Difference between revisions of "Biogas-Plant/C3/Construction-of-the-Dome/English-timed"

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|  Hello and welcome to this '''Spoken Tutorial''' on '''construction of the dome''' of the '''Digester tank'''.  
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|  Hello everyone!! Welcome to this '''Spoken Tutorial''' on '''construction of the dome''' of the '''digester tank'''.  
  
 
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|  00:28
 
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|  Dome is an arch like structure placed on the '''digester tank''' where the biogas is collected.
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|  Dome is an arch like structure placed on the digester tank where the biogas is collected.
  
 
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|01:00
 
|01:00
 
|  Let’s begin.  
 
|  Let’s begin.  
First, make a circle of 7 feet and 6 inches diameter with lime powder.  
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First, make a circle of 7 feet 6 inches diameter with lime powder.  
  
 
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|  01:27
 
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|  Next, hammer twelve 10-inch steel rods all along the marked circumference.  
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|  Next, hammer twelve 10-inches steel rods all along the marked circumference.  
  
 
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|01:35
 
|01:35
|Hammer 10-inch steel rods up to 2 inches in the ground.  
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|Hammer 10-inches steel rods up to 2 inches in the ground.  
  
 
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|  01:53
 
|  01:53
|  With the 12-feet long steel rods, we’ll make an outer circle around the hammered 10-inch steel rods.  
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|  With the 12-feet long steel rods, we’ll make an outer circle around the hammered 10-inches steel rods.  
  
 
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|  04:57
 
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| The 12 feet steel rod arches should be at an angular separation of 60 degree at the base.  
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| The 12 feet steel rod arches should be at an angular separation of 60 degrees at the base.  
  
 
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|  06:49
 
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| Two things to keep in mind while making circular rings are:
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|Two things to keep in mind while making circular rings are:
  
 
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|06:54
 
|06:54
|* The length of the steel rod would depend upon the position of the circular ring on the frame.  
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|the length of the steel rod would depend upon the position of the circular ring on the frame.  
  
 
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|17:02
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|07:02
|* Longer steel rods would be required as we gradually go from top to bottom.  
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|longer steel rods would be required as we gradually go from top to bottom.  
  
 
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| 07:16
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|07:16
| So, let’s do that.  
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|So, let’s do that.  
  
 
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|For the third ring, 9 feet and 8 inches steel rod would be required,
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|For the third ring, 9 feet and 8 inches steel rod would be required;
  
 
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|08:04
 
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|Fourth ring will require 12 feet 3 inches long  steel rod,
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|Fourth ring will require 12 feet 3 inches long  steel rod;
  
 
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| 08:15
 
| 08:15
|The fifth ring will need 14 feet and 10 inches long steel rod,
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|The fifth ring will need 14 feet and 10 inches long steel rod;
  
 
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| 08:27
|Sixth ring will require 17 feet and 4 inches long  rod,
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|Sixth ring will require 17 feet and 4 inches long  rod;
  
 
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|  09:17
 
|  09:17
|The Seventh ring will require 20 feet and 10 inches long steel rod.  
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|The seventh ring will require 20 feet and 10 inches long steel rod.  
  
 
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|  10:14
 
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|  Please note, if you follow the measurements mentioned earlier then you will get a uniform distance of 8 inches between each circular ring.  
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|  Please note that if you follow the measurements mentioned earlier then you will get a uniform distance of 8 inches between each circular ring.  
  
 
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|The distance between these two hooves should be 8 inches.
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|The distance between these two hooves should be 8 inches  
  
 
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|  10:37
 
|  10:37
|And, it should fit in between two circular rings as shown here.  
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|and it should fit in between two circular rings as shown here.  
  
 
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|  10:48
 
|  10:48
|  Just after placing the 6th circular ring an important thing to be done is  to fix vertical rods on the frame.  
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|  Just after placing the 6th circular ring, an important thing to be done is  to fix vertical rods on the frame.  
  
 
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| The 4feet 7 inches long steel rod has to be bent and tied to the 6th ring.  
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| The 4 feet 7 inches long steel rod has to be bent and tied to the 6th ring.  
  
 
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|  12:06
 
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|Note that, in both cases extra 3 inches have been left at the top for the ease of tying the steel wire to the circular rings.  
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|Note that in both cases, extra 3 inches have been left at the top for the ease of tying the steel wire to the circular rings.  
  
