CO2 Incubator
MAKE DINESH SCIENTIFIC MODEL DS-CO2I-170L
Product Description
With the support of our adroit professionals, we provide our clients a high quality CO2 Incubator. Our provided incubator is made using high grade components, procured from reliable sources of the industry in compliance with international standards under the guidance of skilled professionals. Owing to its unique feature, it is widely acclaimed and appreciated in the market.
SAILENT FEATURES:
- Superior strength
- Robust design
- Impeccable finish
- Micro-computer chip – PID Control System. …
- Advance Ultrasonic Sensors. …
- High-Precision Platinum Resistance Temperature Sensor. …
- Air Circulation. …
- Auto-Start Function. …
- Solenoid Valve. …
- Temperature Controller & Overheating Relay Function.
FUNCTIONS OF CO2 INCUBATOR:
- The purpose of a CO2 incubator is to maintain an optimal environment for cell growth, by providing carbon dioxide control in a humidified atmosphere with constant temperature.
- chamber capacity, the volume of the chamber that is available for allowing growth; temperature range, the range of temperatures the incubator can control; temperature control accuracy, the closeness of an indication or reading of a measurement device to the actual value of the quantity being measured.
SCOPE OF APPLICATIONS:
- The CO2 incubator is used for providing and maintaining the optimum temperature, controlling the environment’s humidity, and regulating the levels of necessary gases such as oxygen and carbon dioxide. Aside from that, the incubator is also responsible for protecting the precious cultures from microbial contamination.
- Incubators are used to grow microbial culture or cell cultures. Incubators can also be used to maintain the culture of organisms to be used later. Some incubators are used to increase the growth rate of organisms, having a prolonged growth rate in the natural environment.
TECHNICAL DATA:
| Specification Name | Specification details |
| Capacity/Volume | 170 Liters with easy stackable design |
| Filtration | May have ULPA/HEPA filter Filter should be easily replaceable without help of any tool |
| Air Jacketed/Water Jacketed | Desirable for uniform temperature maintenance (Bidders providing water jacketed or heating circuit system for uniform temperature maintenance in equipment are also eligible) |
| Temperature Control | May have direct heated air jacket/water jacket system controlled by microprocessor |
| Temperature range | +5oC to 60oC with accuracy of ~ ± 0.1 |
| Temperature uniformity | 0.2oC to 37oC < ± 0.5 |
| Temperature recovery time | ≤ 3-5 minutes |
| CO2 range | Will be operational between 0-20% |
| CO2 accuracy range | ± 0.1% |
| CO2 recovery time | Will be able to recover upto 98% of CO2 at the levels of 5% CO2 within 5-6 minutes |
| Should have the O2 control system for inducing Hypoxia | Yes |
| O2 range | ~15-18% |
| O2 accuracy range | ± 0.1% |
| O2 recovery time | Preferable 98% of O2 within 8-10 minutes after 30seconds door opening |
| Should have silver ion antimicrobial coated body | Yes |
| Should have high heat (135oC-180oC) self- sterilization feature | Yes |
| Should have filters for gas inlet pipes | Yes |
| Humidity pan | Will have easily removable stainless- steel humidity pan |
| Relative humidity range | 90-95% at 37oC |
| Shelves material | Stainless steel 304 |
| Incubator chamber | Will be made of polished stainless steel with curvical corners for easy cleaning |
| Number of shelves | Minimum 4 corrosion resistant |
| Dimensions | Outer upto 26.0 (W) x 36.0 (H) and 20.0 (D) and interior dimensions upto 21.0 (W) x 24.0 (H) x 20.0 (D) inches |
| Should comply with ISO Class 5 air quality parameter | Yes, desirable in case instrument is equipped with HEPA/ULPA filter |
| Doors | May have reversible outer/inner doors |
| Inner glass door with door latch | Yes Will have built in heated inner glass door for maintenance of temperature, minimizing condensation on the glass and direct observation of the samples |
| Outer Door | Will have insulation with magnetic gasket |
| Should have sample port for measurement of CO2 and O2 inside the chamber | Yes (Desirable for O2 in case the instrument bidded is equipped for hypoxia induction) |
| Area for shelves | Approximately 18×19 inch |
| Perforated shelves | Yes |
| Inner gasket of the incubator | Will be removable and easily cleanable |
| Digital Display | Yes |
| Control system | Microprocessor control/monitoring system with touch screen- based displays for temperature, CO2 and alphanumeric message center, which is easy to read, easy to program and allows tracking and changing of different parameters. This should also automatically maintain the logs of all interactions with incubator |
| Electrical operating range | Between 180-250V |
| Should have alarm- based warning system for door opening beyond 30 seconds | Yes |
| Should have built-in preventive maintenance system with adjustable timer to notify user when to replace filter | Desirable |
| Should have microbiological filters on all the gas inlets and outlets and sample ports to reduce the potential contamination sources | ~0.1 to 0.3 micron |
| Should have UV light inside the CO2 incubator for humidity pan UV treatment | Yes |
| Shelves, humidity pan and supporting panels should be autoclavable | Yes |
| Silicon piping | Yes |
| Should have analog output option | Yes |
| Probes | All probes should be located inside the incubator chamber |
| CO2 incubator should come with extra ULPA and inline filters | Yes, only in case the CO2 incubator utilize fan to circulate air inside the equipment |
| Safety Alarm system | Yes |
| Energy consumption | Will be Less than 11 KW/Day |
| Accessories | Preferable: CO2 incubator should be supplied with one CO2 cylinder, regulator, suitable Servo based Stabilizer (5 KVA) |
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