Friday, June 22, 2007

Career With Us

KERJA KOSONG/ AVAILABLE JOBS
Job Offering At:

ULTRA ENERGY RESOURCES SDN BHD
- Marketing Executive (tugas memberi perkhidmatan kepada agen kawasan utara
-elaun tetap dankomisen Rm3500 keatas)
- Technician (berpengalaman dalam bidang elektrik
dan mempunyai sijil dalam pendawaian eletrik)
- Warehouse Supervisor (mengurus delivery dan store)
- Administration (mengurus business)
- Clerk (mengurus office )

"SALARY CAN BE NEGOTIATE"

Inquiries Please Contact Us or Mail To Us ;
Contact Number : TeL : (6) 04-4903357 Fax : (6) 04-4914341
E-mail : uersb@yahoo.com

KERJA YANG DIKEHENDAKI/WANTED JOBS

Contact Us- ULTRA ENERGY RESOURCES SDN BHD

ULTRA ENERGY RESOURCES (M) SDN BHD
NO. 9, Jln Cengal 1/A, Taman Cengal Indah 3,
09000 Kulim, Kedah Darul Aman, Malaysia

TeL : (6) 04-4903357
Fax : (6) 04-4914341
E-mail : electricalbillsaver@yahoo.com & uersb@yahoo.com

Contact Us- Agrofertilizer

AGROFERTILIZER INDUSTRY (M) SDN BHD NO. 9, Jln Cengal 1/A, Taman Cengal Indah 3, 09000 Kulim, Kedah Darul Aman, Malaysia
TeL : (6) 04-4903357 Fax : (6) 04-4914341 E-mail : electricalbillsaver@yahoo.com & uersb@yahoo.com

Thursday, June 21, 2007

Humic Acid

Humic Acid comes entirely from vegetation which was laid down in the Carboniferous Period . Millions of years ago, earth's mineral-rich soils produced a profusion of lush green forests, succulent fruits and vegetables.
As this lush growth of vegetation died, it accumulated and later, was buried by rock and mudflows and deposits of sand and silt. The weight of these deposits compacted and compressed out all of the moisture.
Over the ages, the vegetation underwent compaction and heating. It slowly carbonized and became coal.
This compaction squeezed out the organic acids and esters present in the vegetation and formed a pool on top of the lignite coal bed. This pool dried and aged and eventually formed Leonardite shale. What remains today is a deposit of dried, prehistoric plant derivatives.
During this process simple products of decomposition: amino acids, carbohydrates and phenols, turn into very complex products - Humic Acids.
Because of its vegetative origin, this material is very rich and beneficial to plants today.
In natural conditions humic acids are not soluble. It is a reaction of nature, otherwise soils could be deprived of humus and washed out to sea.
Humates are the salts of humic acids, which form complexes with phosphorus and micro elements which are easy assimilated by plants, and sharply increase efficiency of mineral fertilizers.
Humate materials are widely distributed organic carbon containing compounds, found in soils, fresh water, and oceans, and make up approximately 75 percent of the organic matter that exists in most mineral soils. Humates play a direct role in determining the production potential of a soil.
Quality: Not all the products on the market under the name Humates are of a high quality.
There are several different chemical structures of Humic Acid. The more concentrated forms are the best and in the long run, and can be the cheapest.
The first, is fossilized brown oxidized lignite or Leonardite. This product has 30- 40% humic acid content, 30-40% of mineral part -ash, and the balance is presented by unknown ballast substances. Recommended application norms of these products are very high, because humic acids in them are insoluble and are not in an active form. Mineral content of these products have metals which bind to humic acids. Long time usage of these products pollutes the soil.
The second group is produced in the common method of treatment of lignites with concentrated alkalines. The content of Humic acids of these products is within the level of 20-30%. Humates here are in active form, but they still have a high content of ballast and ash, which causes above mentioned problems.
The third group of Humates is produced in the way of treatment of brown lignite or Leonardite with alkaline solutions. These Humates are high quality products, because they are free from ballast, but they are very expensive and difficult to transport and handle. Moreover the production process leaves a lot of waste.
The fourth group are Humates produced from a high quality tested lignites, with 70% humic acid content, 12% mineral ash part and 18% organic ballast. These soluble products are in powder form with 75-85% of Humic acids.
Only two products meet those requirements; these come from East Siberia, Russia and N.W. New Mexico; these are freshwater deposits and have the highest percentage of low molecular weight humic acids, generally referred to as Fulvic acids.
Fulvic acid is the acid radical found in humic matter which is soluble in alkali, acid, methyl ethyl ketone, and methyl alcohol. Fulvates are the salts of fulvic acid.
Both fulvic and humic acids found in soil, result from the chemical and biological degradation of dead organisms. Fulvic acids provide multiple and natural chemical reactions in the soil, instigating positive influences on the plants' metabolic processes.
Fulvic acid is especially active in dissolving minerals and metals when in solution with water. The metallic minerals simply dissolve into ionic form, and disappear into the fulvic structure becoming bio-chemically reactive and mobile. The Fulvic acid actually transforms these minerals and metal into elaborate fulvic acid molecular complexes that have vastly different characteristics from their previous metallic mineral form. Fulvic acid is nature's way of "chelating" metallic minerals, turning them into readily absorbable bio-available forms.
Fulvic acid readily complexes with minerals and metals making them available to plant roots and easily absorbable through cell walls. It makes the actual movement of metal ions that are normally difficult to mobilize or transport. such as iron, easily transportable through plant structures.
It allows minerals to inter-act with one another, breaking them down into the simplest ionic forms, chelated by the fulvic acid electrolyte. Fulvic acid is a natural organic electrolyte.
An electrolyte is a substance that is soluble in water or other appropriate medium that is capable of conducting electrical current. Fulvic acid has proven to be a powerful organic electrolyte.
Fulvic acids also dissolve and transpose vitamins, coenzymes, auxins, hormones and natural antibiotics that are generally found throughout the soil, making them available. These substances are effective in stimulating even more vigorous and healthy growth proceeding certain bacteria, fungi, and actinomyceles in decomposing vegetation in the soil.
It has been determined that all known vitamins can be present in healthy soil .
Plants manufacture many of their own vitamins with those from the soil further supplementing the plant. Upon ingestion these nutrients are easily absorbed by animals and humans, due to the fact that they are in perfect natural plant form as nature intended.
The majority of research and experimentation on fulvic acid, has been done in relation to plants. Yet humans have been ingesting fulvic acid complexes regularly for over 60 years in supplemental form, and for thousands of years from natural food and plant sources.
Testimonials continue to show that the beneficial properties relating to plant and cell studies, hold true in relation to animal and humans as well.

