All posts by producing

Transformer oil degassing as a part of comprehensive purification system

Tierra Fuller, , , ,

While operating expensive power equipment, such as compressors, turbines, hydraulic presses, heat exchangers and power transformers, unforeseen malfunctions will happen. In rare cases failures are caused by overvoltage of the grid or human mistake, since operation of power equipment is a safety issue. Equipment downtime, failures and malfunctions are most often caused by the problems of internal components or insulation. Oil of various kinds are used for servicing of different industrial machinery. As a result of contamination by solid particles or moisture and air, as well as high temperatures, equipment may fail which may stop the whole manufacturing process.

Comprehensive oil purification systems are becoming more used recently; if before industrial oil service life could be extended by separate degassing, drying and filtration systems, with totally spent oil being disposed of, now operation of comprehensive oil purification and regeneration systems becomes preferable.

Removing gas, water emulsions, and harmful oxidation products form the oil extends the service life of the expensive insulation material and ensures the power equipment is adequately protected.

Comparison of purification and regeneration plants made by different companies yields significant differences.

Most of the modern manufacturers emphasize removal of water in all forms and solid particles from turbine, compressor, hydraulic and industrial water. Removal of air, gas and volatile hydrocarbons is a secondary function.

Despite the normal production levels of such systems and their seeming versatility, there are other options with more worth.

The whole range of GlobeCore degassing, purification and regeneration of oil by GlobeCore is focused on all processes at the same time, in one pass and with reactivation of purifying media.

One full regeneration cycle of oil coming directly from power equipment allows to remove gas, water and particulate matter form the oil; it is also possible to use adsorption media to regenerate the oil entirely. GlobeCore’s sorbents offer additional savings due to the reactivation capability.

A complete GlobeCore plant for degassing, filtration and regeneration of oil and other liquids is an optimal choice of service equipment for control of production process and ruling out any unpleasant surprises.

Using of the turbine oil: benefits and testing

Tierra Fuller, , , , ,

Oil used in various industries are divided into various types and subtypes. Physical properties and chemical composition divide oil into classes and categories. Various industries require specific oil types.

There is a group of oils for the energy industry, which includes turbine, dielectric (transformer) and compressor oils. Specific requirements are applied to each of the categories.

Also, depending on oil type, moisture and gas content are regulated, as well as some other specifications.

Since oils inevitably age with time under the influence of water and solid particle contamination, the natural process of oil consumption becomes a problem related to the costs of repairs and downtime, with the obvious adverse effect on company revenues.

In the case of turbine oil, sediment on the surface of internal parts may lead to serious problems, including wear of regulation devices, command valves etc. In turn, moisture promotes corrosion, dilutes anti-oxidation additives and increases foaming, which also degrades lubrication.

Therefore, power generation facilities implement systems for turbine oil quality control both during operation and storage. Neglecting the regulations may cause serious problems for turbines, including failures and extended downtime due to complete or partial breakdown of equipment.

Contamination of turbine oils leads to degradation of their original properties and reduces efficiency of oil filled equipment. In the most severe cases this will cause serious malfunctions, requiring long costly repairs.

Coming back to the issues of equipment downtime due to failures and repairs, let us refer to the statistics. Research shows that in similar situations in power plants (thermal and nuclear), turbine adjustment system failure rate has grown in recent decades, including failures of internal rotating part bearings. All of the cases were related to contamination of turbine oil.

The causes named above, after a look at power plant failure statistics, require efficient solutions.

The simplest and the most obvious solution is oil quality control and oil replacement. In practice this is, however, complicated, spawning several problems. First, complete removal of oil, sediment and other contaminants is impossible. Second, the disposal of used oil is a problem in itself. Constant disposal costs may eventually exceed estimated repairs cost.

The optimal solution, all things considered, is purification and regeneration of used turbine oil. Various types of mobile plants connected directly to the turbine assembly from which contaminated oil is drawn, removal gas and water, filter out solid particles and generally fully restore the oil to its original specifications.

For instance, the CMM mobile oil plants degas, remove contaminants and sediment from turbine oil. Among the advantages of these units is their capability to process the oil in one pass, significantly extending oil service life.

Depending on the needs of the facility, CMM plants may be either mobile or stationary. For larger facilities, CMM plants come with extra features, from additional filters to additional regeneration sections.