 
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|  12:47
 
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|  Use 7th and 8th ring to make gap of the mentioned size.  
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|  Use 7th and 8th rings to make gap of the mentioned size.  
  
 
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|  12:53
 
|  12:53
|Bend the 7th rod to make the upper side of the entrance, as shown in the image. And, bend the 8th ring downward.  
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|Bend the 7th rod to make the upper side of the entrance, as shown in the image and bend the 8th ring downward.  
  
 
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|To tighten the layers of the chicken mesh-Insert the hook into the hole(s) of the two layers  
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|To tighten the layers of the chicken mesh-insert the hook into the hole(s) of the two layers.
  
 
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|Before shifting untie the 10 inches hammered steel rod from the base ring.
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|Before shifting, untie the 10 inches hammered steel rod from the base ring  
  
 
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| 15:31
 
| 15:31
|And make sure of re-tying the loose ends of the mesh.  
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|and make sure of re-tying the loose ends of the mesh.  
  
 
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|  15:36
 
|  15:36
|  This brings us to the the end of this tutorial of constructing a dome for the Biogas plant.  
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|  This brings us to the end of this tutorial of constructing a dome for the biogas plant.  
  
 
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|  15:44
 
|  15:44
|  Fixing of the dome on the Biogas plant will be explained in a later tutorial.  
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|  Fixing of the dome on the biogas plant will be explained in a later tutorial.  
  
 
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|  15:50
 
|  15:50
|  Let us summarize, In this tutorial we learnt, The step-by-step procedure to construct the dome of the Digester tank.  
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|  Let us summarize. In this tutorial, we learnt the step-by-step procedure to construct the dome of the digester tank.  
  
 
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| 16:00
 
| 16:00
|  This video was created by Spoken Tutorial Project with inputs from Rural-ICT team, IIT Bombay.  
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|  This video was created by '''Spoken Tutorial Project''' with inputs from '''Rural-ICT''' team, '''IIT Bombay'''.  
  
 
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|  16:17
 
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|  This is Bella Tony along with the animation team of the Spoken Tutorial project signing off.  
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|  This is Bella Tony along with the animation team of the Spoken Tutorial project, signing off. Thank you for joining.  
Thank you for joining.  
+
  
 
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|}

Latest revision as of 18:11, 23 March 2017

Time Narration
00:01 Hello everyone!! Welcome to this Spoken Tutorial on construction of the dome of the digester tank.
00:08 The tutorials on digging of the pit and laying the foundation are available on Spoken-tutorial.org website.
00:18 In this tutorial, we will learn the step-by-step procedure for constructing a dome.
00:26 So, what is a dome?
00:28 Dome is an arch like structure placed on the digester tank where the biogas is collected.
00:36 Construction of the dome is a very interesting and important procedure.
00:43 Items used for construction are steel rods, chicken mesh and steel wire.
00:51 Detailed specifications of these are mentioned in the tutorial on materials required.
01:00 Let’s begin.

First, make a circle of 7 feet 6 inches diameter with lime powder.

