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Method for controlling distribution of air factor in industrial reactor by proactive oxygen and temperature measurements

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TOSE20200820001
Publicado:
07/09/2020
Caducidad:
08/09/2021
Resumen:
A Swedish SME has developed a new thermodynamic model for high temperature chemistry including combustion, steel and cement production. The new model clarifies a series of events that appear to be incompatible and paradoxes such as simultaneously high production of NOx and CO. The patented technique has been implemented in plants in Sweden resulting in reduced NOx and elimination of CO. The SME is looking for partners interested in a joint venture agreement.

Details

Tittle:
Method for controlling distribution of air factor in industrial reactor by proactive oxygen and temperature measurements
Summary:
A Swedish SME has developed a new thermodynamic model for high temperature chemistry including combustion, steel and cement production. The new model clarifies a series of events that appear to be incompatible and paradoxes such as simultaneously high production of NOx and CO. The patented technique has been implemented in plants in Sweden resulting in reduced NOx and elimination of CO. The SME is looking for partners interested in a joint venture agreement.
Description:
The Swedish SME is a research company working with energy conversion and high temperature chemistry processes since 2008. It consists of a team of experts in the areas of Bio and fossil fuels and energy conversion. The method for controlling distribution of air factor in industrial reactor by proactive oxygen and temperature measurements was developed as a results of 30 years of research and development in Sweden and worldwide.

The new model clarifies a series of events that appear to be incompatible and paradoxes such as simultaneously high production of NOx and CO. The technology offers a unique approach to monitor, control and optimize boiler processes in a proactive and real-time manner.

The technology can be implemented in old plants or incorporated in new plants under design. It has already been implemented with very good results in a number of large plants in Sweden. (see attached graph from a from Swedish Environmental Protection Agency). These plants prioritize environmental issues and reference plants can be visited for those interested.

The SME is looking for parters interested in a joint venture agreement.
Advantages and Innovations:
- Minimization NOx with reduced ammonia usage
- Elimination of CO
- Increased energy conversion and increased boiler efficiency and thus reduction of fuel consumption and thereby reduction of total emissions
- Minimization of unburned fuel or untreated raw materials in steel and cement
- Minimizing the chlorides (biofuels) and dioxins (waste fuels)
- Extends the service life of pressure vessels and the entire plants
- Minimizing corrosion in boilers
Stage of Development:
Already on the market
IPs:
Patents granted

Partner sought

Type and Role of Partner Sought:
Fossil fuel heat plants, industries, companies and organisation working with monitoring, controlling and optimisation of boiler processes. The potential partners should be ready to discuss a joint venture agreement, but other types of collaboration agreements could also be considered.

Client

Type and Size of Client:
Industry SME <= 10
Already Engaged in Trans-National Cooperation:
No
Languages Spoken:
English
Swedish

Keywords

Technology Keywords:
04003001 Combustibles fósiles gaseosos
04008001 Combustión, llamas
04007001 Gestión de la energía
04007003 Optimización de procesos, utilización de energía residual
04002004 Tecnologías de hornos y calderas