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Thursday, 25 June 2020

CONVERSION TABLE -- 1

1 Inch

2.54 Cm

1 Feet

12 Inches

1 Feet

30.48 Cm

1 Sqft

0.0929 sqmtr

1 meter

100 Cm

1 meter

39.37 Inch

1 meter

3.28 Feet

1 Sqmtr

10.76 Sqft

1 Finger

3 Cm

1 kol (malayalam)

72 Cm

1 Cent

435.60 Sqft

1 Cent

40.47 Sqmtr

1 Acre

100 Cent

1 unit

100 Cubic Feet

Tuesday, 23 June 2020

High consistancy (Hc) cleaners | | working principle of high consistency cleaner

High consistancy (Hc) cleaner is made ready according to foreign products and relevant technical information. It is used for removing high density particles like sand, metallic pieces (staples, paper clips) etc., from pulp in pulping and paper industry. These particles may cause wear or damage to subsequent machinery and therefore they must be removed from pulp. It is one of the main equipment in wastepaper recycling and pulping industry.
It is placed vertically, it can takes up less area. The cleaner can be directly mounted on floor and fixed on rigid support as well. It is very easy to operate and maintain the cleaner.

Basic Parts:

High consistancy (Hc) cleaners, working principle of high consistency cleaner, Basic parts of high consistance cleaner, Dregs tank, Sight glass, Junk trap,
The cleaner mainly consists of; inflow pulp chamber, cone, support, dregs tank.
The pulp inlet line is present at the top of the cleaner in tangential direction, accepted pulp outlet line is present at the centre of the top of the inflow pulp chamber with an inserted wear resisting sleeve. The cone is divided into two parts as upper section and lower section. Upper part is pulp section and lower part is dregs section. The balancing water inlet line is present at the top of dregs section and washing water inlet line is present in dregs section. Sight glass is also present in the dregs tank for observation.

Working Mechanism:

Pulp goes into the cleaner along a tangent line at a pressure 0.2 to 0.6 MPa. When the pulp moves in spirals along the internal walls, accelerative centrifugalisation occurs. Because of this centrifugalisation, heavy particles present in the pulp are thrown towards the internal walls and move downwards in spirals. At the center of the area near the smaller diameter end of the top cone, the accepted pulp in spiral motion forms eddy under the interaction of speed and the motion area. Simultaneously the accepted pulp forms an up screw-column motion and flow outwards through the outlet present at the top of the cleaner. Heavy particles go downwards to  the bottom of the cone and settle in the dregs tank. This is connected to a high pressure water line, for washing the heavy particles and recovering the fibre. Under low consistency and high-pressure difference, efficiency of cleaner to remove heavy particles is high.

Main specifications and technical parameters:

We are giving what are the specifications and technical parameters we have to consider before implementing the cleaner.
Model

Flow rate : L/min

Consistency % of inflow pulp

Pulp inflow pressure: MPa

Difference of inflow and outflow pulp pressure: MPa

Pressure of equilibrating water: MPa

Flow of equilibrating water : L/Min

Pressure of compressed air: Mpa

Rejects discharge method
Automatically/Manually
Weight of equipment


Operation:

1. Open the valve of the accepted pulp outlet, close the upper and under gate valves of the dregs chamber.
2. Open the balancing and washing water valves and fill water into the dregs tank.
3. Open the upper valve of dregs tank, then the washing water raises continuously.
4. Start to supply pulp, and ensure the pressure difference between the inlet and outlet flow pulp.
5. Balancing water pressure must be above the inlet pulp flow pressure, if the pressure is low adjustment should be done.
6. After settle-down of dregs in dregs chamber we have to discharge them periodically. To do this we have to close the washing water valve and upper valve of dregs tank, and then open the the lower valve of dregs tank to discharge the dregs.

High consistancy (Hc) cleaners, working principle of high consistency cleaner, Basic parts of high consistance cleaner, Dregs tank, Sight glass, Junk trap, High consistancy (Hc) cleaner line diagram



TYPES OF GEOLOGICAL FORMATIONS

With respect to water retention and discharge capacity, geological formations are classified as follows:

1) AQUIFIER

2) AQUICLUDE

3) AQUITARD

4) AQUIFUGE


1) AQUIFIER:-

          Aquifer is a type of geological formation which have sufficient porosity and sufficient permeability.

i.e., Aquifer can retain the water and we can discharge water from these aquifer. 

Example: Formations with fine sand and coarse silt.

2) AQUICLUDE:-

          Aquiclude is a type of geological formation which are highly porous but are practically impermeable.

Due to impermeability of these formations we cannot discharge the water through them.

Example: Formation with clay.

3) AQUITARD:-

          The geological formation which are having sufficient porosity but are less permeable, then these formations are called as "Aquitard".

Due to sufficient porousness the water seeps through them and we cannot take any discharge from them.

Example: Formations with sandy clay and silty clay.

4) AQUIFUGE:-

          These are the geological formations which are neither porous nor permeable. The water does not seeps through it as well as the discharge from these is not possible.

Example: Formations with granite, sand stone, marble.


