway-focused operations with extended steady-state running enabling natural regeneration may extend cleaning intervals to 100,000 miles or more while maintaining adequate DPF function. Fleet managers should establish baseline monitoring protocols including periodic back pressure measurements and regeneration frequency tracking, using trend analysis to identify vehicles showing early degradation patterns indicating cleaning service needs. Vehicles consistently showing elevated back pressure trends, increasing regeneration frequency, or early warning diagnostic codes become candidates for preventive cleaning before performance impacts become severe. The goal is intervening while deposits remain manageable for chemical cleaning rather than waiting until severe blockage develops requiring expensive replacement. Well-maintained engines producing minimal particulate emissions extend DPF service intervals significantly, emphasizing the importance of comprehensive diesel maintenance programs addressing fuel quality, air filtration, oil specifications, and combustion efficiency. Professional diesel service providers should recommend individualized maintenance schedules based on specific fleet operating profiles rather than universal intervals, using diagnostic data to optimize cleaning timing maximizing DPF lifespan while controlling maintenance costs. Preventive cleaning approach using this DPF cleaner before severe problems develop provides superior cost-effectiveness compared to reactive replacement strategies after catastrophic failures occur.
Professional application of GETSUN DPF Foam Cleaner requires comprehensive technician training covering multiple technical domains beyond simple product application procedures. Technicians must understand diesel emission control system architecture including DPF location, construction, and operation principles to properly access and treat systems without causing damage. Knowledge of oxygen sensor types, removal procedures, electrical connector protocols, and proper reinstallation torque specifications prevents sensor damage and ensures reliable post-service operation. Diagnostic capabilities including back pressure measurement techniques, scan tool operation for code reading and parameter monitoring, and interpretation of regeneration history data enable proper pre-service assessment and post-treatment verification. Understanding of DPF contamination mechanisms, deposit chemistry, and the distinction between cleanable accumulation versus irreversible damage informs appropriate treatment decisions preventing failed service attempts. Safety training covering personal protective equipment requirements, ventilation needs, chemical handling protocols, and disposal procedures ensures compliant, safe operations protecting technicians and facility. Vehicle-specific training addressing diverse DPF system configurations across manufacturer platforms enables technicians to adapt application protocols appropriately for different designs. Practical experience under supervision allows developing technique proficiency before independent application, as improper procedures could damage expensive emission control components. Many professional service facilities implement certification programs combining classroom instruction, hands-on training, and supervised practice ensuring consistent service quality. Manufacturers and product suppliers often provide technical training resources supporting proper product usage and maximizing treatment success rates. The investment in comprehensive technician training delivers returns through improved service success rates, reduced comebacks, enhanced customer satisfaction, and differentiated technical capabilities supporting premium pricing strategies for specialized diesel services.
GETSUN Diesel Particulate Filter Cleaner is formulated for broad compatibility across diverse diesel engine platforms incorporating DPF emission control technology, though application protocols must be adapted for specific system configurations. Modern diesel passenger vehicles using DPF systems to meet emissions standards are appropriate candidates when professional assessment indicates suitable blockage levels for chemical cleaning treatment. Light, medium, and heavy-duty commercial trucks equipped with DPF technology benefit from professional DPF foam cleaner services as cost-effective alternatives to expensive filter replacement procedures. Off-road diesel equipment including agricultural tractors, construction machinery, and industrial power units incorporating DPF systems under evolving emission regulations represent growing application opportunities as these sectors adopt emission control technology. Marine diesel engines with DPF systems in recreational and commercial vessels benefit from specialized cleaning treatments addressing unique operating environments and maintenance access challenges. The common element across all applications is the presence of ceramic or metallic substrate DPF systems accumulating carbon and ash deposits during operation, which this diesel particulate filter cleaner addresses through specialized chemistry and thermal activation. However, application methodology must account for system differences including DPF location accessibility, oxygen sensor configuration variations, and thermal management characteristics specific to each platform. Professional service providers should develop platform-specific protocols ensuring appropriate treatment procedures for different engine types while maintaining underlying product chemistry and cleaning principles. Consultation with vehicle or equipment manufacturers regarding DPF maintenance procedures ensures compatibility with warranty requirements and manufacturer recommendations. The versatility of this DPF cleaner across diesel platforms creates business opportunities serving diverse customer segments from passenger vehicle owners to commercial fleet operators to industrial equipment maintenance organizations, all facing similar particulate filter challenges requiring professional maintenance solutions.
Successful integration of professional DPF cleaner services requires comprehensive planning addressing technical capabilities, personnel training, equipment acquisition, and customer communication strategies. Facilities must assess current diesel service capabilities, identifying gaps requiring investment in diagnostic equipment, training resources, or facility modifications supporting specialized emission control work. Establishing standard operating procedures ensures consistent service delivery across technician team, maintaining quality standards critical for customer satisfaction and business reputation in specialized diesel markets.
Marketing this diesel particulate filter cleaner service effectively requires educating customers about DPF maintenance importance, cleaning benefits versus replacement costs, and preventive service value before severe problems develop. Technical credibility established through proper training and equipment investment supports premium pricing strategies reflecting specialized expertise required for successful outcomes. Building relationships with commercial fleet decision-makers creates recurring revenue opportunities from ongoing maintenance contracts addressing multiple vehicles over extended periods.
Professional DPF foam cleaner services demand rigorous quality assurance protocols ensuring consistent results and customer satisfaction. Pre-service documentation including back pressure measurements, diagnostic codes, and vehicle history establishes baseline conditions for comparison. Post-treatment verification procedures with quantifiable metrics demonstrate service effectiveness, providing tangible evidence justifying service investment and supporting premium pricing strategies for specialized technical work.
Maintaining comprehensive service records creates valuable data supporting future maintenance recommendations, warranty protection, and continuous improvement of application protocols. Documenting treatment outcomes builds case histories demonstrating service capabilities to prospective customers while identifying conditions where cleaning proves most effective versus situations requiring alternative approaches. This systematic approach transforms DPF cleaner services from ad-hoc repairs into professional maintenance programs supporting long-term customer relationships and predictable revenue streams.
GETSUN DPF Foam Cleaner represents proven specialized technology, professional reliability, and customer cost savings. Our technical team is ready to discuss your specific requirements, provide detailed product information, and structure training and ordering solutions aligned with your diesel service business objectives and growth plans.
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