The main issues for any business are the possible profit and loss. The cost of regenerating 1 ton (depending on the type of purified, regenerated and lightened product) varies between US$6.5 to US$35. At the same time, disposal of industrial waste is a costly affair. Oil purification plants pay for themselves in a rather short time of 5 – 6 months at current prices.

Reincarnation of the hydraulic oil lifecycle

Tierra Fuller, , ,

The lifecycle of hydraulic oil depends on several parameters which can extend or shorten the cycle. Some of these are viscosity, acidity and the amount of additives. Contaminating particles, free water, unfavorable operating conditions (temperature, loads and other conditions) all contribute to aging of oil.

Oxidation is further accelerated at temperatures exceeding 60C or in contact with some other materials. Presence of solid particles, especially larger than 2 micron, promote oxidation.

Contaminants are present in all hydraulic equipment. When the units are operated, friction causes additional solid particles and dust to enter the oil.

Therefore, to maintain high quality of oil and is operational parametes, it is important to protect its chemical composition, avoid overheating and protect the oil from water, minimize the amount of solid particles in the oil.

Oil filtration schedule is important to any industrial business. Filter efficiency depends on pore size. Large solid particles are retained by the filter as the oil passes through it, the smaller ones pass through the filter. Most modern filters successfully remove 1 – 5 micron particles.

Relative amount of solids increases as the size of the particles decreases. This means the oil will still be contaminated after filtration. The amount of contaminating particles will increase during operation and oxidation will be accelerated further.

Using the experience of many companies, it can be inferred that the dominating reason for malfunctions of hydraulic systems is related to contamination of the oil by solid particulate matter. Therefore it is extremely important to remove such contaminants.

As mentioned above, filtration alone is not enough. Microscopic particles pass through fine filters. Besides, water and air need other removal methods.

This is specifically what the UVR systems were designed for. Mobile or stationary design, direct connection to hydraulic systems for oil processing are just some of the features of this regeneration system.

Several filters, special pumps, heating and absorption allow removal of the smallest particles, as well as water and air from hydraulic oil. The sorbent media is can be reactivated shortly after running purification cycle is complete.

Oil purity regulations, savings on new resources and storage, unification of purification and filtration equipment are just some of the benefits of using the UVR type hydraulic oil purification system.

Reclamation of oil

Tierra Fuller, , , , ,

Oil reclamation today is a very interesting and important subject. Oils can be reclaimed in a number of ways by different equipment and to varying extent.

Oil reclamation equipment developed and built by GlobeCore varies widely in terms of applications and reclamation degree:

  • oil regeneration
  • heat and vacuum purification of oil,
  • purification of oil by adsorbents
  • drying of transformer windings,
  • dehydration of oil,
  • degassing of oil,
  • reactivation and preparation of sorbents, including full regeneration of MINERAL oils with color lightening.

The following is a brief list of GlobeCore’s equipment for oil reclamation and other applications.

  • Themovacuum oil purification units, mobile oil plants: СММ-0.6; СММ-0.7(Р); СММ-0.6; СММ-1.0; СММ-1.7; СММ-2.2; СММ-4.0; СММ-4.3 and some other models;
  • Comprehensive oil restoration units, including heating, nitrogenation, drying and filtration of insulation oils: UVM-3, UVM-4, UVM-5, UVM-5М, UVM-6,  UVM 10-10, UVM 10-10В, UVM 10-10l, UVM 10-10М, UVM-12Б, UVM-12Б1, UVM-12Б2, UVM-12Б3, UVM-14Б У1, UVM-14Б1, UVM-14Б2, UVM-10-3, UVM-10-3Е, UDV-2М, PDV-Е and other range.
  • units for purification, drying and removal of solids from transformer and turbine oils – MCU-2-U1, MCU-4-U1, MCU-4С-U1,  MCU-4А,  MCU-4СА,  MCU-4C, MCU-4CF, MCU-4CS,  MCU-4CSA, MCU-А, MCU-С, MCU 4Р-N, MCU 4Р-NС, MCU 4Р-NA, MCU 4Р-NСА,  BC-N, MCU-7, FSM-2, FSMB-110М etc;
  • Sorbent regeneration systems– BR, PS-1, PS-1А,  PS-1Е, BRPS, MCU-4Р-BR, zeolite drying cabinet
  • Systems and vacuum sections for drying of solid insulation of power transformers – “Iney-4″, ” Iney-4М”, ” Iney-5″, ” Iney 5М”, ” Iney-6″, ” Iney-4.1″, ” Iney-4.1М”, ” Iney-4.2″, ” Iney-4.2М”, vacuum units BV-1 and BPR;
  • Units for drying of air to dew point below -50°С – “Sukhovey”, ” Sukhovey-4″, ” Sukhovey-5″, ” Sukhovey-4Е” with two independent heaters
  • transformer and transformer oil heating units: NTML, NTML-160М, NTML-80М, NTML-120М, NTML-200М, NTML-240М, NTML-150Е, for parameters of processed oil: solid content no more than 5 (10) ppm, filtration from 5 to 20 micron
  • oil filtration systems – FUM-P, FUM-А, customized drying and solid removal systems for mineral oils up to 50 m3/hour capacity, purity class from 7 toо 11, filtration ratios from 20 to 2000, filtration fineness 1, 3, 5, 10, 20 and 40 micron;

