Saharanpur Testing Instru...

Device Description : The laboratory beater is mounted upon a stainless steel construction. The device itself is entirely made of stainless steel as well. The container is capable of holding a volume of 23 liters , therefore 360g of pulp can be beaten with one process .the rolls including the blade are 152mm wide and have a diameter of 190-194mm . the bed knife consists of seven 3.2mm thick stainless steel blades. The knives and bed of the beater are encased by a tank cover in order to ensure safe handling of device.

Test Description : 360 g of pulp in a suspension is put into a beater. Now the suspension needs to be topped up with water until the whole mixture reaches a volume of 23 liters. Three minutes after starting the device a sample has to be taken , After that a weight of 5.5 kg has to be fixed to the lever in order to start the actual beating process. Samples can be taken at regular intervals and the pulp can be used to be tested for example on freeness or to form test sheets.

A simple and sturdy refiner with one fixed and one rotating disc refiner is intended for wet grinding and deliberating chips or experimental pulp making in lab or can be used as a small commercial production tools for pulping process

It is utilized for developing pulping processes and strength development studies on raw steamed or semi chemically cooked chips, fully cooked pulp, cooked straw, waste paper and many other materials.

The disc refiner mounted on a study metal frame and fitted with stainless steel disc, one immovable, the other rotating by means of a rotating wheel. The refiner disc are attached with six Allen screw and easily replaceable.

Determines the 3D morphology of screened particles (without any deformation)

Classifies the particles as stickies among contaminants.

ACCURATE AND USER FRIENDLY MEASUREMENT OF INK, SHIVES, AND STICKIES.

Autoclave and the parts which come into contact with cooking liquor are made of stainless steel.

Digester provided with Digital Temperature Indicator cum controller, Pressure indicator, Safety Valve and sampling valve.

Cooling water trey and bomb opening cabinet for filling and opening after cooking .

Option:

Complete attachment for oxygen injection to the autoclave with NRV and other safety valves

Polyglycol Heating chamber stainless steel double jacketed thermally insulated container,

with easy lid opening and locking mechanism

Autoclaves volume 6 number 2.5 liter and suitable for 300-350 g bone dry wood

MOC SS316 L and rotating in a polyglycol 900 bath

Heating elements: 2 No’s , 7.5 kW each with PID digital temp control to provide

precise heating at temp peak point to select ramp control during cooking

Temperature control range: PID type temp controller with Ramp selection to select several

temp range and time interval ambient to 350 0C with overheating temp protection with alarm indication

Temp of glycol bath and bombs can be check separately

Maximum working pressure: 20 Kg/cm2.

Test pressure: 30 Kg/cm2

Safety valve Make fainger Specially suitable for paper industries raw material

Drum rotation: 2.8 rpm.

Normal working temperature: 170 0C.

Glycol volume required: 90 Liter at customer scope

Chemical Recovery stainless Glycol recovery system using double jacketed column

with cooling water recirculation.

Power supply: 400-440 V, 3 Phase, 17 kW

Provision for taking samples

Autoclave and the parts which come into contact with cooking liquor are made of stainless steel.

Digester provided with Digital Temperature Indicator cum controller, Pressure indicator, Safety Valve and sampling valve.

Cooling water trey and bomb opening cabinet for filling and opening after cooking .

Device Description: The Digester is a complete pulping unit for producing pulps by cooking wood chips in a manner similar to a commercial digester. The unit is easy to operate and features precise control of pulping variables to ensure good repeatability of results. A sampling line with cooling attachments allows liquor samples to be withdrawn safely during the cooking process and a control valve determines the circulation rate of cooking chemicals.

Definition : when pulp suspension passed through a standard wire mesh fitted on a circular grid plate under standard barometric height to provide the necessary vacuum over the grid plate to form the paper sheet under uniform parameter such as consistency , temperature , water volume is defined as lab hand sheet making.

Device Description : Sheet Former of SCA model is intended for production of laboratory sheets for physical tests The design of the dewatering vessel gives a constant flow across the entire wire, thus permitting extremely uniform sheets. The Sheet Former is easy to install in a laboratory and produces square sheet size 165x165 mm.

