Glass Industry News

How to reduce energy consumption in glass lamination

,

In our previous blog post, we covered some tips for improving energy efficiency in tempering. This time, let’s turn to glass lamination. Typically, the lamination furnace and everything linked to it can be made much more energy efficient. And isn’t it what we are all trying to achieve in our businesses and homes?

A laminating line is rarely the largest energy consumer in the glass processing factory. However, with some process adjustments and modern technology, significant savings can still be achieved.

Option 1: Furnace modernization

The easiest way to save energy in the glass lamination process is to upgrade from a traditional infrared heater furnace to full convection technology.

Upgrading to a new furnace only requires downtime of just a couple of days. Afterwards, processors usually report energy savings of at least 50%. With today’s energy prices, this can easily amount to tens of thousands of euros in annual energy savings.

Upgrading a furnace is also a quick and efficient way to gain multiple other benefits, such as increased capacity, better output quality and yield, fewer maintenance needs and higher uptime.

Why is full convection more efficient than infrared heating with assistive convection?

In order to run Low-E glasses, even infrared furnaces usually have assistive convection to produce. However, this is not the same as full convection that offers much better energy efficiency.

Let’s see why full convection is so much more efficient than furnaces with combined infrared and convection.

Air recirculation

In a traditional line, air often needs to be vented out of the furnace to prevent overheating. This is especially true with Low-E glasses that reflect infrared heat from the top back to the furnace. This vented energy is simply wasted.

With full convection technology, energy losses are minimized. In fact, the same air is recirculated inside the furnace. Only the required amount of energy to keep the furnace temperature stable is added when the glass is processed.

Minimal product changeover times

Conventional infrared-based furnaces require operators to spend time changing process parameters between shifts. Equipment idles during this time, leading to energy losses.

A modern full convection furnace offers a very stable process with minimal product changeover time. Process temperatures do not need to be changed for different glass types. This saves considerable time and energy. Additionally, it increases production capacity and yield. Increasing yield is also a significant factor in reducing total energy usage, as any remakes require re-doing all the process steps before lamination as well.

Option 2: Technical process adjustments

Process efficiency

Is your production process as efficient as possible? Even when your line is idling, multiple devices, such as washing machines, cleanroom air conditioning, furnace and many others, are still running in the background.

If you can optimize your production flow to avoid idling, you’ll also achieve lower energy consumption per processed square meter.

Insulation

High-quality furnace insulation is essential to avoid energy losses. Check whether there are any insulation issues with your line.

Cleanroom air conditioning

Make sure you have the temperature and humidity of your cleanroom air conditioning set within the limits outlined by your interlayer supplier. If you’re keeping your cleanroom significantly cooler than necessary, this adjustment can save some energy.

Autoclaving

Make sure your autoclave is loaded as efficiently as possible – but be sure to avoid overloading. To avoid quality issues, check that you’re leaving enough room for air flow.

Washing machine

Check the water temperature in your washing machine. Can you still achieve good washing quality with slightly cooler water?

Summary

Just as we are changing habits and modernizing our homes by replacing traditional light bulbs with more modern and energy-efficient alternatives, we should take the same approach even more proactively at our industrial facilities.

While it is not always possible to reduce how much your production equipment is used, there are always ways to use them more efficiently, lowering costs and minimizing environmental impact.

The good news for glass lamination is that there truly are some easy upgrade options to help us use less energy. So, why don’t we replace those bulbs at the same time?

, ©

Die auf dieser Seite veröffentlichten Nachrichten unterliegen dem Urheberrecht und sind Eigentum der entsprechenden Firma bzw. der Nachrichten-Quelle. Alle Rechte sind ausdrücklich vorbehalten. Jeder Nutzer, der sich Zugang zu diesem Material zugänglich macht, tut dies zu seinem persönlichen Gebrauch und die Nutzung dieses Materials unterliegt seinem alleinigen Risiko. Die Weiterverteilung und jegliche andere gewerbliche Verwertung des vorliegenden Nachrichtenmaterials ist ausdrücklich untersagt. In den Fällen, in denen solches Nachrichtenmaterial durch eine dritte Partei beigestellt wurde, erklärt jeder Besucher sein Einverständnis, die speziellen zutreffenden Nutzungsbedingungen anzuerkennen und sie zu respektieren. Wir garantieren oder bürgen nicht für die Genauigkeit oder die Zuverlässigkeit von irgendwelchen Informationen, die in den veröffentlichten Nachrichten enthalten sind, oder auch in Webseiten auf die hier Bezug genommen wird.

Sollte der Inhalt oder die Aufmachung dieser Seiten fremde Rechte Dritter oder gesetzliche Bestimmungen verletzen, so bitten wir um eine entsprechende Nachricht ohne Kostennote. Ich garantiere, dass die zu Recht beanstandeten Passagen unverzüglich entfernt werden, ohne dass von Ihrer Seite die Einschaltung eines Rechtsbeistandes erforderlich ist. Dennoch von Ihnen ohne vorherige Kontaktaufnahme ausgelöste Kosten werden wir vollumfänglich zurückweisen und gegebenenfalls Gegenklage wegen Verletzung vorgenannter Bestimmungen einreichen.



Info Grid

Glass studies

Updated worldwide glass study 2024

plants.glassglobal.com.


Updated hollow glass study 2024

Request more information

Updated float glass study 2024

Request more information

Further glass market studies

Request more information

Firmenprofil



Aktualisierte Studie für die weltweite Glasindustrie 2024 jetzt verfügbar für Flach-, Hohlglas und Tableware

Wir haben unsere internationale Studie über die Glasindustrie (Flachglas, Hohlglas, Tableware) für 2024 aktualisiert.

Dieses Programm ermöglicht einen globalen Überblick über Glashersteller und technische Details. Übersichtliche und benutzerdefinierte Tabellen fassen die Informationen effizient zusammen wie z.B. Glastypen: Flachglas, Hohlglas, Tableware, Produktionskapazitäten in Kontinenten und Ländern, Ofenanzahl, Ofentypen, Baujahre, Glassorten und Unterkategorien, Produkte, Projekte, spezielle News und Downloads.

Weitere Datenbanken mit demoskopischen Daten und Import- und Exportdaten komplettieren die Marktinformationen. Basierend auf allen Datenbanken können Sie eigenständig Länderprofile mit Angaben zur gesamten lokalen Produktionskapazität, zur lokalen Marktgröße und die zu erwartende Marktgröße in der Zukunft erstellen.

Gerne erwarten wir daher Ihre Anfrage auf plants.glassglobal.com.

Updated container glass study 2024

X

Updated float glass study 2024

X

Further glass studies and reports 2024

X