The full range of GlobeCore products is presented in the attached file, and can also be seen in the company’s website at www.globecore.com

The company has a global dealership network, and the products are supplied to more than 80 countries. Certified explosion protection option is available. Production certified as per ISO 9001 – 2000.

What is better “drought” or “rainy season” – the percentage of moisture in dry transformer oil

Tierra Fuller, , ,

Transformer oil aging results in degradation of its properties. The aging process is accelerated by influence of water, air or contaminants. Moisture and air cause the oil to oxidize, which lowers it’s dielectric strength, causes sludge deposits on transformer internal insulation and damages the insulation by the acidic products of oil decay.

Water may be present in transformer oil in various states: solved, emulsified or free. Even new oil contains solved water. Free water mostly accumulates in the lower parts of oil lines and in heat exchange devices. Water is solved in oil under the influence of high temperature. During operation water content in the oil increases, and may be extremely harmful for a transformer.

GlobeCore’s equipment allows removal of contaminants, including water, directly on energized transformers in compliance with the highest international standards.

Complete transformer oil filtration and regeneration systems are designed for full range of services to purify waste oil. The units are equipped with adsorbents for restoration of oil performance and improving its color.

According to international research, various sorbents may be used for drying of oil, as well as for retention of oil aging products. Some of the sorbent may be reactivated, which makes GlobeCore plants not only highly advanced by also very sensible in terms of return on investment.

The UVM type mobile oil plants are designed for the following operations:

  • Dehydration of oil for moisture content of no more than 10 ppm.
  • Degassing of oil to no more than 0.1% of gas content by volume.
  • Increase of dielectric strength to at least 70kV.
  • Drying of electric equipment with simultaneous oil purification.
  • Initial filling of dielectric oil into electric systems;
  • Nitrogenation of oil;
  • Vacuum evacuation of transformer and other electric systems.

GlobeCore’s plants significantly increase oil processing stability and consistency and improve oil performance.

Tests and Trials: Sport, Art or Industry? Analysis of Transformer Oil Purification

Tierra Fuller, , , , , , ,

The correct use of oil guarantees the reliability of industrial equipment and the prevention of equipment failures.  Transformer oil is a dielectric insulator and a coolant.  It also serves as an arc extinguisher preventing shorts and internal fires.

Transformer oil parameters degrade over time as the oil ages.  Oil oxidation is mostly caused by external elements such as water, air, acids and heat.  Aging of oil is best indicated by its acidity level, water content, and sediment and sludge formation.

Sludge accumulates in the solid insulation, the core, in cooling channels and other places inside the transformer.  Sludge is a dangerous enemy that degrades the oil’s cooling and heat transfer capabilities and damages the solid insulation causing it to disintegrate.  A short-circuit in the transformer windings becomes a much higher possibility due to oil degradation and sludge build up.

The acid level of the oil, as measured by the “Acid Number is the main indication of oil degradation and oil aging.  Acidity is measured by special litmus paper that changes color when subjected to contaminants.  Acids can damage cellulose insulation and metal parts of the transformer.  Acid levels can also measured through an oil analysis program.