Test Description : by opening the hand valve the former column is half filled with water and suspensions, which has been prepared in the disintegrator , and equalizer is added . Then the former column gets filled up until the mark is reached . the agitator is used to swirl the content of the column , once the settling phase is finished , the second hand lever gets moved to open the drainage valve and the water is drained through the forming screen. The freshly formed hand sheet remains on the screen. The former column can then be opened and two blotting papers are placed on the top of wet hand sheet. With the stainless steel roller the sheet is couched and then carefully be removed from the screen and further processed with the sheet press, the drying rings or the speed dryer.

Definition: Freeness of pulp is a measure of precisely how rapidly water can drain from a diluted fiber furnishes suspension. The freeness of pulp is designed to give a measure of the rate at which a dilute suspension of pulp (3 g of pulp in 1 L of water) may be drained. The freeness, or drainage rate has been shown to be related to the surface conditions and swelling of the fibers. Besides these factors, the result is dependent also on conditions under which the test is carried out, such as stock preparation, temperature, and water quality.

Device Description : The Schopper Reigler Type Beating & Freeness tester measures the drainage of beaten pulp suspension and expressed as SR number.The manual pulley with wire and fixed load system of loading and unloading of the sealing cone ensures a constant lifting rate for the sealing cone during the test

Test Description : The Shopper Reigler Type Beating & Freeness tester measures the drainage capacity of beaten pulp and is universally used to check the progress of beating process. The drainage of pulp suspension is express in SR number.

Definition : The laboratory hydra pulper is used for the de-fibreing of the virgin and secondary fiber in laboratory trial of different raw material for making pulp to measure properties, before making commercial production . A suitable and standard apparatus for making pulp, minerals fibres pulp like mica, asbestos etc.

Device Description : the unit consists of a pulping container with a rotor at the bottom driven by a V belt in the lower part of the unit . the electric motor has an adjustable frequency convertor to regulate the rotational speed . a ball valve at the bottom drains the pulp . an acrylic cover prevents injuries during the pulping process . A smaller opening in the cover allows extra content during pulping.

Test Description : the pulp is torn out by hand into about 2 x 2 cm large pieces and soaked with water , then the pilper is activated to mix the pulp and take apart the single fibres without destroying their structures to a homogenous suspension

Definition : FLOATATION is a physio-chemical process of separating materials. It is based on the phenomenon that separation is achieved by influencing the wettability with water of the particles to be separated. The water repellency of the surface of the particles to be separated is achieved by the addition of special heteropolar chemicals, which deposit on the surface of the particles at the same time the treated particles can deposit on air bubbles that are introduce into the suspension. As a result of buoyancy of the air bubbles the adhering particles are conveyed to the surface of the suspension to concentrate as a forth, which can be removed.

Device Description : The laboratory flotation cell consists of an acrylic glass vessel for 25 liter suspension with 300 mm diameter and a drainage pipe. On top of the vessel there is an automatic foam removal system, driven by a motor with magnetic coupling. On the bottom of the tank there is a self-suction aeration rotor. The air for the aeration rotor is regulated via an air flow meter. The air is guided by a baffle plate.

Test Description : The foam outlet is covered and 25 liter of the suspension are poured into the container. The cover is removed and the motor on top is in place. The chemicals suspensions are added to the suspension and the motor is turned on. Air bubbles from the aeration rotor create a foam, which is taken away by the foam paddles, guided to the central foam outlet and collected in a basket.

Device Description : the Baure Mcnett fibre classifier consists of up to 5 narrow tanks 255mm deep , 127 mm wide and 320mm high,  mounted in a cascaded arrangement , with screens of 335cm2 mounted on the flat side . A vertical , cylindrical agitator with short paddles rotates at 580rpm near one semi circular end of each tank . this causes suspension to flow horizontally across the screen and circulate around the tank . an overflow weir is provided at outgoing side of each screen , and a short pipe leads to the next tank with a finer screen at a slightly lower level , or from the last tank to drain away . A flow regulator supplies water at the rate of 11.35 l/m to the first tank. The motion of the water keeps the water from settling and presents them repeatedly to the screens through which they will pass if the length is less than twice the screen opening. The primary unit has an inlet funnel with an overflow and the nozzle for a constant water flow rate. Fractionating unit is completely self contained having its own electric motor for the rotor and is made of non-corrosive material. Fibre collection box with rapid locking device, support wire and suction connection. Interchangeable screens are available with wire of 4, 6, 8, 10, 14, 20, 30, 50, 100 and 200 standard mesh. The screen frames are clamped spring loaded self clamping system. Classifier gives a very low spread in the results with a variation coefficient of less than 1%.