Tuesday, 16 June 2020

Types of Spillways - Classification of Spillways

          There are different types of spillways that can be provided depending on the compatibility of the site and other parameters. Typically a spillway consists of a control structure, a conveyance channel and a terminal structure, but the former two may be combined in the same for certain types. The more common types are briefly discussed below:
1. Straight Drop Spillway
2. Ogee Spillway
3. Siphon Spillway
4. Chute or Trough Spillway
5. Shaft Spillway
6. Side Channel Spillway

1. Straight Drop Spillway:

          In a Straight drop spillway, when the water level in the reservoir rises above the normal pool level, the over flowing water falls freely and almost vertically on the downstream side of the hydraulic structure, and hence it is referred as Straight drop spillway (or) free overfall spillway. This sort of spillway is suitable for weirs (or) low dams.
Straight Drop Spillway, Types of Spillways, Classification of spillways,
          The crest of the spillway is provided with nose so that the water jet might not strike the downstream base of the structure. To prevent the scouring of downstream bed from falling water jet, an artificial pool (which is known as water cushion) with a concrete apron (horizontal impervious apron) and low secondary dam is made on the downstream side. This cushion serves the purpose of energy dissipater.
          Proper ventilation should be provided on the bottom portion of a falling jet to prevent pulsating and fluctuating effects. 
          Sometimes, an overhanging projection is provided on the crest of the weir to prevent the entrance of small discharges onto the face of the weir wall.
Straight Drop Spillway Components, Straight Drop Spillway, Types of Spillways, Classification of spillways,

2. Ogee Spillway:

Ogee-spillway-of-Shahghasem-dam, Ogee spillway, Types of Spillways,
Ogee-spillway-of-Shahghasem-dam
          Ogee spillway represents the shape of the downstream face of the weir. In this case, the bottom face of the weir is constructed corresponding to the shape of lower nappe of freely falling water jet, which is in ogee shape. This is a modified form of straight drop spillway. The Ogee spillway is usually provided in rigid dams and forms a part of the main dam itself if sufficient length is available. 
          The shape of the lower nappe isn't same for all the head of water above the crest of the weir. It differs with the head of water.
          Whenever there is surplus water, it will be freely disposed of through ogee spillway along its ogee shaped crest, the overflowing water just follows the curved profile of the spillway and there is no gap between the water and the spillway surface and the discharge is maximum. Ogee spillways are most commonly preferable in case of gravity dams, arch dams, buttress dams, etc., For gravity dams, it is generally located within the dam body.

3. Siphon Spillway:

Siphon Spillway
          A siphon spillway is a type of spillway where the surplus water is disposed to downstream through an inverted U-shaped conduit. It is generally constructed inside the body (or) over the crest of the dam. On siphon principle this spillway works. This spillways are having high discharge capability.
Siphon_Spillway


          In this siphon spillways, air vents are provided at the upper passageway in the bent portion to prevent the entrance of water when the water level is below the normal pool level. Whenever the level rises above normal pool level, water enters into the conduit and by siphonic action discharged to the downstream of the channel. 

Siphon Spillway


4. Chute Spillway:

          The Chute spillway is a type of spillway in which overflowing water from upstream is disposed to the downstream through a steeply sloped open channel. It is generally constructed at one end of the dam (or) separately faraway from the dam in a natural saddle in a bank of the river. The spillway can be provided close to the dam or at an appropriate saddle away from the dam where site conditions permit.
Oroville Dam Chute Spillway, Chute spillway, Straight Drop Spillway, Types of Spillways, Classification of spillways,
Oroville Dam Chute Spillway
          Chute spillway is preferred when the width of the river valley is very narrow. This spillway is mostly suitable for gravity dams, rockfill dams, earthen dams. These spillways are also termed as "Trough spillway" (or) "Open channel spillway".
          The slope of spillway is designed that it should maintain a supercritical flow. Energy dissipators can be provided on the bed of chute spillway to dissipate energy from the falling water.

5. Shaft Spillway:

          A Shaft spillway is a type of spillway which consists of a vertical shaft connected by a horizontal conduit. The overflow water in the reservoir enters into the vertical shaft and then flows to the horizontal conduit and eventually reaches the downstream of the channel.
          The shaft constructed is either artificial or natural. Only when the hard rock strata is present then it is suitable for natural shaft otherwise we should choose artificial shaft constructed with heavily reinforced concrete. The horizontal conduit either passes through the dam body or through the foundation of the dam.
Oroville Dam Chute Spillway, Chute spillway, Straight Drop Spillway, Types of Spillways, Classification of spillways, Ladybower Reservoir East spillway shaft, Spillway shaft
Ladybower Reservoir East spillway shaft
          In the case of major projects, the inlet hole of the vertical shaft is specially shaped (a stepped circular rings shaped) which is called as "Glory hole of the spillway". Hence, shaft spillway is also referred as "Morning glory spillway" (or) "Bell mouth spillway". Shaft spillways are preferred when there is no space to provide for other sorts of spillways such as Ogee spillway, Straight drop spillway, etc., 

6. Side Channel Spillway:

          Side channel spillways are located just upstream and to the side of the dam. The water spilling from the crest is turned 90 degrees and flows parallel to the crest of side channel spillway. Sometimes a tunnel could also be used rather than a chute.
Side channel spillway, Oroville Dam Chute Spillway, Chute spillway, Straight Drop Spillway, Types of Spillways, Classification of spillways, Ladybower Reservoir East spillway shaft, Spillway shaft

          When flanks of sufficient width are not available, side channel spillways are preferred over chute spillways, to avoid heavy cutting. The angle of turn of water flow after passing weir crest can also be kept between 00 and 900.

Types of Spillway Gates

Spillway gates are classified into many types, they are:
1. Dripping shutters or permanent flashboards
2. Stop logs and needles
3. Radial gate or tainter gates
4. Drum gates
5. Vertical lift gates or rectangle gates 

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