Difference between revisions of "DIY Incubator"

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=='''Materials''' ==
 
=='''Materials''' ==
  
1. Styrofoam box.
+
1. Styrofoam box.                                         [[File:Box.JPG]]
  
2. heating element.(bulb,heating pad,etc.)
+
2. heating element.(bulb,heating pad,etc.)                 [[File:Bulbs.JPG]]
  
3. cabinet fans.(depending on size of box)
+
3. cabinet fans.(depending on size of box)                 [[File:Fan.JPG]]
  
 
4. thermometer.(20°C to 100°C)                            [[File:Thermometer.JPG]]
 
4. thermometer.(20°C to 100°C)                            [[File:Thermometer.JPG]]
  
5. 12V adaptor.(for powering fans)
+
5. 12V adaptor.(for powering fans)                         [[File:Adapter.JPG‎]]
  
6. conducting wire.
+
6. conducting wire.                                       [[File:Wire.JPG]]
  
 
7. insulation tape.
 
7. insulation tape.

Revision as of 12:41, 19 June 2010

Incubator

An incubator is an isolated storage place that is used for cultivating bacteria. The incubator maintains optimal temperature of the atmosphere inside. Incubators are essential for a lot of experimental work in cell biology, microbiology and molecular biology and are used to culture both bacterial as well as eukaryotic cells. The simplest incubators are insulated boxes with an adjustable heater, typically going up to 60 to 65 °C (140 to 150 °F), though some can go slightly higher (generally to no more than 100 °C). The most commonly used temperature both for bacteria such as the frequently used E. Coli cells is approximately 37 °C, as these organisms grow well under such conditions. They also need a circulation system for equal distribution of heat in the box.

We made a simple incubator that maintains a temperature of 37 °C using materials that are easily available. This incubator will be used cultivate E.Coli.


Materials

1. Styrofoam box. Box.JPG

2. heating element.(bulb,heating pad,etc.) Bulbs.JPG

3. cabinet fans.(depending on size of box) Fan.JPG

4. thermometer.(20°C to 100°C) Thermometer.JPG

5. 12V adaptor.(for powering fans) Adapter.JPG

6. conducting wire. Wire.JPG

7. insulation tape.



Method

The styrofoam box is an insulated box that keeps the heat locked inside. The heating element is introduced into the box to produce heat. The cabinet fans are used to circulate the heat inside and keep the temperature same everywhere in the box. A thermometer is introduced into the box through a perfect fitting hole in the box to measure the temperature inside. the hole is then well insulated. Neither the heating element nor the fan must be too close to the thermometer. The fans and heating element must be placed in such a way that the required temperature is achieved(Not as easy as it seems). once the placement is finalized, stick the fans and the heat source in place using arelldite. the lis of the box must be sealed properly so as to not let any exchange take place(duct tape). The incubator is ready to use.


Safety

Process

Day 1

We first experimented with a dummy styrofoam box that we got at a juice centre. we first started with a 75 watt bulb and 1 fan. the fan was placed exactly opposite to the bulb. We also used a layer of al foil to increase heat.The temp reading showed 108°C. and the thermometer bursted. WE then scraped the Al foil idea.


Day 2

We then tried using a 40 watt bulb in the dommy with 3 fans.We placed the fans in such a way that the air circulated evenly through the box. The trmperature shot up to 40°C in the first 20 minutes and then remained constant at 60°C. We thought of having an outlet for the heat to escape and use the fan as an exhaust. This was not safe as there might be a possibality that some microbes may enter the incubator. so we used a bulb of lower wattage.


Day 3

We used a 0 watt bulb in the dummy box along with 3 fans. the new box had also arrived so we tried the same combination in the new box since it was bigger. The readings were as follows:


Dummy Box

Time(min)           Temp(°C)                       
0                    33                                           

1                    34                                           
  
3                    35                                           
5                    36                                           
 
6                    37                                           
8                    38                                           
10                   39                                           
13                   40                                           
17                   41                                           
20                   42                                                
29                   43                                                
 
43                   44                                                
65                   45(const)


Final box

Time(min)          Temp(°C)
 0                   31

 2                   32
  
 3                   33
 4                   34
 
 5                   35     
 7                   36
 9                   37
11                   38          
15                   39
21                   40 
33                   41   
 
53                   42(const)


Day 4

today we used 4 fans to reduce temp. The final temp came to 40°C. We also jumped to the conclusion that each fan reduces the temp of about 20°C, which was wrong.


Day 5

Today we tried to redoce the wattage further by using a mosquito repelent heater. we also used 4 fans in such a way that the air circulates in 2 circles. the temperatures recorded were as follows:


Time(min)          Temp(°C)
 0                   29

 1                   30
  
 2                   31
 4                   32
 
 4                   33     
 5                   34
 6                   35
11                   36          
20                   37

60                   37(const)

Thus we got a constant temperature of 37°C which es the apt temp for E.coli.