Test Description: With the screens correctly mounted in the tanks press the start button to start the water flow into thje top tank . as soon as the lowest tank starts overflowing , press the stop button again and simultaneously start to pour the prepared sample of 3, 333ml with 24 grams of moisture free pulp during the period of 18second in the top tank. Subsequently the flow at the rate of 11, 355 l/m into the top tank, the stirrers and the timing of 20minutes are started automatically . A green light shows that the classification is in the process . during this time the drainage cups are furnished with weighed and marked filter papers.

After the test (20 minutes acc to TAPPI and 15 minutes according to SCAN) the water flux is stopped automatically and green light goes out . the stirrers continue running for another 2 minutes until there is no more water to drain away from the lowest tank . now the drain plug and tap below the cup of the first tank is opened and the pump is turned on to allow the contents to drain into the cup. After the tank has been drained the screen and the tank is flushed carefully with the provided hose. When all the tanks are emptied in this way the pads are taken out of the cups and folded in the middle. As much water as possible is removed using a wringer , a blotter or towel . before weighing to within to 0.01 g the pads are dried in an oven at 100*c to constant weight

Device Description : The PFI Laboratory Mill consists of an inner toothed roll of 33 blades and a smooth beater housing . the roll rotates in the same direction at different peripheral speeds . A beating force of exactly 3.33 N/mm ensures that the pulp is beaten under standard conditions . A measured amount of pulp of specified consistency is beaten between a roll with bars and a smooth beater housing both rotating in the same direction but at different peripheral speeds.

Test Description : A weighed and disintegrated amount of pulp is put inside the housing . the operation must be done manually , placing the pulp along the housing wall . the roll is lowered and inserted into the housing . the security cover is also put out. After pushing the start button , the test starts . the housing will rotates with 710rpm and the roll @1455 +- 30rpm , both in the same direction . the roll exerts a constant pressure of 3.33 N/mm against the housing wall , where the pulp is located. This way due to the pressure applied between the housing g wall and roll blades the pulp is refined . the refining time varied from 2 to 10 minutes depending upon the type of pulp used . after having rotated the pre selected rotations , the roll and the housing stops and refining process ends. Finally the roll is situated in the center initial position and the refined pulp is extracted to measure the freeness of the pulp in degree SR or CSF.

Definition : when pulp suspension passed through a standard wire mesh fitted on a circular grid plate under standard barometric height to provide the necessary vacuum over the grid plate to form the paper sheet under uniform parameter such as consistency , temperature , water volume is defined as lab hand sheet making.

Device Description : Sheet Former of KCL model is intended for production of laboratory sheets for physical tests The design of the dewatering vessel gives a constant flow across the entire wire, thus permitting extremely uniform sheets. The Sheet Former is easy to install in a laboratory and produces square sheet size 165x165 mm.

Test Description : by opening the hand valve the former column is half filled with water and suspensions, which has been prepared in the disintegrator , and equalizer is added . Then the former column gets filled up until the mark is reached . the agitator is used to swirl the content of the column , once the settling phase is finished , the second hand lever gets moved to open the drainage valve and the water is drained through the forming screen. The freshly formed hand sheet remains on the screen. The former column can then be opened and two blotting papers are placed on the top of wet hand sheet. With the stainless steel roller the sheet is couched and then carefully be removed from the screen and further processed with the sheet press, the drying rings or the speed dryer.

Definition : when pulp suspension passed through a standard wire mesh fitted on a circular grid plate under standard barometric height to provide the necessary vacuum over the grid plate to form the paper sheet under uniform parameter such as consistency , temperature , water volume is defined as lab hand sheet making.