01:08 Now, put 12 marks on the circumference of the circle and number them from 1 to 12, as shown.
01:19 These 12 marks should be separated by a distance of two feet from each other.
01:27 Next, hammer twelve 10-inches steel rods all along the marked circumference.
01:35 Hammer 10-inches steel rods up to 2 inches in the ground.
01:42 Remember that they have to be removed later.
01:48 Next comes the use of 12-feet long steel rods.
01:53 With the 12-feet long steel rods, we’ll make an outer circle around the hammered 10-inches steel rods.
02:02 I will now tell you how to make a circle using the hollow rod.
02:08 Use an iron rod having hollow ends.
02:12 With this iron rod, bend the 12-feet steel rods to form a circular shape.
02:19 Then place the circular steel rods around the smaller 10-inches steel rods, as shown.
02:28 We will need two 12 feet rods to complete the circle.
02:33 Now tie the circular steel rods to the 10-inch steel rods using steel wires, as shown.
02:42 Ensure that the knot is tied very tightly and the steel rod circle is very stable.
02:49 This is the base of the dome.
02:52 Hence it has to be very strong to bear the load of the plastered dome later.
02:58 Now, hammer a 4-feet and 2 inches long bamboo stick in the center of the circle, as shown.
03:06 Hammer the bamboo stick up to 2 inches in the ground.
03:11 Ensure that it can stand firmly by itself and can be easily removed later.
03:18 This bamboo stick should be able to temporarily support the frame of the dome.
03:24 Now, let’s start building the frame of the dome.
03:27 Again, use the hollow iron rod and bend a 12-ft long steel rod to form an arch like shape.
03:37 This arch will give the semi-circular shape to the dome.
03:41 Hence, ensure that the arch is symmetric on either side when bent.
03:48 Similarly, bend 2 more 12-feet rods to form arches.
03:55 Let me explain exactly how the arches have to be placed on the circumference using a diagram.
04:03 Secure one end of the arch at rod number 1 and the other end of the arch at rod number 7.
04:11 This will ensure perfect symmetry to the arch and it will rest on the bamboo stick in the centre.
04:19 Use steel wires to tie the arch together with the hammered 10-inches steel rod and the circular ring.
04:28 For tying, make a knot like structure with the steel wire, as shown here.
04:35 Do likewise at the opposite end of the arch as well.
04:40 Next we will tie two more arches.
04:44 Secure the second arch to rod number 3 and rod number 9.
04:50 And, secure the third arch to rod number 5 and rod number 11.
04:57 The 12 feet steel rod arches should be at an angular separation of 60 degrees at the base.
05:07 Now, we have three arches for the frame of the dome.
05:12 Next, carefully slide the steel rods at the top such that a small gap is left open in between.
05:22 Tie the steel rods using the steel wires as shown.
05:27 Intersection of the three arches will look like a triangle.
05:32 The sides of the triangle should be approximately 2.5 inches as shown in the image.
05:40 The top view of the framework should look like this after tying.
05:46 What you see here is the mason showing the exact position of the open triangular gap using the bamboo stick.
05:54 This gap is where the main gas pipe of 1 inch diameter will fit.
06:01 Once the arches have been fixed, we have to make circular rings with the remaining 12-feet steel rods.
06:11 First let us understand how to make these rings with the help of a diagram.
06:17 This is the framework we constructed so far,
06:21 circular base and semi-circular arches.
06:26 Now we need to fix 8 circular rings such that they can be placed on the arches, as shown.
06:34 The rings have to be uniformly separated by a distance of 8 inches between each of them.
06:43 To make circular rings, start from the top and gradually move downwards.
06:49 Two things to keep in mind while making circular rings are:
06:54 the length of the steel rod would depend upon the position of the circular ring on the frame.
07:02 longer steel rods would be required as we gradually go from top to bottom.
07:09 We will first have to cut the steel rods to the required length before we fix the rings.
07:16 So, let’s do that.
07:18 For the first ring which is the smallest ring at the top, we will need approximately 4 feet and 7 inches steel rod, adding 2 feet extra for tying.
07:33 Diameter of this circular ring will be 10 inches.
07:39 For the second ring, we will need approximately 7 feet and 1 inch of steel rod.
07:47 Diameter of this ring will be 1 foot and 7 inches.
07:53 For the third ring, 9 feet and 8 inches steel rod would be required;
07:59 diameter would be 2 feet and 5 inches.
08:04 Fourth ring will require 12 feet 3 inches long steel rod;
08:11 diameter of this ring will be 3 feet and 3 inches.
08:15 The fifth ring will need 14 feet and 10 inches long steel rod;
08:21 diameter of this ring will be 4 feet and 1 inch.
08:27 Sixth ring will require 17 feet and 4 inches long rod;
08:33 diameter of this ring will be 4 feet and 10 inches.
08:39 Remember, as mentioned while explaining the first circular ring , an extra 2 feet has been calculated for tying the rods together with steel wires, for all the 8 rings.
08:54 And the diameter for all the 8 rings is calculated excluding the 6 inches.
