Thermo Hygrograph

July 8th, 2014 by Acmas No comments »

A Thermo Hygrograph is a scientific instrument which measures the Temperature and Humidity and plots it on a chart. It monitors the environmental changes. Thermo Hygrographs are used to produce a continuous record of the variation of both the Temperature and Relative Humidity of the atmosphere against time, by drawing colored traces on a chart.

Thermo Hygrograph is portable, accurate and easy to operate. Variations in Relative Humidity can affect many manufacturing processes, storage of raw materials, weights of items such as wool, paper, tobacco, confectionery, and computer operation, as well as being an important factor in human comfort. Since Temperature is often linked to changes in Relative Humidity, this instrument records both on a single chart.

Thermo Hygrograph requires ongoing maintenance to ensure that they are recording accurately and to ensure that the cylinder is rotating at the right rate. And Thermo Hygrograph also needs to be calibrated periodically.

Principle

Thermo Hygrpgraph works on the principle that organic materials expand and contract as the Relative Humidity changes. In this case, the organic material is Human Hair (it is need to be reconditioned).

The hairs are bundled together and stretched between a fixed pin and movable pin. The movable pin is attached to a series of levers, which amplify the movement of the hairs. A pen is attached to the end lever, and this pen plots the movement of the lever on a chart, which is mounted on a rotating cylinder. The rate of rotation can be altered, so that the Relative Humidity is plotted over a day, a week or a month.

It also has a Temperature Sensor which records the Temperature on same chart. The chart should be changed at the end of each recording period and the pen should be set on the correct line.

Advantages

It measures the temperature and relative humidity of

Museums
Libraries
Storage Areas

It gives the relationship between humidity and temperature.
The chart also shows when fluctuation occurred, so one can relate fluctuation to events in the area being monitored, e.g. the arrival of a bus load of tourists on a wet day.

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TDS Meter

July 8th, 2014 by Acmas No comments »

TDS meter is an equipment which is used to measure the amount of Total Dissolved Solids i.e. TDS in an aqueous state/water. The instrument/equipment is convenient, accurate, portable and easy to operate, especially for field measurement.

What Are Total Dissolved Solids?

“Total Dissolved solids” refer to mobile charged ions including minerals, salts, metals, cations or anions dissolved in given volume of water. This includes anything present in water other than the pure water (H₂0) molecule and suspended solids. (Suspended solids are any particles/substances that are neither dissolved nor settled in the water, such as wood pulp.) TDS is expressed in units of mg per unit volume of water (mg/L), also referred to as parts per million (ppm).

Principle of TDS meter

A TDS meter is based on the Electrical Conductivity (EC) of water. Pure H₂0 has virtually zero conductivity. Conductivity is usually about 100 times the total cations or anions expressed as equivalents. TDS is calculated by converting the EC by a factor of 0.5 to 1.0 times the EC, depending upon the levels. Typically, the higher the level of EC, the higher the conversion factor to determine the TDS. While a TDS meter is based on conductivity, TDS and conductivity are not the same thing.

Applications of TDS meter

To identify the Taste and effect of TDS on Health

High TDS results in undesirable taste which could be salty, bitter, or metallic. It could also indicate the presence of toxic minerals. The Environmental Protection Agency (EPA) recommended maximum level of TDS in water is 500mg/L (500ppm).

To meaure Hardness

High TDS indicates Hard water, which causes scale buildup in pipes and valves, inhibiting performance.

For the aquatic life

A constant level of minerals is necessary for aquatic life. The water in an aquarium or tank should have the same levels of TDS and pH as the fish and reef’s original habitat.

To measure the Hydroponics

TDS is the best measurement of the nutrient concentration in a hydroponic solution.

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Soxhlet Extraction Overview

July 3rd, 2014 by Acmas No comments »

When a compound of low solubility such as lipid is need to be extracted from a solid mixture a Soxhlet extraction can be carried out. The technique places a specialized piece of glassware in between a flask and a condenser. The refluxing solvent repeatedly washes the solid extracting the desired compound into the flask. The Soxhlet extraction method was described by Soxhlet in 1879, in this procedure; oil and fat from solid material are extracted by repeated washing/percolation with an organic solvent usually hexane or petroleum ether, under reflux in a special glassware. Soxhlet extraction is only required where the desired compound has a limited solubility in a solvent and the impurity is insoluble in that solvent.

Lipids are a group of substances that, in general, are soluble in ether, chloroform, and other organic solvents but are relatively insoluble in water. An accurate and precise quantitative analysis of lipids in foods is important not only for nutritional labeling, but also for determining whether the food meets the standards for identity and uniformity, and for understanding the effects of fats and oils on the functional and nutritional properties of foods. The validity of the fat analysis of a food depends on many factors, including proper sampling and preservation of the sample before the analysis. Because of commercial regulations, it is important for food producers to be able to report fat content in a serving size of a food item.

Figure of Soxhlet extractor

1. Flask containing the solvent

2. Thimble placed in an extraction chamber

3. Funnel allows recovering the blog upload sample

4. Condensor

In this method the sample is dried, ground into small particles and placed in a porous cellulose thimble. The thimble is placed in an extraction chamber, which is suspended above a flask containing the solvent and below a condenser. The whole unit is supported with the heating unit. The flask is heated and the solvent evaporates and moves up into the condenser where it is converted into a liquid that trickles into the extraction chamber containing the sample. The extraction chamber is designed so that when the solvent surrounding the sample exceeds a certain level it overflows and trickles back down into the boiling flask. At the end of the extraction process, which lasts a few hours, the flask containing the solvent and lipid is removed. In some device a funnel allows to recover the solvent at the end of the extraction after closing a stopcock between the funnel and the extraction chamber.

Safety cautions should be considered while using Soxhlet Extractor and Glass wares

To prevent the introduction of contamination into the sample and sample extracts at any time during the sample processing and analytical operation, it is vital that all glassware and other materials coming into contact with the sample should be clean properly.
All cleaned glassware should be stored prior to use under clean aluminum foil to prevent contamination by fallout from laboratory air, preferably in an enclosed cabinet.
To prevent the introduction of contamination to the cleaned glassware preparation and subsequent handling, it is important that suitable gloves should be worn. Disposable polyethene or latex gloves have been found suitable, however powdered gloves are not acceptable.