Standardization : TAPPI T 205 , ISO 5269/1 , SCAN C26

Device Description : the sheet former is intended for installation into a laboratory bench (not included). The individual stages are carried out by moving hand levers . Swirling is done with an agitator with perforated bottom plate and the couching is done with the 10kg stainless steel roller (both included in the delivery). Additionaly 10 polished mirror plates and drying rings are included in the delivery for drying . all parts are constructed of corrosion resistant materials

Test Description : by opening the hand valve the former column is half filled with water and suspensions, which has been prepared in the disintegrator , and equalizer is added . Then the former column gets filled up until the mark is reached . the agitator is used to swirl the content of the column , once the settling phase is finished , the second hand lever gets moved to open the drainage valve and the water is drained through the forming screen. The freshly formed hand sheet remains on the screen. The former column can then be opened and two blotting papers are placed on the top of wet hand sheet. With the stainless steel roller the sheet is couched and then carefully be removed from the screen and further processed with the sheet press, the drying rings or the speed dryer.

Device Description : the Somerville shive content analyzer is built upon a robust stainless steel frame , which holds the membrane chamber and the container. The control box can be mounted on a wall . the wash chamber and container are separated by an exchangeable slot plate . the attached overflow container regulates the water level in the container. The slot plate can be easily removed due to fasteners.

Test Description : Place the slot plate between wash chamber and the container . pressing the start button initiates the process and the water will be sprayed through the ring plate onto the slot plate. Once the water reached the 25mm mark , the sample is added. The motor will start moving the rubber plate as soon as the water will reach the overflow container. Hence the rubber plate will create suction and sucks fibers and pieces through the opening of the slot plate that are smaller than the slot width. After draining the water , the remaining fibers and shives on the screen can be used for calculating the shive content.

Definition: Freeness of pulp is a measure of precisely how rapidly water can drain from a diluted fiber furnishes suspension. The freeness of pulp is designed to give a measure of the rate at which a dilute suspension of pulp (3 g of pulp in 1 L of water) may be drained. The freeness, or drainage rate has been shown to be related to the surface conditions and swelling of the fibers. Besides these factors, the result is dependent also on conditions under which the test is carried out, such as stock preparation, temperature, and water quality.

Standardization : ISO 5267/2 , CPPA C1 , BS 6035/2 , TAPPI T 227 .

Device Description : The freeness tester consists of a drainage chamber and a rate measuring funnel, mounted on a Stainless Steel Shaft Fitted on a Base Plate .

1. The drainage chamber bottom of which contains a perforated brass screen plate and is closed with an air-tight lid, hinged on one side of the cylinder and latched at the other.

2. The lid fitted in such a way that not more than 5 mL of water will flow when the bottom cover is opened at the start of the test.

3. The upper end of the cylinder is closed by a similar lid with hinge and latching mechanisms to provide an air-tight closure by means of a rubber gasket on the inside of the lid. An air-cock is inserted in the center of the upper lid to admit air to the cylinder at the start of a test.

Test Description :

1. Thoroughly clean and wet the freeness tester with distilled or deionized water at the temperature of the stock to be tested.

2. Place the drainage chamber on the upper supporting bracket with its lower lid closed and the upper lid and air-cock open.

3. Place the graduated cylinder in position to receive the discharge from the side orifice, and a container to collect the discharge from the bottom orifice.

4. Thoroughly stir the stock in the bucket to ensure a homogeneous mix and accurately measure 1000 mL into a clean 1-L cylinder. Take its temperature to the nearest 0.5°C .

5. Mix the sample in the graduated cylinder by closing the top of the cylinder with the hand and gently invert the cylinder 180° three times.

6. Pour the stock gently but as rapidly as possible into the chamber. It is imperative that at the end of the pouring, the stock be almost motionless in the chamber. This step is critical .

7. Close the top of the lid and the air-cock. Open the bottom lid. After 5 s from the time the addition of the stock is completed, fully open the air-cock in a single motion.

8. When the side discharge has ceased, record the volume discharged from the side orifice in milliliters to the maximum accuracy possible for the graduate used