About Soils

Soils are derived from weathered parent material. If the original material was low in a particular element or non existant, so too is the resulting soil.
Soils can become depleted of minerals and trace elements which too are absorbed into the likes of meat, milk, bone, wool, vegetables and fruits, as well as the major elements, and many soils are naturally deficient in one or more of these elements.
Within a space of just a kilometre or two, soils can be radically different, with.localised deficiencies of trace elements like copper, cobalt or selenium.
Because our supply of minerals comes through the food chain, from the plants and animals we eat, and because these same minerals are essential ingredients of these same plants and animals, any that are missing can have serious implications for plant, animal and ultimately our own health.
One has to conclude then, that this is where fertilization should start.
Even though the major element solid type NPK fertilizer is required in the largest amounts, if used exclusively, sooner or later a deficiency of a minor element can occur in soils low in that particular element, and it too should be replaced.
Foliar nutrients can quickly correct a nutrient imbalance, and are by far the most effective way to apply micro nutrients or trace elements and supplement the major elements , because foliar nutrients are readily available and more easily utilized by the plant than soil nutrients.

Fertilisation

We often see quotes by various agricultural sources in NZ, the amount of the likes of phosphorus, sulphur and calcium that are removed from the soil in meat, milk, bone and wool.
This, illustrates the importance of replacing these elements as they go out the farm gate, with the likes of superphosphate, which supplies phosphorus and sulphur.
Tissue studies of plants have found more than 60 different mineral elements, although it has generally been accepted that 16 -17 elements are essential for plant growth.
Many farmers in NZ are well aware of the consequences of low levels of copper or cobalt in pasture, and in some areas selenium, as well as magnesium (grass staggers), even iodine and zinc and in many cases calcium (as in milk fever).
There are many cases where several of the nutrients are missing or are at such low levels that supplementation of the animal is necessary, otherwise the animal would die or be severely undernourished.
Subclinical trace mineral deficiencies occur more frequently than recognized by many livestock producers and can be a bigger problem than acute mineral deficiencies, because the specific symptoms that are characteristic of a trace mineral deficiency are not seen.
Instead, the animal grows or reproduces at a reduced rate, uses feed less efficiently and operates with a depressed immune system. The end result is inefficient production and lower profitability.
When micro-nutrients become a limiting factor, water, fertiliser and other high-energy production inputs are wasted.
In most cases the elements needed by the plant are also needed by the animal which feeds on the plant.
Some elements needed by the animal are not required by the plant, but plants takes them up and makes them available to the animal, and therefore plays a significant role in animal health. Selenium, iodine and cobalt are examples.
Seven trace minerals, have been shown to be needed in supplementing animal diets. They are iron, copper, zinc, manganese, cobalt, iodine and selenium.

CHELATES

What is a chelate?

Chelates are organic molecules that can trap or encapsulate certain highly reactive trace metal cations which prevents them from entering into unwanted chemical reactions and forming insoluble compounds, which are unavailable.
Chelates incorporate metal ions into a soluble but bound form, to make them available to the plant because they are very soluble in water.
Chelation is bonding the metal ion to an organic molecule, making the metal ion highly soluble.
A chelated form of a mineral has different qualities from the mineral itself. One quality that can change is bioavailability; the ability to absorb and use the mineral.
Bioavailability can be increased or decreased depending on the mineral-chelate complex formed.
Some synthetic metal-chelate complexs form extremely strong bonds and bind minerals so tightly that they are unavailable for their physiological functions, and if used in foliar fertilizer has a great deal of trouble releasing the metal ion once in the plant.
Metal-chelate complexes used in foliar fertilizers need to form bonds strong enough to protect them from unwanted chemical reactions but once in the plant should release easily.
Natural chelating agents do not share the problems of the synthetics and are state-of-the-art technology for delivering selected mineral and trace elements with maximum bioavailability, tolerability and safety
If a yield-limiting deficit is suspected or established then the chelated mineral applied as a foliar will address that deficit more accurately and with greater speed than any other nutrient.
These elements are far more easily absorbed by plant roots and leaves in this chelated form because of changes in the electrical charge from the trace minerals as a result of their organic encapsulation.
The chelation process removes the positive charge from the metals, allowing the neutral or slightly negatively charged, chelated molecule to slide through the pores on the leaf and root surface more rapidly.
These pores are negatively charged, so there is a problem with fixation of positively charged minerals at the pore entrance.
There is no such restrictive barrier for the neutral, chelated mineral.

