What is fogger ?

Foggers and misters are watering devices that focus primarily on reducing temperature and controlling humidity levels instead of soil saturation. They produce water at lower volumes, but operates at higher pressure which creates a mist or fog effect. In fogging system water is applied in the form of very fine spray in order to create humidity in air at low level. This system reduces indoor temperature in greenhouse and polyhouse.

Need of Project

Polyhouse requires a maintained temperature for whole day for proper growth of plants. In Vigyan Ashram, a fan pad cooling system is installed for maintaining the inside temperature of the polyhouse. But from last few months , the pads which are mounted on west side of sidewall of the polyhouse are not working. Which resulted in increased in temperature of polyhouse in that specific area. It also affected the growth of plants and humidity inside polyhouse. So to maintain the humidity and temperature of the polyhouse, we are going to design and install fogger system in the polyhouse.

Objective

  1. To design fogging system for polyhouse.
  2. To get desired pressure of 3.5 to 10 kg/ sq. cm for the application of fogger.
  3. To get desired temperature about 5°C less than outside temperature and humidity between 70 to 80% .

Estimated bill of material

Sr. No.MaterialQuantityBase PriceTotal Cost
1.4-way fogger10Rs.139Rs.1390
2.20 mm lateral56 mRs.12 per mRs.672
3.20 mm L-joiner2Rs.8Rs.16
4.20 mm T-joiner2Rs.8Rs.16
5.20 mm grommet nipple3Rs.12Rs.36
6.20 mm grommet starter3Rs.8Rs.24
7.2” PVC pipe30 ft.Rs.315 per 10 ft.Rs.945
8.2” elbow4Rs.40Rs.160
9.2” T-joiner1Rs.145Rs.145
10.1 HP submersible motor1Rs.8500Rs.8500
11.Metal wire3 kgRs.60 per kgRs.180
   TotalRs.12,084

Actual Bill of Material

Sr. No.MaterialQuantityBase PriceTotal Cost
1.4-way fogger10Rs.139Available
2.20 mm lateral56 mRs.12 per mRs.672
3.20 mm L-joiner2Rs.8Rs.16
4.20 mm T-joiner2Rs.8Rs.16
5.20 mm grommet nipple3Rs.12Rs.36
6.20 mm grommet starter3Rs.8Rs.24
7.2” PVC pipe30 ft.Rs.315 per 10 ft.Rs.945
8.2” elbow4Rs.40Available
9.2” T-joiner1Rs.145Available
10.1 HP submersible motor1Rs.8500Rs.8500
11.Metal wire3 kgRs.60 per kgRs.180
   TotalRs.10,389

Process flow chart

Study pipeline system of polyhouse 

Calculate pressure of water at the inlet of sand filter and at the outlet of screen filter 

Measure dimensions of polyhouse 

Draw rough structure of fogging system 

 Design Calculations

 Draw fair structure of fogging system

Make a list of required material 

Collect some quotations of required material from market 

Buy required material from market 

Installation of fogging system 

Observation and maintenance 

On going work

16/08/2022 to 24/08/2022

Firstly, we measured the incoming pressure of water at the inlet of sand filter. It was about 2.3 kg/sq.cm. We had to measured the pressure of water at the outlet of screen filter, so we purchased a new saddle piece to attach a pressure gauge to it. Then we measured the pressure of water and it was about 2 kg/sq.cm.

As we needed a water pressure of 3 kg/sq.cm to operate foggers, se we made a new water pipeline connection to reduce the pressure drop and velocity drop of water inside pipeline. Again, we measured the water pressure and it was 2.8 kg/sq.cm. As we didn’t get the desired water pressure, we decided to use a water tank as water source with a separate submersible water pump.

How to fill water tank of fogging system?

Designing of fogging system

14/09/2022 to 28/09/2022

Fogging system –

1.Flow rate (10 – 30 lit/hr)

2.Operating pressure (3.5 – 10 kg/cm²)

Types of foggers –

  1. 4 way fogger.

2. 2 way fogger.

3. 1 way or single way fogger.

4 way fogger –

Operating pressure (3 – 5 kg/cm²)

Flow rate (28 lit/hr)

Coverage area (5.5 m²)

Two way fogger –

Operating pressure (3.5 – 5.2 kg/cm²)

Flow Rate (12 lit/hr)

Average Droplet size (70 micron)

Single way foggers –

Operating pressure (2.5 – 4 kg/cm²)

Flow rate (7.5 lit/hr)

Coverage area (1 m²)

Droplet size (50 – 60 micron)

Why we use only four way fogger?

Because four way fogger cover more area. then two way fogger.

4 way fogger have four nozzles it’s spraying four side.

2 way fogger have two nozzles it’s spraying two side only.Thats why we are using 4 way foggers.

1.Measured dimensions of polyhouse for designing rough layout of fogging system.

