The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
The Trebor® thin film on quartz electric resistive heating technology is ideal for ultra-high purity DI water heating applications when process control, cleanliness, and system uptime are of the utmost importance.
This patent pending technology utilizes GE 214 semiconductor grade quartz tubes bonded with a resistive metallic film. Trebor's patented sealing technology provides an ultra pure flow path with no elastomer o-ring seals or particle traps. This unique design creates a compact, ultra clean heating module with an MTBF greater than 2,000 hours.
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Product Category | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters | Electric Heaters |
Product Number | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series | Quantum Series |
Product Name | Deionized Water Heater 30kW | Deionized Water Heater 50kW | Deionized Water Heater 80kW | Deionized Water Heater 40kW | Deionized Water Heater 36kW | Deionized Water Heater 72kW | Deionized Water Heater 180kW | Deionized Water Heater 120kW | Deionized Water Heater 90kW | Deionized Water Heater 216kW | Deionized Water Heater 100kW | Deionized Water Heater 108kW | Deionized Water Heater 60kW | Deionized Water Heater 70kW | Deionized Water Heater 144kW |
Heater Type | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater | Water Heaters; Circulation Heater |
Maximum Operating (Sheath) Temperature | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) | 203 F (95 C) |
Heating Capacity | 30.00 kW (102 MBH) | 50.00 kW (171 MBH) | 80.00 kW (273 MBH) | 40.00 kW (136 MBH) | 36.00 kW (123 MBH) | 72.00 kW (246 MBH) | 180.00 kW (614 MBH) | 120.00 kW (409 MBH) | 90.00 kW (307 MBH) | 216.00 kW (737 MBH) | 100.00 kW (341 MBH) | 108.00 kW (368 MBH) | 60.00 kW (205 MBH) | 70.00 kW (239 MBH) | 144.00 kW (491 MBH) |
Sleeve (Sheath) Material | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® | Teflon® |