WHAT IS FERTILISER ? & Why do we need Fertilizer?

WHAT IS FERTILISER ?

Fertilisers are plant nutrients . Nutrients existing naturally in the soil, atmosphere, and in animal manure. However, naturally occurring nutrients are not always available in the forms that plants can use, or in the quantities needed. So we add to them by applying fertiliser, to make plants grow to their maximum potential.
Fertilisers can be classified into two categories: organic or inorganic.
Organic fertilisers are derived from living or once-living material, including animal wastes, crop residues, compost and numerous other by-products of living organisms.
Inorganic fertilisers are derived from non-living sources and include most of our man-made, commercial fertilisers. Man-made and natural fertilisers contain the same elements, but man-made fertilisers act more quickly .

Why do we need Fertilizer?

Often, the soil doesn't hold enough of these nutrients in the quantities needed for desirable growth and production.
An element is considered essential if in its absence plant growth and reproduction is significantly hindered.
The nutrients, that are in the soil, are often used up and need to be replaced. Therefore, we need to add extra plant nutrients to obtain maximum plant performance.

Plant hormones -Technique

Plant hormones, are specialised chemical substances produced by plants. Foliar fertilization is a particularly useful technique: and are the main internal factors controlling growth and development.
Hormones are produced in one part of a plant and transported to others, where they are effective in very small amounts.
Depending on the target tissue, a given hormone may have different effects.
Auxin, one of the most important plant hormones, is produced by growing stem tips and transported to other areas where it may either promote growth or inhibit it.
It also retards the abscission (dropping off) of flowers, fruits, and leaves.
Commercially, synthetic auxins are used to initiate adventitous roots from plant cuttings eg. in nurseries.
Weed control by another synthetic auxin, 2, 4-dichlorophenoxyacetic acid (2,4-D), is widespread as a selective herbicide against broadleaf weeds.

FOLIAR FERTILIZER IS A PARTICULARLY USEFULL TECHNIQUE

Certain soil conditions, such as pH, excess moisture, or cool temperatures, may render a nutrient or nutrients unavailable to the plant root.
Nutrient demand curves indicate that there are stages in a plant's life-cycle when demand for some nutrients may be greater than its physiological capacity to supply itself, even when these soil nutrients are available in abundant supply. This often occurs during the development of fruit or grain.
Data from trials on crops, show that increases in yield and/or grade results from applications of foliar nutrients during these periods of peak demand.
Foliar fertilizers can be designed to meet a plant’s specific needs for one or more micro and macro nutrients--especially trace minerals and enables you to correct deficiencies, strengthen weak or damaged crops, speed growth and grow better plants, which is of course, the bottom line.
Foliar applications can be targeted to a particular stage of crop development to achieve specific objectives and is an excellent way to "fine tune" a high fertility program.

What Is Foliar Fertiliser

Foliar fertilisation is any fertilising substance applied in a liquid form.
Foliars in their most basic form, often used by home gardeners use animal manures, or seaweed collected from the beach, suspended in water, until all the 'goodness' has been extracted.
This is time consuming where a lot of effort is required for a small amount of nutrient.
By contrast, modern foliar fertilizers are concentrated solutions using very high grade technical elements, in which the nitrogen, phosphorus and potassium are combined to the desired ratio in a controlled environment.
The fertilising elements in this method are true solutions, soluble, and thus very plant available.
This is in contrast to soil applied (solid) fertilizer, which is applied as a powder or granules to the soil in dry form. This then, has to be dissolved, by moisture (rain) to be plant available via the roots. In other words, it has to dissolve into the soil solution to be available.
To these foliar solutions, trace elements in the form of chelates are added, along with seaweed and /or humic acid, or other additives depending on preference, to give a balanced fertilizer, supplying not only NPK, but all the trace elements as well as growth hormones, vitamins etc.
Many different NPK formulation combinations can be made, depending on the application required. The same elements that make up foliar fertilizer are required for plant growth and development, and are formulated to meet quite specific plant requirements.

The Importance of Organic Matter &Effect of Management Practices on Soil Organic Matter

The importance of organic matter in soil is not a recent discovery. Soil fertility in early agricultural systems was based on the recycling of organic wastes. The addition of decomposed organic materials improved plant growth.
Besides being a source of nutrients for the plant, organic matter has a fundamental effect on the physical properties of the soil (water-holding capacity) and determines to a large degree such properties as the exchange capacity and buffering properties. These properties are of great importance, not only in controlling the uptake of nutrients by the plant and their retention in the soil, but also in suppressing the deleterious effect of soil acidity.

