本发明涉及一种方法，用于为负载有可氧化组分Rohgasvolumenstroms包括以下步骤的热处理操作的气体氧化单元（1）：e）在Rohgasvolumenstrom是由至少一个第一热存储块（2，通过3）气体氧化单元（1）的， 其中，在所述储热块（2,3）通过存储在Rohgasvolumenstrom和该被加热的热能。 f）在气体氧化单元（1），优选在燃烧室（4）Rohgasvolumenstroms和Rohgasvolumenstrom的它们，被氧化的成分由此转换到一个干净的气体体积流量，其特征在于，形成在所述清洁气体体积流的温度比预先本Rohgasvolumenstroms的温度高。 克）的清洁气体流至少部分地和/或暂时地 - 通过至少一个第二热存储块（2传递，3），其中，热能在清洁气流到所述第二储热体（2含有，3）通过，这是加热和/或 - 通过旁路管道的装置 （10）衍生的，其中，所述旁路通道（10）优选为一热交换装置（11）。 为了使气体氧化工厂的操作（1），使得计划和可靠地使用气体氧化装置（1）适用热能在约自热操作是可能的，当然，本发明提出，通过所述旁路通道（10）至少是暂时的，尽可能多的手段 到（1），即维持在气体氧化单元（1），其中，所述R​​ohgasvolumenstroms的可氧化成分基本上完全氧化，（在一段适当的时间的最小氧化温度的仅由附加的能量在气体氧化剂的供给的装置从气体氧化单元去除热能 1）是可能的。

The present invention relates to a method for operating a gas oxidation unit (1) for thermal treatment of a loaded with oxidizable components Rohgasvolumenstroms, comprising the following method steps:
e) The Rohgasvolumenstrom is at least one first heat storage mass (2, 3) of the gas oxidation plant (1) led, in the heat storage mass (2, 3) passes over the thermal energy stored in the Rohgasvolumenstrom and these heated.
f) In the gas oxidation unit (1), preferably in a combustion chamber (4) thereof, are components of the Rohgasvolumenstroms oxidized and the Rohgasvolumenstrom converted in this way into a clean gas volume flow, wherein a temperature of the clean gas volume stream formed is higher than a temperature of the previously present Rohgasvolumenstroms.
g) The clean gas flow is at least partially and / or temporarily
- By at least one second heat storage mass (2, 3) passed, which contained in the clean gas volume flow of heat energy to the second heat storage mass (2, 3) passes and heats and / or
- Derived by means of a bypass duct (10), wherein the bypass channel (10) preferably having a heat exchanger device (11).

To make the operation of a gas oxidation plant (1) such that a planned and reliable use of the gas oxidation plant (1) accruing thermal energy is possible in the course of about autothermal operation, the invention proposes, by means of the bypass channel (10) at least temporarily, as much refer thermal energy from the gas oxidation plant (1) that maintenance of a minimum oxidation temperature in the gas oxidation plant (1), in which completely oxidize the oxidizable components of Rohgasvolumenstroms essentially, a corresponding period only by means of a supply of additional energy in the gas oxidation plant ( 1) is possible.