2.Drawn rough layout of fogging system for polyhouse.

3.In the rough layout, there were 4 foggers on the second lateral. But the first fogger of that lateral was near to the exhaust fan. So we had to remove it and we added it on the third lateral.

4.Then we drawn a fair layout of fogging system with these corrections.

Calculations

Flow rate of water in 2″ pipe

= 7200 LPH = 0.002 m3/s

Cross-sectional area of 2″ pipe

d = 0.0508 m

r = 0.0254 m

A = π

= 3.14 × (0.0254)²

= 0.00203 m²

Velocity of water in 2” pipe

Q = AV

∴  V = Q/A

= 0.002/0.00203

= 0.9852 m/s

Cross-sectional area of 20 mm lateral

= 0.02 m

= 0.01 m

A = π

= 3.14 × (0.01)²

= 0.000314 m²

Velocity of water in 20 mm lateral ( 3 laterals )

Q = AV

∴  V = Q/A

= 0.002/0.000314

= 6.369 m/s

Therefore, velocity of water in each lateral

V1 = V2 = V3 = V/3

= 6.369/3

= 2.123 m/s

Flow rate of water in each lateral

Q = AV

= 0.000314 × 2.123

= 0.0006666 m3/s

Discharge of one 4-way fogger

Q = 30 LPH

Discharge at first fogger

Q1 = Q – 30 LPH

= 2400 – 30

= 2370 LPH

= 0.0006583 m3/s

Discharge at second fogger

Q2 = Q1 – 30 LPH

= 2370 – 30

= 2340 LPH

= 0.0006500 m3/s

Discharge at third fogger

Q3 = Q2 – 30 LPH

= 2340 – 30

= 2310 LPH

= 0.0006417 m3/s

Discharge at fourth fogger

Q4 = Q3 – 30 LPH

= 2310 – 30

= 2280 LPH

= 0.0006333 m3/s

Pressure drop in 20 mm lateral

For first lateral :

 ΔP = f × L/D × ρ/2 × V²

where,

ΔP – pressure drop in lateral,

f – friction factor,

L – length of lateral,

D – diameter of lateral,

ρ – fluid density,

V – velocity

∴  ΔP = 0.0357 × (16.5/16 × 10-3) × 1/2 × (4.17)²

= 10.2436/0.032

= 0.3201 KPa

= 0.03264 kg/cm²

For second lateral :

 ΔP = f × L/D × ρ/2 × V²

∴  ΔP = 0.0357 × (14/16 × 10-3) × 1/2 × (4.17)²

= 8.6915/0.032

= 0.2716 KPa

= 0.02769 kg/cm²

For third lateral :

 ΔP = f × L/D × ρ/2 × V²

∴  ΔP = 0.0357 × (16.5/16 × 10-3) × 1/2 × (4.17)²

= 10.2436/0.032

= 0.3201 KPa

= 0.03264 kg/cm²

Velocity drop in lateral when foggers are on –

V1 = A/Q1

= 0.000314/0.0006583

= 0.4770 m/s

V2 = A/Q2

= 0.000314/0.0006500

= 0.4831 m/s

V3 = A/Q3

= 0.000314/0.0006417

= 0.4893 m/s

V4 = A/Q4

= 0.000314/0.0006333

= 0.4958 m/s

Total velocity drop = V1 + V2 + V3 +V4

= 0.4770 + 0.4831 + 0.4893 + 0.4958

= 1.9452 m/s

Installation of fogger system

29/09/2022 – 04/10/2022

1.Brought the required materials for the installation of fogging system.

2.Made some connections of pipeline to supply water from the filtration system to the water tank.

3.Cut the 20mm lateral into designed length.

4.Collected some required material from scrap.

5.Marked out the points on 20mm lateral where we are going to attach fogger.

6.Drilled 20mm holes in mainline for the lateral.

06/10/2022 – 13/10/2022

1.Drilled holes in 20mm lateral for/to attach fogger.

2.Tied metal wire in the polyhouse to give support to the lateral.

3.Attached lateral to the main line.

4.Attached the fogger to the lateral.

5.Digged soil for the pipeline .

6.Tied metal wire in one half the polyhouse to give support to the lateral.

7.Tied metal wire in other half of the polyhouse.

8.Connected mainline to the water pump.

Lastly we attached a screen filter to the mainline to purify the water and hence to avoid blockage of fogger nozzles.