Effect of Management Practices on Soil Organic Matter.

Cultivation of soils usually causes a decrease in the organic matter content. For most soils, a high level of organic matter is maintained only by grass species. Conventional sources of applied organic matter such as farm manures or crop residues are not normally used due to lack of availability or prohibitive cost.

Non-conventional Sources of Organic Matter:
Humate products for agricultural use are produced through mineral sand mining. The end product contains a majority of organic material (concentrated humic acid ) mixed with smaller amounts of mineral matter.
Humate concentrates provide many of the advantages of conventional organic matter sources with less handling problems, especially in situations where there is no feasible alternative to purchasing additional supplies of humus.
They have been demonstrated to have favourable effects on tissue nutrient balance, fertilizer uptake, top and root growth, crop yield and quality for a large variety of field and horticultural plants.
Here we get help of new and high tech products . If we defined humus as the base of fertility, we can define these high tech products as a concentrate of vital strength of humus, produced by nature during evolution.
The importance of organic matter in soil cannot be over emphasized. Soil life depends in large part on organic matter.
The bacterial, earthworms, fungi, actinomycetes and nematodes all in some way depend on organic matter.

HUMUS - AGROFERTILIZER INDUSTRY

Try planting seeds in pure clay retrieved from the bottom of a metre deep hole. There is no plant growth here, no matter how much N-P-K is applied. It is not possible to grow a crop in soil in the complete absence of organic carbon (humus).
In the production of a fertile soil, organic substances play a direct part as they are the sources of plant nutrients which are liberated in available forms during mineralisation.
The rise in popularity and use of mineral fertilisers enabled growers to directly supply plant nutrients to the soil, and rapid growth in agricultural productivity occurred. As a consequence, the importance of soil organic matter was somewhat neglected.
Humus is a structureless colloidal material resulting from the decomposition (humification) of any type of dead organic matter (mostly plant residues and animal remains).
It is a complex mixture including proteins, lignin (plant cell walls); fats, carbohydrates, and organic acids. These acids, humic acids and chelates, provide a storehouse of essential plant nutrients.
It helps make some nutrients more soluble and available to plants. It provides a high water absorption and holding capacity and contributes to good soil structure. It buffers the soil and protects plants from drastic changes in pH.
Humus and soil life work together for plants benefits.
Organic carbon is created from the breakdown of organic matter (usually in the form of crop residues) by bacteria and fungi. The conversion and availability of all mineral elements are related to, and regulated by this system of decay in the soil.
This is the environment necessary for the decomposing micro-organisms to flourish. Crop residues are converted into carbon dioxide, carbonic acid and numerous mild organic acids. These acids, stored in the humus complex, are necessary to convert, chelate, and release soil minerals.
Everyone knows that plant needs light, heat and moisture, as well as good fertile soil with the whole set of macro and micro elements to flourish.
But the real problem is that assimilation of those elements is impossible without some special organic substance, which is called "humus".
The main compound of humus are humic acids; which have originated during the decomposition of plant and animal residues by microorganisms, under aerobic and anaerobic conditions, usually in soils, composts, peat bogs, and water basins.

SEAWEED

A truly remarkable phenomenon is that seaweeds grow in the ocean and accumulates potassium but does not accumulate sodium.
The concentration of sodium in sea water is nearly a hundred times the concentration of potassium; yet potassium is accumulated, and sodium is excluded by the seaweed.
Liquid Seaweed is essentially an organic seaweed tea. It is sold as an extract which is diluted with water and applied to the soil, or most effectively used as a foliar spray.
Seaweed has been used by plant growers for centuries, but beneficial results has only recently been attributed to the naturally occurring growth regulators and micronutrients in the seaweed.
After years of research it has been established that seaweeds contain many naturally occurring plant growth regulators, namely cytokinins, gibberellins, and indoles.
In addition, it contains micronutrients such as iron, copper, zinc, molybdenum, boron,manganese, and cobalt.
To date more than 60 different types of nutrients have been confirmed.
However seaweed in itself is not a plant food, rather it is classified as a "bio-stimulant."
Many seaweed products also contain a chelating compound known as mannitol,which chelates micronutrients into forms that are readily available for plant use.
Seaweed contains several chelating agents the most important of which is mannitol.
Seaweed contains natural plant growth regulators. The major plant growth regulator are auxins, cytokinins, indoles and hormones. These are in very small quantities generally measured in parts per million.
Seaweed stimulates beneficial soil microbial activity, particularly in soil around the feeder roots resulting in a substantially larger root mass where the beneficial fungi and bacteria known as "mycorrhizae" exist.
This area of the soil is known as the "rhizosphere." The rhizosphere activity improves the plants ability to form healthier, stronger roots.
Cytokinins are hormones that promote growth by speeding up the process of cell division making seaweed extract of value in treating tissue cultures.
When they are applied to foliage the leaves rejuvenate stimulating photosynthesis.
Auxins, also hormones, occur in the roots and stems during cell division. They move to areas of cell elongation where they allow the walls of cells to stretch.
Auxins actually give fruits and vegetables a naturally longer shelf life. This is known as delaying senescense: the deterioration of cells and tissues that results in rotting.
Gibberellins are other important plant-growth hormones; more than 50 kinds are known. They control the elongation of stems, and they cause the germination of some grass seeds by initiating the production of enzymes that break down starch into sugars to nourish the plant embryo.
Hundreds of research reports have been written about seaweed and the micronutrients and growth regulators contained within them.
There are various methods used to identify the individual organic and inorganic compounds present in seaweed.
Without identifying individual compounds, scientists can test for responses in plant material which resemble the responses of plants to known individual compounds, such as cytokinins, auxins and gibberellins, through the use of bio-assays.
Farmers and gardeners should not become too involved in the science of why seaweed produces the results which have been demonstrated over decades of scientific research, field observations, and practical experience.
Rather, they should concentrate on the benefits and results of using seaweed products in their homes, gardens, and fields.
In recent years the results of scientific research provided evidence that seaweeds contain more than 70 microelements and is considerably higher than it is in terrestrial plants.
Plants use tiny amounts of the micronutrients often measured in parts per million.
This helps to explain why foliar spraying can be an effective way to deliver these nutrients to the plant. Seaweeds are found in all of the oceans except for the tropical western coast of Africa and western Central America.

