01
Cleaner Product Gas
High-temperature cracking and reforming suppress tar precursors and reduce the load on downstream cleanup systems.
Tar-Free Biomass Gasifier
Tar-Free Biomass Gasifier
The core of a tar-free gasifier is not only downstream cleanup, but source-level suppression of tar formation through staged reaction design, thermal distribution, and high-temperature cracking and reforming.
Product Overview
Tar control achieved at the source
The core of a tar-free gasifier is not only downstream cleanup, but source-level suppression of tar formation through staged reaction design, thermal distribution, and high-temperature cracking and reforming.
It is suitable for projects that care about clean product gas, continuous operation, and reliable downstream power or thermal use.
Source-level tar reduction
Cleaner product gas
Better downstream usability
Core Advantages
Advantages for industrial project delivery
Built around stable operation, efficient installation, and lower long-term maintenance risk for industrial projects.
02
More Continuous Operation
With lower tar loading, the risk of blockage and fouling is reduced, making continuous operation easier to sustain.
03
Better for Power and Thermal Use
A more stable gas quality improves long-term operating control for engines, burners, and thermal-use equipment.
04
Reduced Burden on Downstream Treatment
Less tar means scrubbing, filtration, and maintenance schedules become more manageable and cost-efficient.
Technology Overview
Tar-free technology overview
The key to tar-free gasification is reaction-zone definition and temperature-window control. By separating pyrolysis, oxidation, reduction, and purification into process zones, tar precursors are cracked or reformed inside the reactor instead of being left to downstream treatment.
01
Pyrolysis Zone
Feedstock releases volatiles under controlled oxygen-deficient conditions and forms gaseous precursors for later reactions.
02
Oxidation Zone
Localized oxygen supply creates a high-temperature zone that provides the thermal energy required for tar cracking and reforming.
03
Reduction Zone
Tar precursors react with the char bed and gas phase, converting further into more usable combustible components.
04
Purification Zone
Particulates and residual impurities are collected and treated so the gas can meet downstream equipment requirements.
| Tar Content in Product Gas | < 10 mg/Nm3 |
| Cold Gas Efficiency | 75-85% |
| Oxidation Zone Temperature | 900-1,100°C |
| Feed Moisture Range | <= 25% |
| Single Unit Throughput | 100-5,000 kg/h |
Project Inquiry
If you already have process data, we can move straight into proposal and quotation
Send the capacity, site conditions, and preferred finish or structure, and we will prepare a project-specific recommendation.
Request a Quote