本文へ移動

Combustion

The combustor is the heart of a turbine, and achieving high efficiency is vital for operating in today's energy market. Our multi-physics solutions can simulate all aspects of combustion. Predict operating temperatures, flame shapes and emissions with confidence, investigate new fuel sources and optimize designs via a virtual combustion chamber.

The combustor is the heart of a turbine, and achieving high efficiency is vital for operating in today's energy market. Our multi-physics solutions can simulate all aspects of combustion. Predict operating temperatures, flame shapes and emissions with confidence, investigate new fuel sources and optimize designs via a virtual combustion chamber.

オンデマンド・ウェビナー

燃焼器の性能を予測して、設計を改善: デジタル試験にシミュレーションを使用したB&B-AGEMAの事例

B&B-AGEMAが燃焼器の設計プロセスにどのようにCFDシミュレーションを活用したかを学ぶ

Learn More

In today’s energy market, turbine combustors must operate at higher firing temperatures, with higher combustion intensity, while reducing undesirable emissions such as NOx. With the introduction of new fuels such as hydrogen, understanding combustor performance and optimizing combustion is vital, to ensure reliable and efficient turbine operation.

Our solutions enable you to predict and understand the real-world combustion behavior, in a virtual environment. Using multi-physics CFD you are able to:

  • Simulate combustion and predict performance under both full-load and part load conditions.
  • Predict emissions over the complete range of operating conditions.
  • Gain insight into flame properties and investigate every aspect of combustion performance.
  • Calculate solid component and air temperatures in the same simulation.

The digital twin approach means you can rapidly test multiple designs and try out alternatives, reducing the amount of expensive field testing required.

Predict maintenance needs, long-term operation and reliability, and optimize designs to ensure efficient operation of every component. .

主なユーザー事例

Siemens Energy

Siemens Energy uses LES simulation to investigate transient combustion effects

Siemens Energy uses LES simulation to investigate transient combustion effects

Large eddy CFD simulations reveal causes of thermoacoustic vibrations

詳細情報

オンデマンド・ウェビナー | 47 分

Design and optimize high temperature and combustion processes using simulation

Glass burner

Energy consumption and pollution control in combustion/high temperature processes

ウェビナーを見る

ソリューションの機能

Explore the key areas of this solution.

[[global-preference-center-interest-placeholder]]に興味がありますか?

登録して[[global-preference-center-interest-placeholder]]の最新情報を入手

申し訳ありません。

登録できませんでした。もう一度やり直してください。

ご登録ありがとうございます! 初めての登録ですか? メールをチェックして登録されたかどうか確認してください。

この項目は必須です。 有効な電子メール・アドレスを入力してください。
この項目は必須です。 値が無効または長すぎます。
ご質問はありますか?