INTRODUCTION TO FOLIAR FERTILIZERS - AGROFERTILIZER INDUSTRY

The basis of our agricultural 'system' is based on pasture and grazing, which replaces the high input cost systems traditionally used in the Northern Hemisphere.
The development of specialised cultivars of perennial ryegrass, and superior more nutritious strains of white clover, were significant breakthroughs which boosted productivity in New Zealand.
In this 'system' farmers have been using foliar fertiliser since the early 1950's.
Even though the subject of foliar fertilisation was little understood, 'experts' told farmers that they shouldn't use them, because in comparison to solid type fertilisers, foliars contained less nutrient.
While it is true that the major elements nitrogen, phosphorus and potassium (NPK) are more economically supplied in solid form, some 'experts' believed that it was only the quantity of these that counted.
However, the mere presence of a particular chemical element in the soil does not gaurantee the effective assimilation of mineral fertilisers by plants.
Nutrient demand curves indicate stages in a plant's life-cycle when the need for some nutrients may be greater than its physiological capacity to supply itself, even when these soil nutrients are abundantly available.
Highly soluble potassium and nitrogen-based fertilisers can be easily washed out from the soil, and phosphate fertilisers can attach themselves to ions of potassium, magnesium, aluminium and iron into chemically insoluble form for plants.
Foliar nutrients on the other hand are mobilised directly into plant leaves, which is the goal of fertilisation to begin with, increasing the rate of photosynthesis in the leaves, and by doing so stimulate nutrient absorption by plant roots.
Foliar fertilisation is by far the most effective way to apply micro nutrients or trace elements, and supplement the major elements. The readily-available nutrients are more easily utilised, because they do not have to be dissolved by moisture and go into the soil solution.
Foliar fertilisers used in conjunction with solid fertilisers, can be used to quickly correct a nutrient imbalance and stimulate increase in root uptake.
This does not mean that foliar fertiliser replaces solid fertiliser, but the use of foliar fertiliser has been shown to increase the availability of the applied major elements, that have been applied in solid form.
Foliar fertilisation can correct deficiencies, strengthen weak or damaged crops, speed growth and grow better plants, which is of course, the bottom line.

Monday, June 11, 2007

Save Your Money

We are pleased to inform that we Ultra Energy Resources Sdn Bhd
in Kulim, Kedah, Malaysia, are the dealer for the “Ultra Energy” an energy savings products patented in Korea by Keseco Co. Ltd. “Ultra Energy” has a proven track record since year 2000. Keseco Co. Ltd. products have certification evaluation for its energy savings performance and electrical safety and have no objections from the market since its inception in Korea. "Ultra Energy” is the new concept of energy saving device, totally different from the existing energy saving devices in the market. Most of the existing energy savers reduce the electricity cost by dropping the voltage which could lead to other problems. “Ultra Energy” is an incredible solution to this matter. It minimizes load and increases current efficiency without dropping the voltage to maximize power savings. We are confident that the "Ultra Energy" will meet with your satisfaction in terms of energy savings while maintaining consistent voltage.We wish to introduce a new attractive scheme for your kind perusal and consideration to the people of Malaysia by giving opportunies to savings your hard earned money from wasted into the drains.

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Ø SHARING SAVING CONCEPT - No additional budget required

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Thank you.