The Acid number, as the main indication of transformer oil quality, is the amount of grams of KOH required to neutralize all free acids in one gram of oil.  The Acid number indicates how much the oil has aged and whether it should be regenerated using the GlobeCore Process.  Once the Acid number reaches 0.08 and higher, the transformer oil becomes aggressive and begins to destroy the solid insulation of the transformer.  The Acid number therefore, is the best indicator of when to service your transformer before irreversible damage is done to the insulating paper.

Besides chemical parameters, transformer oil must comply with certain physical and electric parameters.  Degradation of these important oil qualities may indicate problems inside your power equipment.

For instance, the oil’s flashpoint must be high enough to ensure fire safety in overload conditions and high temperature increases inside the transformer.

Dielectric strength of transformer oil is important for the prevention of breakthroughs in the transformer insulation.  This parameter is measured regularly by high voltage breakthrough indicators.  Transformer oil is tested six times with 10 minute intervals between each test.  The average of six tests is used to determine the dielectric strength.  If the results are unsatisfactory, another sample is tested and a decision on the course of action is made.

Fresh or used transformer oil must be tested before being placed into the transformer.  Some parameters tested are particulate matter content, general oxidation stability, transparency, dissipation factor, flash and setting points, viscosity, acidity and water content.

These measures are designed to identify and resolve problems before the they can cause a transformer failure shutting down the transformer.

Transformer oil is purified of contaminants, acids and gases in purification and regeneration equipment specifically designed for transformer maintenance.  Complete preventive maintenance systems, such as the GlobeCore CMM-R line of equipment will reduce costs and downtime while increasing operating profits.

Why do we use dry and clean transformer oil? Importance of transformer oil purification.

Tierra Fuller, , ,

Reliable operation of transformers is dependent on the condition of internal insulation. Transformers are insulated by liquid (oil) and solid (cellulose) insulation. Dielectric oil accounts for about 80% of the system’s dielectric strength. It is a very good dielectric, and it permeates cellulose insulation further increasing the dielectric strength of winding insulation material. Viscosity characterizes the oil’s cooling ability.

The oil must be protected from oxidation, avoiding overheating and contact with contaminants, since most of transformer failures are due to insulation failures.

Cellulose materials are the weak link of transformer insulation. Contamination of internal insulation by things like water, dissolved gas and solid particles cause degradation of insulation materials. Cellulose insulation quickly accumulates contaminants.

One of the main factors of transformer oil and solid insulation degradation is water. It inevitably enters insulation systems. The result of its influence (along with other contaminants) is aging of oil and formation of various degradation products, sludge, acids etc.

oil

When oil absorbs air and moisture, the aging process occurs even under light loads. Water in transformer oil consists of free water, water solved in oil degradation products and chemically bound water. It is impossible to extract all water from solid insulation.

Transformer oil can accept more water at elevated temperatures. When oil is again cooled, this water precipitates form the oil and enters solid insulation. Cellulose insulation absorbs water form the oil and retains it. Acids resulting from oil aging have a negative effect on cellulose and metals and form soapy metal, aldehyde, alcohol etc which form acidic sediment on solid insulation, internal surfaces of the transformer, breathing system, cooling system etc.

While water and heat are damaging to solid insulation, correct maintenance of cooling and insulation system can extend their lifetime to 60 years. Equipment formerly used for transformer oil drying only is quite obsolete. At present oil can be restored entirely. The parameters of regenerated (reclaimed) oil are extremely close to those of new oil. Service life of well maintained transformer oil is virtually unlimited.

The modern comprehensive transformer oil purification plants include degassing, drying and lightening, as well as filtration and regeneration. The resulting regenerated product is as good as new. Therefore, new oil purchase costs are reduced. The cost of purchased and regenerated oil is recovered.

The cost of regeneration of used transformer oil is always considered in relation to the high cost of purchasing new resource and possible downtime costs. It is quite obvious that owners of complete transformer oil regeneration plants are always in advantage.

 

Technologies, Inc. Announces The Confirmation By DNV “Det Norske Veritas” GL Of Testing Results For The DSOX-15 Pre-Combustion Fuel Purification Technology.

