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Moisture Meter

June 4th, 2014

As the name suggests used for Moisture Detection and Moisture Analysis.

Moisture Meter is used to measure the water content/percentage of water in a given substance e.g. seeds, food products and many more.  It estimates the moisture content of certain textile materials by utilizing the relationship which exists between their moisture condition and Electrical Resistivity.

The Moisture meters depend on the Conductivity Measurements, Capacitance Measurement and Electrical Resistivity. These meters are equipped with Sensors known as Transducers which help in converting one kind of energy into another type of energy. A novel Moisture Meter sensor depends on the following principle

  • Frequency measurement; meter operates on the principle of non destructive measurement
  • Time domain measurement; meter works on the principle of change in the time duration of passage of the pulse through the material.

These Moisture meters provide non-destructive measurement content in soap, soap cake, paper, cement and food industries such as-biscuits, chocolates sugar syrups i.e. no damage to material.

Here are some different types of Moisture Meters which are used for different purposes.

  • Moisture Meter for Wood

The Wood Moisture Meter works on the principle that the wood resistance decreases, as the moisture content in the wood increases. The decrease in the resistance is converted into digital data and the moisture meter displays the percentage of water in the wood. The Moisture Meter consists of two electrodes, which are inserted into the wood, to find out the resistance between them and hence its moisture content.

  • Moisture Meter for Concrete

Concrete Moisture Meters were introduced to check out the moisture content in the concrete slabs that are used in construction. Their principal of working and finding out the moisture content is same as that of the Wood Moisture Meter. The resistance between their electrodes is checked out here too, to find out the moisture content in the concrete. However, they significantly differ in their moisture detection and moisture analysis methods, from the Wood Moisture Meters. They can measure moisture at a depth of 1 inch from the moisture surface. This is required because people working in the field need to know the moisture content at the depths of the concrete slab, to analyze the construction.

  • Moisture Meter for Soil

This moisture analysis is required to find out if the plants in your garden would require watering or not. It may happen that because of rain, the moisture content in the soil is already sufficient and your plants do not need any more water, for a considerable amount of time. Under such cases, a Soil Moisture Meter can be used for the moisture detection and moisture analysis in the soil, to find out regularly, if the plants require any additional watering. If it rains regularly and your plants are getting over watered, then the moisture analysis can help you in determining if you need to take some preventive measures, to cover up your plants from the rain. The Soil Moisture Meter works on the same principle as that of any other ordinary moisture meters.

Application Areas

  • Food and beverages
  • Pharmaceuticals
  • Minerals and chemicals
  • Plastics and companies
  • R & D laboratories
  • Pulp & paper
  • Textiles
  • Cosmetics
  • Paints & coatings
  • Regulatory Agencies

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Moist Heat Sterilization Autoclave

June 4th, 2014

Sterilization is defined as the process where all the living microorganisms, including bacterial spores are killed. This can be achieved by physical, chemical and physiochemical methods.

Heat is one of physical method of sterilization. Heat acts by oxidative effects as well as denaturation and coagulation of Proteins. Those materials/articles that cannot withstand high temperatures can still be sterilized at lower temperature by prolonging the duration of exposure.

When heat is used as a sterilizing agent, the vibratory motion of every molecule of microorganism is increased to level that induce the cleavage of intramolecular hydrogen bonds between proteins. Death is therefore caused by an accumulation of irreversible damage to all metabolic functions of the organism.

Factors affecting heat sterilization are:

  • Nature of heat; moist heat is more effective than dry heat.
  • Temperature and time; temperature and time are inversely proportional. As temperature increases the time taken decreases.
  • Number of microorganism; more the number of microorganisms, higher the temperature or longer the duration required.
  • Nature of microorganism; depends on species and strain of microorganism, sensitivity to heat may vary, spores are highly resistant to heat.
  • Types of material; articles/materials that are heavily contaminated require higher temperature or prolonged exposure. Certain heat materials/articles must be sterilized at lower temperature.
  • Presence of organic material; organic material such as protein, sugars, oils and fats increase the time required.

Moist heat acts by coagulation and denaturation of proteins.

It has more penetration power than dry air, It moistens the spores (moisture is essential for coagulation of proteins), condensation of steam on cooler surface releases latent heat, condensation of steam draws in fresh steam.

