欢迎访问上海宇灿国际贸易有限公司

产品资讯

Quantum

Product Type:

Deionized Water Heaters




Trebor's thin film on quartz electric resistive heating technology is ideal for your 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 20,000 hours.



Product Features
♦ LEADING EDGE TECHNOLOGY - Patented thin-film on quartsz electrical resistance heater element provides exceptional temperature response and improved reliability over IR heating which requires frequent bulb change outs. The propriety design has no metal exposure and virtually eliminates contamination risk in the event of element failure, unlike most immersion style heaters. No external air or nitrogen purge is required.

♦ VERSATILE CONTROL OPTIONS - Standard Modbus/TCP offers the industry's first DI water heater Ethernet control capability. Many other remote system monitoring and control options available to meet virtually communication requirements and protocols.

♦ COMPACT & CONVENIENT - The modular element allows for very compact system design and can be changed out in less than 15 minutes when required. LCD color touch screen display provides easy user input and diagnostic feedback.

♦ HIGH PERFORMANCE - Efficient heat transfer and low resident fluid volume produces fast response to changes in flow or temperature set point using multi-loop PID control with zero crossfire SSRs.

♦ ULTRA CLEAN DESIGN - High purity flow path of GE 214 semiconductor grade quartz, PTFE, and PFA, with no elastomer o-rings and no NPT threads or dead-legs to create particle traps.

♦ SAFETY COMPLIANT - TUV third party compliance testing and inspection to CE, SEMI S2 & S8, and NFPA79 standards.

♦ USER EVENT CONTROL - Virtually eliminate fluid temperature fluctuations caused by process flow changes. Signal the heater of a flow change and within one second, the heater will automatically adjust to minimize the effect on process temperature.







Heater Selection Chart
Power
Voltage (50/60 Hz)
Current Rating (Amps)
Heating Modules
30 kW
 
380
415
 
45
3
30 kW
 
 
 
480
40
3
36 kW
208
 
 
 
110
3
36 kW
 
 
 
480
45
3
48 kW
208
 
 
 
145
4
60 kW
208
 
 
 
185
5
60 kW
 
380
415
 
95
6
60 kW
 
 
 
480
75
6
72 kW
208
 
 
 
220
6
72 kW
 
 
 
480
90
6

84 kW
208
 
 
 
260
7
90 kW
 
380
415
 
140
9
90 kW
 
 
 
480
110
9
96 kW
208
 
 
 
295
8
108 kW
208
 
 
 
330
9
108 kW
 
 
 
480
135
9
120 kW
208
 
 
 
370
10
120 kW
 
380
415
 
185
12
120 kW
 
 
 
480
150
12
132 kW
208
 
 
 
405
11
144 kW
208
 
 
 
440
12
144 kW
 
 
 
480
180
12
180 kW
 
380
415
480
 
15
216 kW
 
 
 
480
 
18
‡ Refer to back page for determining the right heater size for your application.

System Dimesions (in/cm)
System Weight
Power
A
B
C
Lbs/kg
30 kW
 
200/91
To
250/114
36 kW
69.0 in
24.0 in
20.0 in
48 kW
175.3 cm
61.0 cm
50.8 cm
60 kW
 
72 kW
 
 
 
 
 
84 kW
 
410/186
To
530/240
90 kW
96 kW
69.0 in
38.0 in
20.0 in
108 kW
175.3 cm
96.5 cm
50.8 cm
120 kW
 
132 kW
144 kW
 
 
180 kW
Consult Factory
216 kW



How to order

Use the code numbers for ordering the proper configuration for your
Quantum Heater.
HEATER
QTM
Quantum Deionized DI Water Heater
POWER
030
036
048
060
072
084
090
096
108
120
132
144
180
216
30 kW
36 kW
48 kW
60 kW
72 kW
84 kW
90 kW
96 kW
108 kW
120 kW
132 kW
144 kW
180 kW
216 kW
VOLTAGE
V208
V380
V415
V480
208VAC 50/60 Hz, 3 phase
380VAC 50/60 Hz, 3 phase
415VAC 50/60 Hz, 3 phase
480VAC 50/60 Hz, 3 phase
PLUMBING
A
B
Titanium J-type, fast acting
PFA coated J-type
 
Options are available at an additional cost:
OPTIONS
Contact factory for part number when requesting options.
 
Casters (Replace feet)
Modbus / RTU
Device Net
Analog Interface / Remote EMO
Dual Outlet Plumbing


Example of an order number based on configuration options:
QTM
060
V480
A



Sizing Formula

Required kW = 0.264(Flow)(Temp Delta)

Conversion Calculations:
GPM = LPM x 3.8
°C = 5/9(°F - 32)

Heater Sizing Formula Example

Ambient Water Temp = 25°C
Desired Process Temp = 70°C
Temperature Delta = 45°C

Required kW = 0.264(4 GPM)(45°C) = 47.5kW

For optimal temperature response and to compensate for seasonal changes in ambient water temperature, we recommend adding 20% excess heating capacity.

47.5 kW(1.2) = 57kW >>> Trebor recommends a 60kW heater for this application