Tierra Fuller

Fort Lauderdale, Florida, Mar 13, 2014 (GLOBE NEWSWIRE via COMTEX) — Technologies Inc., (otcqb:SHPR) announces that DNV “Det Norske Veritas” GL has completed its report on the DSOX-15 Pre-Combustion Fuel Purification Technology. The testing was conducted at the Technologies facility in Fort Lauderdale and observed by DNV GL. The testing confirmed by DNV GL resulted in IFO380 marine fuel oil with a sulfur level of 2.70% being reduced to 0.27% with the DSOX-15 Fuel Purification Technology. Jans Hagen Andersen Principal Engineer at DNV GL Maritime Advisory stated ” The test results we observed in the test facility are a significant indication of the capabilities of the DSOX-15 Fuel Purification Technology to reduce high sulfur marine fuels below the current target of 0.50%.”

Rasmus Norling, CTO commented “The industry reputation of DNV GL and the value of their report confirming our test results will add the additional confidence of a third party verification of our technology’s capabilities, this will be especially helpful when potential customers are evaluating the DSOX-15 Fuel Purification System.” The Company is intending to schedule additional tests for the DSOX-15 Fuel Purification System technology over the coming months as new modifications and performance enhancements are incorporated into the system.

DNV GL in the Maritime industry

DNV GL is the world’s leading classification society and a recognized advisor for the maritime industry. We enhance safety, quality, energy efficiency and environmental performance of the global shipping industry – across all vessel types and offshore structures. We invest heavily in research and development to find solutions, together with the industry, that address strategic, operational or regulatory challenges.

About GlobeCore PC.:

Globecore develops and markets environmental, pollution emissions, energy saving, corrosion and durability solutions to a worldwide market. GlobeCore’s proprietary UVR Fuel Purification System is a cost-effective technology designed to remove sulfur from fuel in an effort to meet the upcoming sulfur emissions regulations due to take effect in 2015. The technology is currently aimed at the maritime industry which includes vessels for cruise-line, freight shipping and tanker companies and can be installed during normal vessel operation without the need to use expensive dry dock time. The technology has a worldwide application that is not limited to the maritime industry.

The Fluoropolymer coatings are formulated specifically for extreme durability reduced maintenance and enhanced aesthetics and in use in a number of different industries applications.

On behalf of the Board of Directors, Rasmus Norling, Chairman / CTO

Forward Looking Statements

This press release contains forward-looking statements. Forward-looking statements are subject to risks, uncertainties and assumptions and are identified by words such as “expects”, “intends”, “estimates”, “projects”, “anticipates”, “believes”, “could”, and other similar words. All statements addressing product performance, events, or developments that Technologies Inc. expects or anticipates will occur in the future are forward-looking statements. Because the statements are forward-looking, they should be evaluated in light of important risk factors and uncertainties, some of which are described in Technologies Inc.’s Quarterly and Annual Reports filed with the United States Securities and Exchange Commission (the “SEC”). Should one or more of these risks or uncertainties materialize, or should any of  Technologies Inc.’s underlying assumptions prove incorrect, actual results may vary materially from those currently anticipated. In addition, undue reliance should not be placed on  Technologies Inc.’s forward-looking statements. Except as required by law, Technologies Inc. disclaims any obligation to update or publicly announce any revisions to any of the forward-looking statements contained in this press release. There can be no assurance that such statements will prove to be accurate and actual results and future events could differ materially from those anticipated in such statements. No stock exchange, securities commission or other regulatory body has reviewed nor accepts responsibility for the adequacy or accuracy of this release. Investors are advised to carefully review the reports and documents that Technologies Inc. files from time to time with the SEC, including its Annual, Quarterly and Current Reports.

SOURCE Technologies Inc.

A Patent from the Past – Automatic Reactivation of the Fuller’s Earth Filtration System

Tierra Fuller

Thousands of new technologies are developed in various fields every year.

In 2011 alone, China’s State Department of Intellectual Property received 526.4 thousand new patent applications.  There were 503.6 thousand patent applications in the United States, 342.6 thousand patent applications in Japan, 178.9 thousand patent applications in South Korea and 142.8 thousand patent applications in the European Union.

In the 19th and the 20th centuries, many inventions were revolutionary and ushered in a new stage of economic or industrial developments.  In the post-industrial information age, a new technology in the form of a patent can be an important new product.  Inventions have not become less important, but are looked at as investments rather than just science.