Moist heat sterilization technology is the most widely used given its versatility and effectiveness for heat resistant products. Depending on the type of product to be sterilized, different techniques are used:

  • Steam sterilization
  • Steam-air mixture sterilization
  • Steam-water mixture sterilization

Steam sterilization is basically used to sterilize different types of solid materials: clothing, stainless steel equipment, filters, component parts of other equipment, etc., and also for liquids in sealed or ventilated containers, etc.

Steam-air mixture and steam-water mixture sterilization Autoclaves have been specially designed for the terminal sterilization of liquid solutions in sealed glass or plastic containers and the process controls the differential pressure existing between the inside of the container and the chamber.

Moist heat sterilization at above 100 degree C

Sterilization can be effectively achieved at a temperature above 100 degree C using an Autoclave. In an Autoclave the water is boiled in a closed chamber. As the pressure rises, the boiling point of water also raises. At a pressure of 15lbs inside the Autoclave, the temperature is said to be 121 degree C exposure of materials/article to this temperature for 15 minutes sterilize them. To destroy infectious agents higher temperature or longer times are used; 135 degree C or 121 degree C for at least one hour.

Different types of Autoclave; A simple autoclave has vertical or horizontal cylindrical body with a heating element, a perforated tray to keep the material/article, a lid that can be fastened by screw clamps, a pressure gauge, a safety valve and discharge tap.

  • Simple laboratory Autoclave; pressure cooker type
  • Steam jacketed downward displacement laboratory Autoclave
  • High pressure pre-vacuum Autoclave

Heat can be used either alone or mixed with steam. In the Autoclave Chamber, terminal sterilization is based on highly efficient heat transfer from the saturated steam to autoclave load. Heat transfer occurs by the release of the latent heat from saturated steam under pressure as it condenses. Heat transfer from saturated steam to the chamber environment is much more effective and timely for the coagulation and denaturation of nucleic acid and proteins than from dry heat or superheated heat. Moist heat in the form of saturated stem under pressure is therefore the most reliable sterilizing agent and is the method of choice whenever it can be used, especially for aqueous preparations.

The physical parameters governing the efficiency of the sterilization process are exposure time, temperature and pressure. Generally a moist heat sterilization cycle is comprises of heating, sterilizing and cooling phases.

Autoclaves are useful in some industrial application where parts and materials need to be thoroughly sterilized during the production process; this is relatively common in industries working with high performance composite materials, particularly in the aerospace sector.

Autoclaves are also used in

  • Veterinary medicine
  • Dentistry
  • Research and development for Pharmaceutical
  • Food production facilities

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Mixed Bed De-ionizer Water De-ionizer

June 4th, 2014

Mixed Bed De-ionizer (water de-ionizer) is based on the deionization technology.

Principle of operation

Deionizers remove both cationic and anionic impurities releasing H+ ions and OH- ions in exchange of cationic and anionic impurities respectively, these ions (H+ and OH-) subsequently combine to form pure water.

Figure showing ion exchange (Na+ ions are replace by H+ ions and Cl- ions are replaced by OH- ions, these ions combine later to form water)

today blog

Deionizer for replacing cationic impurities with H+ ions Deionizer for replacing anionic impurities with OH- ions

Mixed Bed De-ionizer contains both the cation and anion resins in a single vessel. This produces water which is required for high pressure boiler feed water application, semi conductor and microelectronic industry application. The purpose of mixing the resins is to achieve a very high quality deionized water. When the resins are mixed, as the water passes through the resin bed it encounters a cation resin bead, then an anion resin bead, then cation, anion, cation, anion and so forth. The water is deionized then re-deionized continually resulting in an ultra high purity product.

As Mixed Bed De-ionizers produce water of high ionic quality but one major disadvantage of the Mixed Bed De-ionizers is that they do not remove bacteria/ endotoxin. Therefore it is recommended to follow the De-ionization purification with equipment that removes bacteria/endotoxin such as ultra purification, steam distillation and ultraviolet radiation. Other disadvantage of Mixed Bed De-ionizer is that as it utilizes both cationic and anionic resins and these typically will not reach exhaustion simultaneously. Consequently effluent water may become either extremely acidic or extremely alkaline, depending on which resins reach in exhaustion first.

Mixed Bed De-ionizer is useful in many following applications
• High pressure boiler feed water application,
• Semi conductor
• Microelectronic industry application
• Pharmaceutical plants
• Food and dairy processing plants
• Humidification system
• Steam generators

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