09:02 Now come the 7th and 8th rings.
09:06 Both will be used for making the circular rings and also the entrance of the dome.
09:13 Measurements for these two rings are-
09:17 The seventh ring will require 20 feet and 10 inches long steel rod.
09:23 And, for eighth ring 23 feet and 5 inches long steel rod would be required.
09:31 Keep in mind that this includes the measurement for the bent rods as well.
09:38 As soon as three circular rings are placed, an important thing to be done is:
09:45 Place 6 bamboo sticks of length 4 feet in an inclined position inside the frame of the dome.
09:54 Note that bamboo sticks have to be spread out uniformly from the centre of the base.
10:02 And, should be firmly rested against the circular rings or the arches.
10:09 These sticks will further give support to the frame of the dome.
10:14 Please note that if you follow the measurements mentioned earlier then you will get a uniform distance of 8 inches between each circular ring.
10:26 To confirm this, use a 1 foot steel scale having two hooves.
10:32 The distance between these two hooves should be 8 inches
10:37 and it should fit in between two circular rings as shown here.
10:43 However, you may ignore minor variations, if any.
10:48 Just after placing the 6th circular ring, an important thing to be done is to fix vertical rods on the frame.
10:58 I will explain how to do that:
11:01 Between two half-arches, fix a steel rod of length 5 feet and 5 inches bisecting the two main arches.
11:13 Tie this rod using steel wires from the base ring up to the first ring as shown in the image.
11:22 Similarly, fix two more steel rods of 4 feet and 7 inches, bisecting the half-arch and the 5 feet and 5 inches steel rod.
11:36 Tie these two rods using steel wires from the base ring up to the second ring, as shown.
11:44 Please note- between the 5th and 6th 10 inches hammered steel rods, do the following:
11:52 The 4 feet 7 inches long steel rod has to be bent and tied to the 6th ring.
12:00 This is done to make space for the entrance of the dome as shown in the image.
12:06 Note that in both cases, extra 3 inches have been left at the top for the ease of tying the steel wire to the circular rings.
12:17 Now we will fix the last two circular rings i.e. the 7th and 8th ring.
12:23 However, it is to be noted that between 6th and 8th ring will be the gap or the entrance to the dome.
12:32 This gap should be big enough for the mason to enter inside the dome.
12:39 Size of this gap would be approximately 2 feet of width and 2 feet of height.
12:47 Use 7th and 8th rings to make gap of the mentioned size.
12:53 Bend the 7th rod to make the upper side of the entrance, as shown in the image and bend the 8th ring downward.
13:04 This will make the lower end of the gap or entrance as shown in the image.
13:10 Now, tie the bent 7th and 8th rings firmly with steel wires.
13:17 Next comes covering the frame of the dome with chicken mesh.
13:23 Use a metal scissor to cut the required size of the chicken mesh.
13:29 Start covering the frame tightly with the mesh, from top to bottom.
13:35 To tie the mesh to the frame, stretch the mesh tightly and tie it to the frame with steel wires.
13:45 This can be done by using a metal hook.
13:49 To tighten the layers of the chicken mesh-insert the hook into the hole(s) of the two layers.
13:57 Rotate the hook by stretching the mesh and simultaneously entwining the meshes.
14:04 Please note- if the chicken mesh is not stretched tightly then cracks might appear later while plastering the dome.
14:15 Remember to leave an extra 4-5 inches of chicken mesh at the nape of the frame.
14:23 Reason for this will be explained while fixing the dome on the digester tank.
14:29 The entire frame should be covered with 3 bundles of chicken mesh.
14:35 This would form approximately 3 layers over the dome.
14:40 The multiple layers of chicken mesh will help to hold the cement firmly while plastering the dome.
14:48 Chicken mesh covering the entrance to the dome, should be cut with scissors.
14:53 What you see here is the mason getting inside the dome through the same gap or the entrance.
15:00 Once the chicken mesh is fixed, remove the bamboo sticks placed inside for support.
15:07 Please note that the sticks have to be gently removed so as to not disturb the frame of the dome.
15:15 Do so carefully and slowly.
15:18 The mesh dome is now ready and can be placed on the digester tank.
15:24 Before shifting, untie the 10 inches hammered steel rod from the base ring
15:31 and make sure of re-tying the loose ends of the mesh.
15:36 This brings us to the end of this tutorial of constructing a dome for the biogas plant.
15:44 Fixing of the dome on the biogas plant will be explained in a later tutorial.
15:50 Let us summarize. In this tutorial, we learnt the step-by-step procedure to construct the dome of the digester tank.
16:00 This video was created by Spoken Tutorial Project with inputs from Rural-ICT team, IIT Bombay.
16:08 More information on these projects can be found at these links.
16:17 This is Bella Tony along with the animation team of the Spoken Tutorial project, signing off. Thank you for joining.

Contributors and Content Editors

PoojaMoolya, Pratik kamble, Sandhya.np14