Introduction

We hope your success with world first ULTRA. We’ve already faced the fact “Energy is security.”Energy-related business is pursued by numerous companies in light of the belief that national issues and crises can be solved by businesses. However, it’s a dream that everyone can't realize.KESECO was newly born with the world 1st Power Saving Application using the current improvement method for the energy saving requirements of this new era. “ULTRA” of KESECO is world 1st product applying superconductor. Moreover it is distinguished product which can save more than 10% power at 70% load by developing principle returning heat energy to effective energy by loss due to resistance.
This product was highly acknowledged by KTL(Korea Testing Laboratory)Likewise in stability we’ve already obtained CE, CMA, ISO and are under examination for obtaining CSA.ULTRA is registered-complete product to PL insurance as well.In any case of consumer damage, we are preparing thoroughly.In addition, ULTRA is highly recommended in price because of its competitive price and excellence of ROI(investment will be returned within 12~15months) Thus “ULTRA” is playing a leading role by exporting to almost 18 nations with quality goods.(KESECO based on epochal technology and quality of ULTRA is broadening power saving appliance without voltage adjustment system verified by all over the world and finally would like to be the savor of the world for your profit)

Wednesday, June 6, 2007

Technical about ULTRA

ELECTRIC ENERGY SAVING DEVICE

Technical Field

The present invention relates to an electric energy saving device, and more particularly, to an electric energy saving device connected to an electricity line for supplying electric power, in which a ceramic layer is coated on an inner surface of a housing and an inner cover plate is placed in a space defined in the housing to absorb and emit rotating electromagnetic waves emanated from the ceramic layer and thereby render a resonance absorption state, so that rotating electromagnetic waves generated in the electric energy saving device is supplied to the electricity line in such a way as to decrease electric power consumption and save electric energy.

Background Art

Generally, a far infrared ray serves as a kind of electromagnetic wave and has a wavelength of 2.5 - 1,000 micrometers. The far infrared ray having a wavelength of 2.5 - 30 micrometers is mainly used in an industrial field. The far infrared ray has various characteristics including a resonance absorption function, emission, and deep reaching force. Usually, molecules constituting a substance implement their inherent angle-changing vibration, rotating vibration and contracting vibration, depending upon an arrangement of atoms. A frequency representing a vibration wavelength of molecules is determined as a specified value, relying upon a molecular structure, generally of 2.5-30 micrometers. At this time, when a far infrared ray is irradiated onto an object, if a vibration frequency of radiant energy and a vibration frequency of the molecules correspond to each other, the molecules absorb the far infrared radiant energy to be intensified in its vibration, which is called the resonance absorption function. Due to this resonance absorption function, a pm1 of kinetic energy is changed into activation energy to further activate molecular motion.

The emission means that far infrared rays released from an object is transferred as heat. The deep reaching force means that penetration force is determined in proportion to a square root of a wavelength of irradiated radiant energy and thus a far infrared ray of a short wavelength is decreased in its penetration force in comparison with a far infrared ray of a long wavelength.

Recently, using the above-described characteristics, a far infrared ray is employed in a diversity of uses. As being most commercialized, ceramics emitting far infrared rays are employed in a heating device or a sauna bath. In particular, the far infrared rays emitted from the ceramics deeply penetrate into the human body to activate molecules or atoms, discharge waste matters and promote metabolism, and thereby, the human body can be restored to a healthy condition. Besides, far infrared rays provide a wide range of effectiveness. However, there is no case in which far infrared rays are used to save electric energy.

Disclosure of the Invention

Accordingly, the present invention has been made in an effort to solve the problems occurring in the related art, and an object of the present invention is to provide an electric energy saving device which is constructed to decrease electric power consumption using far infrared rays.
In order to achieve the above object, the device of the present invention is constructed in a manner such that, when far infrared rays of a specified wavelength band are supplied to an electricity line through which a current flows, molecules constituting a conductor of the electricity line absorb the far infrared rays to cause resonance absorption vibration and to thereby be activated in their motion. That is to say, in the present invention, a space for supplying, as thermodynamic activation energy, rotating electromagnetic waves which are also called IT-rays or Gibbs free energy, is defined in the conductor forming the electricity line.
The device according to the present invention includes a ceramic layer for generating rotating electromagnetic waves in the space, conductive plates serving as conductor bodies placed in a predetermined space to collect the rotating electromagnetic waves generated in the ceramic layer, and an electricity line connected to the conductor bodies to discharge the rotating electromagnetic waves collected by the conductive plates. Consequently, as a resistance of the conductor is decreased by virtue of the activation energy discharged through the electricity line, current consumption is reduced and it is possible to save electric energy.

According to the present invention, there is provided an electric energy saving device comprising: a housing made of metal or plastic and coated on an inner surface thereof with a ceramic layer mainly formed of silicate to emanate rotating electromagnetic waves, so that wave transfer to the outside is prevented; an inner cover plate supported in a space defined in the housing by separation maintaining rods, to repeatedly absorb and emit rotating electromagnetic waves emanated from the ceramic layer and thereby perform a resonance absorption function; conductive plates rested on supp0l1ing insulation blocks so that rotating electromagnetic waves generated in a free space defined between the inner cover plate and a bottom surface of the housing can penetrate into the conductive plates; and a wire for outputting, out of the housing, the rotating electromagnetic waves penetrated into the conductive plates, to an electricity line.

Technical principles of the present invention will be concretely described below.

