# Análisis 97:  Horno industrial conociendo el CO₂(%)v, O₂(%)v, e H₂(%)v en base húmeda

{% hint style="info" %}
De un horno industrial se obtiene la siguiente la siguiente composición volumétrica de productos de combustión en base húmeda:

* CO<sub>2</sub> --> 6.3 %
* O<sub>2</sub>    --> 5.8 %
* H<sub>2</sub>    --> 2.1 %
* CO, N<sub>2</sub> y H<sub>2</sub>O el resto

Sabiendo que el combustible es n-decano, la temperatura de los gases de combustión es de 200 ºC, y la temperatura de contorno a la que se suministra el calor (supply heat) es 300 ºC, obtener:

1. Composición de los humos, suponiendo equilibrio químico de los productos de combustión
2. Temperatura de equilibrio químico
3. Coeficiente de exceso de aire
4. Balance energético
5. Balance exergético
6. Diagrama de Kissel
   {% endhint %}

![](https://thermosuite.com/manual/97/media/image2.png)

![](https://thermosuite.com/manual/97/media/image3.png) ![](https://thermosuite.com/manual/97/media/image4.png)

![](https://thermosuite.com/manual/97/media/image5.png)

![](https://thermosuite.com/manual/97/media/image6.png)

![](https://thermosuite.com/manual/97/media/image7.png)

![](https://thermosuite.com/manual/97/media/image8.png)

![](https://thermosuite.com/manual/97/media/image9.png)

![](https://thermosuite.com/manual/97/media/image10.png) ![](https://thermosuite.com/manual/97/media/image11.png)

![](https://thermosuite.com/manual/97/media/image12.png)

![](https://thermosuite.com/manual/97/media/image13.png)

![](https://thermosuite.com/manual/97/media/image14.png)

![](https://thermosuite.com/manual/97/media/image15.png)

![](https://thermosuite.com/manual/97/media/image16.png)

![](https://thermosuite.com/manual/97/media/image17.png)

![](https://thermosuite.com/manual/97/media/image18.png)

![](https://thermosuite.com/manual/97/media/image19.png)

![](https://thermosuite.com/manual/97/media/image20.png)


---

# Agent Instructions: Querying This Documentation

If you need additional information that is not directly available in this page, you can query the documentation dynamically by asking a question.

Perform an HTTP GET request on the current page URL with the `ask` query parameter:

```
GET https://thermosuite.gitbook.io/thermocombustion-hf/analisis-91-al-100/analisis-97-horno-industrial-conociendo-el-co-v-o-v-e-h-v-en-base-humeda.md?ask=<question>
```

The question should be specific, self-contained, and written in natural language.
The response will contain a direct answer to the question and relevant excerpts and sources from the documentation.

Use this mechanism when the answer is not explicitly present in the current page, you need clarification or additional context, or you want to retrieve related documentation sections.