In some industries, demand for some products may outrun supply.  As for patents, the opposite is actually true.

Not so long ago, the oil industry was centered around the development of oil wells and the sale of “black gold.”  Now those precious materials from under the ground can bring in as much as two or three times the profit when converted into automobile fuel, industrial fuel and materials for various other industries.

Petrochemical production has become more and more viable and the use of oil deposits is now looked at as an investment.  If fact, investment into an oil company stock appears to be a more sensible investment than betting on an oil well.

According to the latest trend, environmental regulations and standards are becoming more and more important.  They also have become another means of making money for companies serving the needs of companies that must protect the environment and wildlife when searching for and developing natural resources such as oil and gas.

Various oil equipment, that can reduce costs, repairs and fines, is just as important for industrial companies as good software protection is for a cyberspace company.

One of the petrochemical products widely used in many industries, especially in the energy sector, is industrial oil.  Due to its dielectric, lubricating, and cooling properties, industrial oil is indispensable for smooth and efficient operation of electric power transformers, turbines and high voltage electrical equipment.

The market for oil technologies used in the production, blending, purification and regeneration of industrial oils has an abundance of systems and different products.  Not only are they of adequate quality to meet the demand, but are really a sensible investment to reduce operating costs and increase profits.

Complete oil regeneration systems are especially in demand.  Oxidation and aging of oil during operation becomes a factor for transformer reliability and in decreasing expected service life.  This obviously leads to reduced efficiency, untimely repairs, increased control and maintenance costs, as well as increased costs of repairing and replacing equipment.  Timely detection of oil problems can help prevent transformer failures and other system malfunctions and failures.

Modern Regeneration Equipment supplied by GlobeCore for oil regeneration, involves supplying the oil directly from the transformer to the regeneration unit.  The transformer only has to be de-energized to connect the system.  Oil is pumped to various sections of the system for complete oil regeneration.   After a full cycle of oil restoration and removal of moisture, air and solid particles, the purified and lightened oil goes back to the transformer in original like new condition.

Key factors to consider when selecting oil-filled transformer maintenance equipment are economy, savings on new oil purchases, reduced corrective maintenance requirements and elimination of environmental risks and hazards.

The GlobeCore CMM-R line of oil regeneration equipment offers the best way to achieve the above considerations because it utilizes an automatic sorbent reactivation process.  GlobeCore units feature the very popular and effective Fuller’s Earth filter system with automatic sorbent reactivation.  This technological breakthrough reuses the sorbent material over and over reducing labor costs and eliminates sorbent disposal and replacement costs.  The GlobeCore CMM-R systems all use the Fuller’s Earth sorbent material which is already quite popular in various industries around that world.

The advantage of the GlobeCore systems operating with this material is continuous oil circulation allowing for uninterrupted purification without the need to change and out the sorbent material.  The regeneration process is divided into several sub-processes.  This allows the sub-processes to be run at the same time, i.e. the process can be continuous.  When the sorbent material becomes saturated with contaminates, the system will switch automatically into sorbent reactivation mode.  The GlobeCore units also have the ability to split the Fuller’s Earth columns so that half can continue to regenerate oil while the other half goes through the sorbent reactivation process.  This permits the CMM-R units to process oil automatically in a continuous and uninterrupted automatic mode of operation.

Some companies that have been in the petrochemical equipment business, such as the well known GlobeCore company, have offered the industry added value for the patented units discussed above.  E.g. mobility of Fuller’s Earth transformer oil regeneration systems, customization of equipment and PLC control software, have all increased processing capacity and quality of the finished products.

The Fuller’s Earth sorbent material is widely used in the petrochemical industry world wide.  According to research conducted by American scientists, Fuller’s Earth is successfully used in the construction and pharmaceutical industry with its main purpose being the processing of oil and oil derivatives.

Near the end of the 19th century, Fuller’s Earth sorbent materials came into wide use in the United States for the purification of vegetable oils.  Today, modern oil regeneration systems are based on the Fuller’s Earth filter system which can automatically reactivate the sorbent material and has become the leading industry standard for oil processing.