(i) Generation of TI-rays

In the formation of rotating electromagnetic waves, that is, O-rays according to a theoretical background of the present invention, when observing an atomic binding structure of ceramic serving as a far infrared ray radiating body, covalent bonding and crystallization pi bonding arc combined with each other. In this state, as an alternating magnetic field is created, rotating electromagnetic waves arc generated. Further, heat energy introduced from the outside is also converted into rotating electromagnetic waves. Moreover, in the case of coating ceramic powder on a metal plate, an increased amount of rotating electromagnetic waves are generated at a boundary layer between crystal bonding of the metal plate and covalent bonding of the ceramic.

In a basic technical theory of the present invention, the above­ described principle is applied to a structure of a far infrared ray radiating body so that the radiating body can generate and supply by itself the rotating electromagnetic energy.

(ii) radiation and absorption of far infrared rays and relationship with rotating electromagnetic waves

Diverse structures of molecules constituting each substance have their specified vibration patterns and rotation frequencies depending upon differences of conglomerated scheme, arrangement and conglomerating force in mass structures of their atoms. When far infrared rays are radiated toward a substance, if a vibration frequency of radiant energy and a molecular vibration frequency of the substance correspond to each other, the molecules absorb the energy of the far infrared rays to be intensified in their molecular motion.

This is called a resonance absorption function. More concretely describing, rotating electromagnetic waves emanated from a ceramic-coated surface are changed into far infrared rays (having maximum radiation energy approaching to 8-11 micrometers) in a free space, due to a basic feature of the free space. As the far infrared rays are emitted from one surface and absorbed by other surfaces, the far infrared rays are changed again into rotating electromagnetic waves due to the presence of alternating magnetic fields.

(iii) Absorption of rotating electromagnetic waves and electric energy saving principle.

The existing energy is represented by energy of electrons flowing through a conductive wire. According to recent researches, it was found that electric energy is composed of flow of rotating electromagnetic waves and vibration of electrons. Based on this fact, it is judged that an electricity line can absorb rotating electromagnetic waves, and when an energy passage line of a far infrared ray radiating body is brought into contact with the electricity line, due to the flow of the rotating electromagnetic waves inside the electricity line, absorption force is produced by a static pressure difference between the far infrared ray radiating body and the electricity line. Due to this absorption force, the rotating electromagnetic waves generated in the far infrared ray radiating body are moved into the electricity line.

Then, describing a relationship between the absorption force and saving of electric power, the rotating electromagnetic waves absorbed into the electricity line create new crystal bonding of atoms in the electricity line, and accordingly, a new alternating magnetic field changes heat energy which is being lost due to the existing electric resistance in the electricity line, again into rotating electromagnetic waves in the form of effective energy. The rotating electromagnetic waves resultantly play an important role of reducing a various types of resistances in the electricity line, thereby rendering electric energy saving effect of about 5-15%.

Describing a adaptation period of the far infrared ray radiating body and the role of the rotating electromagnetic waves, while the rotating electromagnetic waves absorbed into the electricity line form crystal bonding in fine structures of the conductive wire, as the rotating electromagnetic waves arc continuously supplied, the crystal bonding is broken again. Since covalent bonding cannot allow current flow, only crystal bonding protected by the covalent bonding is finally left, whereby a electric energy saving function is stabilized.

A variety of conventionally used radiating materials can be employed is as the flu' infrared ray radiating bodies for generating far infrared rays of desired wavelength bands. Specifically, naturally obtained far infrared ray radiating materials can be employed in the conventionally powdered or baked and powdered state. Preferably, silicates or quartz porphyry generally obtained in a mine can be effectively employed in a powdered-as-it-is state or as baked and powdered ceramic. Results obtained by measuring radiant energy of silicate by wavelengths are given in FIG. I. As can be readily seen from FIG. I, since the silicate has a maximum wavelength of 8-11 micrometer, it can he employed as an appropriate radiating body in the present invention.

A far infrared ray radiating body can be employed in a state wherein it is formed to have a diversity of shapes as occasion demands. In one example, after a far infrared ray radiating material is coated on a surface of a plastic or metal plate into a thickness of no less than 1 mm, the plate can be formed into the shape of a box to be actually employed. Generally, if heat is applied to a far infrared ray radiating body, an amount of infrared ray radiating energy is abruptly increased, and a radiated wavelength is gradually moved toward a short wavelength. Hence, in the case of heating the far infrared radiating body according to the present invention within a predetermined temperature range, as an amount of infrared ray radiating energy IS increased, activation energy of a conductor constituting the electricity line can be increased. However, if a temperature is excessively raised, a wavelength goes beyond the one desired in the present invention, which is not preferable. It is preferred that a heating temperature is maintained within the range of no greater than 150°C.

In order to sufficiently accomplish electric energy saving effect through radiation of far infrared rays, a position where far infrared rays are supplied to the electricity line is regarded important. In this connection, it is preferred that an increased amount of far infrared rays are supplied to a portion of an electricity line which is positioned directly behind a transformer for transforming a supplying voltage in an exterior wiring and a load which consumes a great amount of electric energy.

In a most simple way, electric signals are allowed to be introduced into the far infrared ray radiating bodies so as to supply far infrared rays to the electricity line.

In another way, far infrared rays can be supplied to the electricity line employing another transferring medium. In other words, after a transferring medium having the same conductor as the electricity line is introduced into the far infrared ray radiating bodies, the medium can be connected to the electricity line in a conducted state or a non-conducted state so as to supply far infrared rays to the electricity line.

