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Product Introduction
The ET Series Non-Standard Custom Burner is a project-driven combustion solution developed for industrial systems that cannot be served by standard burner models. Unlike conventional products defined by fixed power ranges and structures, the ET Series is engineered according to actual operating conditions, system layout, and fuel configurations of each individual project.
This series focuses on non-standard working environments, special heat demands, and customized installation requirements. It serves as a flexible combustion unit for various thermal systems where fuel diversity, space limitations, or process instability make standard burners unsuitable.
The ET Series is built on the principle of engineering-first design, ensuring that each burner is matched precisely to its real application scenario.
Customization
The ET Series is engineered with a high degree of mechanical and structural adaptability, allowing it to be precisely configured for different equipment layouts, spatial constraints, and installation environments. Rather than forcing a fixed configuration, the system is designed to follow the actual structure of your production line.
Available structural and installation options include:
Gun-type or split structural configurations, enabling flexible integration with different combustion chamber designs
Horizontal or vertical installation orientations, matching varied drum, furnace, or combustion chamber layouts
Fixed foundation mounting or skid-based mobile deployment, suitable for both permanent production lines and relocatable systems
Compressed and space-optimized layouts for installations where equipment room size is limited
Reinforced mechanical frames designed for high-temperature zones and continuous heavy-load operation
Through this multi-level structural flexibility, the ET Series can be smoothly incorporated into new-builts, system upgrades, capacity expansions, and retrofit projects, greatly reducing on-site modification work and engineering risk.
Fuel configuration directly determines operating cost, energy stability, and long-term production planning. The ET Series is designed around a fuel-adaptive combustion platform, making it possible to configure the burner according to local energy availability and future fuel strategies.
Customizable fuel operation modes include:
Single-fuel gas operation, for regions with stable natural gas infrastructure
Dual-fuel operation (gas + oil), providing automatic redundancy and energy flexibility
Multi-fuel switching across different production stages, adapting to seasonal pricing, supply conditions, or operational priorities
Fuel adaptability supports flexible combinations of:
Various gaseous fuels
Different liquid fuel types
Hybrid combustion setups with mixed fuel participation
This design ensures that the burner is not locked to one energy path, but can evolve with market conditions, project life cycles, and long-term cost optimization strategies.
Different industrial processes require different heating rhythms, response speeds, and thermal regulation behaviors. The ET Series offers process-oriented operating logic customization, allowing the control strategy to match the real production workflow rather than relying on a generic operating curve.
Customizable operation modes include:
Long-duration continuous-duty running, for production lines that operate 24/7
Intermittent heating cycles, suitable for batch-based or seasonal production
Wide modulation ratio control, enabling smooth output adjustment across large load variations
Multi-stage flame management, supporting progressive temperature ramp-up and segmented heating control
By tailoring the combustion logic to actual process demands, the system maintains thermal stability under frequent load fluctuations, prevents thermal stress on downstream equipment, and improves long-term operational reliability.
Features
The ET Series is engineered as a cross-industry combustion interface, capable of serving a wide variety of thermal systems across multiple industrial sectors. Rather than being confined to a single application, it is designed to function as a flexible heat-source module within complex and customized process environments.
Its system compatibility covers a broad range of thermal equipment, including:
Steam generation systems, where stable thermal input directly affects pressure control and energy efficiency
Centralized hot water supply networks, supporting district heating and industrial hot water circulation
Thermal oil circulation units, requiring continuous, uniform heat transfer at controlled temperatures
Waste incineration and thermal destruction systems, operating under extreme temperature and long-duty conditions
Industrial hot air generators, applied in drying, curing, and process heating operations
Asphalt mixing and road engineering equipment, where high-load, continuous heat supply is essential
This wide-ranging compatibility enables the ET Series to function reliably in integrated industrial projects where conventional, single-purpose burners cannot meet unconventional heat supply requirements.
The ET Series is designed with a clear focus on long-term industrial reliability rather than short-term laboratory performance. Every structural and combustion-related component is optimized for real operating conditions, where equipment must withstand continuous loads, demanding environments, and extended service cycles.
Reliability is achieved through multiple engineering-focused design principles:
Reinforced structural frameworks that support continuous heavy-duty operation
Stable flame behavior under fluctuating loads, preventing repeated ignition stress and combustion instability
Optimized heat release distribution, reducing localized overheating and downstream thermal shock
High mechanical durability of critical components, ensuring long service life under demanding operating cycles
The core design objective is to deliver predictable, stable, and controllable combustion behavior in real industrial environments where system uptime is a primary performance indicator.
From conceptual design through manufacture and final inspection, the ET Series follows a multi-standard compliance framework aligned with international safety, quality, and combustion regulations.
Current certification and standard coverage includes:
EU EN267 – governing safety and performance requirements for liquid-fuel burners
EU EN676 – regulating gas-fired combustion systems
CE & ISO Systems – ensuring conformity with European regulatory requirements and global quality management standards
China CSEI Certification – special equipment approval for industrial combustion and pressure-related systems
Russia EAC Certification – technical conformity certification for the Eurasian market
GB/T 36699-2018 – China’s national technical standard for industrial burners
This comprehensive certification structure allows the ET Series to be confidently applied in domestic industrial projects, international EPC contracts, and export-oriented equipment supply, without regulatory limitations.
The ET Series is widely adopted in custom-engineered thermal projects where standard burner configurations cannot satisfy complex system structures, control logic, or reliability requirements. These projects typically involve multi-layer process integration and non-standard operating conditions.
Representative application scenarios include:
Customized steam station construction projects, where thermal output, control logic, and redundancy must be engineered on a project-specific basis
Non-standard thermal oil circulation systems, requiring flexible interface connection with different process units
Medical and hazardous waste treatment plants, operating under strict safety standards and continuous-duty conditions
Industrial hot air drying systems, commonly integrated into automated production lines
Special asphalt mixing installations, featuring irregular layouts or extended working cycles
Overseas turnkey equipment supply projects, involving full-system export, installation, and on-site commissioning
These projects share several defining characteristics: irregular structural layouts, complex process control relationships, continuous-duty operation, and extremely high reliability expectations—the exact environments for which the ET Series is engineered.
Technical Parameters
Rather than applying a fixed product template, the ET Series is configured through a project-driven engineering logic. Each unit is built around the actual mechanical layout, fuel conditions, operating environment, and system integration requirements of the specific project.
From structural form and fuel type to application orientation and installation strategy, every configuration is treated as a custom technical solution rather than a standardized assembly. This approach ensures that the burner integrates seamlessly with real-world industrial systems, supports non-standard process designs, and remains adaptable throughout the entire project lifecycle.
| Item | Configuration Logic |
|---|---|
| Style | Fully Customizable |
| Fuel | Fully Customizable |
| Type | Standard Burner |
| Application Mode | Project-Oriented |
| Deployment | Engineering Design Based |