Steps on the Pyramid of Success. Fuller’s Earth filter systems

Tierra Fuller

The Maslow pyramid for the fundamental human needs has five levels. Beginning with basic physical needs in food, water and clothes and ascending to self-esteem and development, these levels cover the needs of every resident of our planet. The difference is how sensitive we are to these levels. It is enough for some to wake up, go to work, get a stable average pay and think not of aspiring further. For others, development and perfection of one’s abilities, which guarantee no only higher profit but also such elusive concept as success.

However, if a human being is a defining element of our society, some of the characteristics can be transferred to businesses as the defining elements of the economic society.

Based on the Maslow pyramid example, which shows human needs, it is possible to derive the same for a business.

The basic level is minimum profitability to break even. Then comes the desire to increase this profitability to survive in the competitive environment. Form there, it’s up to image making, connections and, as the result, the drive to create a world known trademark.

Reduction of resource costs and technology improvement is for the businesses which do not intend to be stuck on the first step of the pyramid.

When the question of “How to sell more?” becomes “How to increase profit and increase market share?”, the business starts moving up.

The subject of this article is reduction of resource costs. Industrial production facilities, large and small, sooner or later run into problems of equipment wear and failures. The costs of purchasing, servicing and repairing the equipment occupies a significant share of the business’s budget. The new flashy technologies supposed to solve part of the problem, are not always considered a prudent investment. Why throw away something not broken. In some African countries they operate the plants and transportation left over from the colonial times until the equipment is utterly worn and broken.

Let’s consider a different scenario

For example, recently oil has been in the spotlight of technology development. There are systems which not only produce more profitable types of fuel for servicing of industrial machinery, but also reduce the environmental costs and costs of disposal of waste oil by purifying, filtering and regenerating it.

The manufacturer becomes the owner of his own formulation, for instance, of biofuel. With this, the company saves on fuel, becomes environmentally aware, assumes a more prestigious spot in the market and ascends along the pyramid towards the top.

Another significant example is regeneration and purification of used oil. For a quite reasonable price, the business gets a customized machine which pays for itself due to the economy on oil supply and waste disposal.

Expert research shows that transformer lifetime can be as long as 50 – 70 years. A rather small percentage of the equipment lives long enough for an overhaul. However, it is also known that all of the researched transformer develop problems that need solving in 10 – 15 years to extend their life time.

Let’s look at this example in more detail

Let’s say an industrial company N has several TM type transformer, each up to 2500 kVA. It is an average company with average annual profit and moderate needs. Equipment maintenance and repair is allocated a standard budget. Oil is used as dielectric liquid, the oil’s service life is 3 – 5 years. During this time the oil accumulated contaminants, solid particles, oxygen and moisture. Naturally, oil is disposed of in the end of its service, which implies transformer down time.

It is also possible to change the oil entirely. The remaining sediment promotes fast oxidation of oil and can also damage the cellulose insulation of the transformer.

The mobile oil processing systems, which exist in the market today, are connected to energized transformer . After complete purification cycle the oil is rid of gas, moisture and contaminants. The latter are completely removed by special filtration adsorbent columns.

Besides, some models of purification systems employ sorbents which can be regenerated. E.g. the Fuller’s earth sorbent which came into use in the 20th century, is an advanced sorbent. The economy is doubled: beside regeneration of oil by adsorbent, the system also degasses and dries the oil, and while the oil passes through the degasser, the adsorbent is reactivated.

The transformer can be energized during oil processing, eliminating down time.

Bottom line.

The advantages illustrated by this example:

  1. Using mobile units for maintenance of all present equipment.
  2. Saving on waste disposal and resource purchases.
  3. Saving on sorbent, since Fuller’s earth is reactivated.
  4. Saving on engine maintenance.
  5. Uninterrupted supply of purified oil restored to its original specifications.
  6. Increased transformer efficiency.

As a result, the company N has stable profit, reduction of expenses and a better positive strategic vision. By implementing modern technologies, the company opens the door to new opportunities, and, of course, new needs. By caring for the environment a business enters new partnerships, saves financially and expands production.

By definition, the need arises when there an inconsistency between the desirable and the existing. It doesn’t matter where a company’s advancement begins: from biodiesel fuel production, operation of oil regeneration systems or implementation of Japanese robots for personnel. The most important thing is to keep true to the pyramid and ever aspire to develop towards the highest goals.