Observations

Date : 19/10/2022
Time :11.00 AM12.15 PMFor 15 min.14.45 PM17.00 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :30° C_35° C28° C28° C_28° C_
Wet Bulb Temp :21° C_23° C18° C17° C_18° C_
Humidity :45.00%_40.00%_40.00%_
Date : 20/10/2022
Time :11.00 AMFor 5 min.14.30 PMFor 15 min.17.00 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter Fogging
Dry Bulb Temp :30° C28° C30° C28° C24° C_
Wet Bulb Temp :17° C19° C20° C19° C11° C_
Humidity :44.00%41.00%44.00%_
Date : 21/10/2022
Time :10.15 AM12.45 PM17.15 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter Fogging
Dry Bulb Temp :26° C_26° C_26° C_
Wet Bulb Temp :16° C_17° C_16° C_
Humidity :39.00%_43.00%_39.00%_
Date : 28/10/2022
Time :10.00 AMFor 5 min.12.10 PMFor 15 min.14.30 PMFor 15 min.17.05 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :25° C25° C35° C27° C30° C26° C27° C_
Wet Bulb Temp :14° C14° C25° C18° C15° C14° C18° C_
Humidity :44.00%43.00%43.00%_
Date : 29/10/2022
Time :10.35 AM10 min.12.15 PM15 min.14.30 PM20 min.16.45 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :24° C22° C30° C24° C34° C25° C24° C_
Wet Bulb Temp :14° C12° C17° C13° C24° C13° C14° C_
Humidity :38.00%36.00%36.00%44.00%38.00%_
Date : 31/10/2022
Time :10.20 AMFor 10 min.12.45 PMFor 15 min.14.35 PMFor 15 min.
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter Fogging
Dry Bulb Temp :30° C25° C35°27° C35° C25° C
Wet Bulb Temp :20° C15° C25° C17° C24° C15° C
Humidity :41.00%38.00%44.00%40.00%38.00%
Date : 1/11/2022
Time :10.05 AM10 min.12.15 PM15 min.14.45 PM15 min.17.15 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :30° C27° C32° C28° C28° C24° C23° C_
Wet Bulb Temp :23° C22° C22° C23° C24° C21° C21° C_
Humidity :53.00%62.00%42.00%63.00%69.00%74.00%81.00%_
Date : 2/11/2022
Time :10.10 AM12.20 PM10 min.14.40 PM20 min.17.00 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :25° C_30° C28° C32° C28° C26° C_
Wet Bulb Temp :22° C_25° C26° C25° C25° C23° C_
Humidity :74.00%_64.00%83.00%54.00%75.00%75.00%_
Date : 3/11/2022
Time :11.00 AM10 min.12.35 PM15 min.14.45 PM15 min.17.15 PM
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :28° C26° C29° C26° C29° C26° C23° C_
Wet Bulb Temp :23° C24° C23° C23° C25° C23° C21° C_
Humidity :63.00%82.00%58.00%75.00%69.00%75.00%81.00%_
Date : 4/11/2022
Time :
Before FoggingAfter FoggingBefore FoggingAfter FoggingBefore FoggingAfter FoggingBeforer FoggingAfter Fogging
Dry Bulb Temp :26° C_29° C_32° C27° C25° C_
Wet Bulb Temp :22° C_24° C_24° C24° C22° C_
Humidity :68.00%_69.00%_50.00%75.00%74.00%_
Table 1. Fogging System
Date : 11/11/2022
Place :OutsideCentre from working padsCentre from 1st fanCentre from non-working padsCentre from 2nd fanCentre of polyhouse
Time : 10.30 AM
Temp. above foggers :30° C32° C30° C32° C31° C32° C
Temp. below foggers :_26° C26° C28° C28° C29° C
Time : 11.30 AM
Temp. above foggers :35° C33° C31° C34° C34° C37° C
Temp. below foggers :_25° C25° C27° C27° C30° C
Time : 12.30 PM
Temp. above foggers :37° C34° C35° C36° C35° C38° C
Temp. below foggers :_27° C27° C29° C29° C30° C
Time : 14.30 PM
Temp. above foggers :32° C33° C30° C33° C31° C35° C
Temp. below foggers :_26° C26° C26° C26° C28° C
Date : 12/11/2022
Place :OutsideCentre from working padsCentre from 1st fanCentre from non-working padsCentre from 2nd fanCentre of polyhouse
Time : 10.00 AM
Temp. above foggers :31° C31° C29° C30° C29° C33° C
Temp. below foggers :_28° C28° C30° C29° C32° C
Time : 12.30 PM
Temp. above foggers :34° C32° C31° C35° C34° C37° C
Temp. below foggers :_26° C26C27° C27° C29° C
Time : 14.30 PM
Temp. above foggers :32°32° C31° C33° C32° C34° C
Temp. below foggers :_27° C27° C27° C27° C29° C
Table 2. Comparison between temperature above foggers and below foggers

Conclusion

  • Foggers are very useful for maintaining temperature and humidity.
  • After taking some observations, we observed that 10 foggers reduced 5 to 7° C temperature if it operates for 30 minutes.
  • As per specifications of 4-way fogger, it should cover 5.5 sq. m area but after observation it covered only 4.5 sq.m area.