CHAPTER 4 – Admin User Interface

Press the äOptions button and choose Mark all.

Press the OSelect button.

Press the äOptions button again and choose Delete marked albums.

Press the OSelect button.

The mark function can also be used when adding multiple Audio Library items to a Playlist.

For example:

To add multiple albums to a playlist

Navigate to the Admin UI as previously described and select the Audio Library.

Press the U or V buttons to highlight Albums and press the OSelect button to display the Albums list.

Use the U or V buttons again to highlight an album you wish to add to a playlist and press the pMark button.

A mark symbol will appear next to the album.

Use the U or V buttons again to highlight another album you wish to add to a playlist and press the pMark button.

A mark symbol will appear next to this album also.

Press the MAdd To button.

Use the U or V buttons to select a playlist and press the äAdd button.

Both marked albums will be added to the playlist.

Note: If pressing the pMark button has no effect, then the mark function is not available on the current screen.

Editing and Renaming Playlists

To edit a Playlist name:

Navigate to the Admin UI and select Audio Library.

Press the U or V buttons to select Playlists and press the T button.

The Playlists screen will now be displayed:

From the Playlists screen, use the U or V buttons to highlight the Playlist you wish to edit.

Press the äOptions button and choose Edit Playlist Name.

Use the alphanumeric keypad to edit the playlist name and then press the OOk button.

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User’s Manual

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Sunfire TGM-100C user manual Editing and Renaming Playlists, To add multiple albums to a playlist

TGM-100C, TGM-100 specifications

The Sunfire TGM-100 and TGM-100C are advanced, next-generation gasification systems developed by Sunfire, a pioneer in sustainable energy technologies. These models are designed to convert a broad range of carbon-based feedstocks, such as biomass and waste materials, into high-quality synthesis gas (syngas). Utilizing a unique combination of innovative technologies, they stand out in the realm of clean energy production.

One of the main features of the TGM-100 and TGM-100C is their efficient conversion process. They employ a dual-stage gasification technology that enhances the efficiency of energy extraction from various raw materials. The first stage utilizes pyrolysis, where the feedstock is thermally decomposed in the absence of oxygen, leading to the production of bio-oil and char. This is followed by a gasification stage, where the remaining solid residues are converted into syngas using controlled amounts of oxygen and steam. This two-step process ensures high conversion rates and maximizes energy output.

In terms of technology, both models are equipped with advanced control systems that monitor and optimize the gasification parameters in real-time. These systems improve operational flexibility and reliability, allowing the units to adapt to varying feedstock qualities. Additionally, the TGM-100C version is designed with modular capabilities, making it easier to scale projects according to specific energy needs or feedstock availability.

Another characteristic that sets these models apart is their emphasis on environmental sustainability. The systems are designed to minimize emissions, contributing to a cleaner energy landscape. The syngas produced can be utilized in various applications, including power generation, chemical production, and as a substitute for natural gas in industrial processes.

The TGM-100 and TGM-100C are also notable for their robustness and durability. Built to withstand high operational demands, they feature high-grade materials and components that ensure long-lasting performance even under challenging conditions. These characteristics make them suitable for a range of applications, from industrial settings to remote off-grid locations.

In summary, the Sunfire TGM-100 and TGM-100C represent cutting-edge advancements in gasification technology. With their efficient energy conversion processes, modular capabilities, real-time optimization, and commitment to sustainability, they are a compelling choice for those seeking reliable and environmentally friendly energy solutions.