In the case of supplying far infrared rays to the electricity line as described above, after a function adjustment period of three months is lapsed, it is possible to stably obtain electric energy saving effect.

Brief Description of the Drawings

The above objects, and other features and advantages of the present invention will become more apparent after a reading of the following detailed description when taken in conjunction with the drawings, in which:

FIG. 1 is a graph showing a level of energy emanated from the conventional ceramic layer, depending upon a wavelength;

FIG. 2 is a partially broken-away perspective view illustrating a construction of an electric energy saving device in accordance with an embodiment of the present invention;

FIG. 3 is a cross-sectional view of the electric energy saving device according to the present invention;

FIG. 4 is an explanatory view illustrating an in-use state of the electric energy saving device according to the present invention; and

FIG. 5 shows results of tests implemented for the electric energy saving device according to the present invention.

Best Mode for Carrying Out the Invention

Reference will now be made in greater detail to a preferred embodiment of the invention, an example of which is illustrated in the accompanying drawings. Wherever possible, the same reference numerals will be used throughout the drawings and the description to refer to the same or like parts.

FIG. 2 is a partially broken-away perspective view illustrating a construction of an electric energy saving device in accordance with an embodiment of the present invention; and FIG. 3 is a cross-sectional view of the electric energy saving device according to the present invention. An electric energy saving device 100 according to the present invention includes a housing 10. The housing 10 is made of metal or plastic and coated on an inner surface thereof with a ceramic layer 11 (preferably, having a thickness of I mm) mainly formed of silicate to emanate rotating electromagnetic waves, so that wave transfer to the outside is prevented. An inner cover plate 20 is supported in a space defined in the housing 10 by separation maintaining rods 12. Conductive plates 30 are rested on supporting insulation blocks 31 so that rotating electromagnetic waves generated in a free space defined between the inner cover plate 20 and a bottom surface of the housing 10 can penetrate into the conductive plates 30. The conductive plates 30 are connected with a wire 33 which in turn is connected to an electricity line.



It is preferred that the inner cover plate 20 has a size for ensuring that a predetermined space is defined between side walls of the housing 10 and the inner cover plate 20. A height of the supporting insulation blocks 31 is adjusted in a manner such that the inner cover plate 20 is positioned at the middle in the housing 10. The reference numeral 21 represents covering ceramic layers, 22 screws for coupling the inner cover plates 20 to the separation maintaining rods 12, 32 screws for coupling the conductive plates 30 to the supporting insulation blocks 31, and 34 a plug to be connected with the electricity line through a socket.

In the present invention constructed as mentioned above, after or before assembling the electric energy saving device 100 as shown in FIG. 2, the ceramic layer 11 is heated. At this time, it is preferred to momentarily heat the ceramic layer 11 within a temperature range of 100-IS0aC while not causing deformation of the housing 10. The reason for this is that, if the temperature exceeds 15O0C, the housing 10 is likely to be deformed, and if the temperature is less than 100°C, activation of the ceramic layer 11 is retarded to deteriorate generation of rotating electromagnetic waves. Then, as covalent bonding and the crystallization pi bonding of the ceramic layer 11 by it self are activated by the heating, alternating magnetic fields and rotating electromagnetic waves are created and generated.

The rotating electromagnetic waves are generated in the housing 10 to have numerous wavelengths, as can be readily seen from FIG. 3. The rotating electromagnetic waves give rise to a resonance absorption function via the inner cover plate 20. Therefore, by the fact that the inner cover plate 20 made of a metallic material is coated on upper and lower surfaces thereof with the covering ceramic layers 21, an increased amount of rotating electromagnetic waves are generated at. a boundary layer between crystal bonding of the metal plate and covalent bonding of the ceramic, which acts as a factor of explosively increasing generation of rotating electromagnetic waves. Namely, the rotating electromagnetic waves emanated from the surface of the coated surface of the ceramic layer 11 are repeatedly reflected and absorbed in a free space by the covering ceramic layers 21 of the inner cover plate 20, whereby conversion from the alternating magnetic fields to the rotating electromagnetic waves continuously occurs. In this case, because the inner cover plate 20 has a size for ensuring that a predetermined space is defined between the side walls of the housing 10 and the inner cover plate 20, the rotating electromagnetic waves function to continuously emanate kinetic energy to thereby be repeatedly absorbed on the upper and lower surfaces of the inner cover plate 20. Further, because the supporting insulation blocks 31 are determined in their height in a manner such that the conductive plates 30 are positioned at the middle between the bottom surface of the housing 10 and the inner cover plate 20, an amount of rotating electromagnetic waves guided toward and absorbed by the conductive plates 30 can be maximized.

Due to the fact that the rotating electromagnetic waves are most activated in the free space between the inner cover plate 20 and the bottom surface of the housing 10, they arc guided toward the conductive plates 30 positioned in the free space. As shown in FIG. 4, the conductive plates 30 are connected with an end terminal of a conventional socket 40 for supplying electric power. While the electricity line 41 connected with the end terminal has its own now of rotating electromagnetic waves, because an intensity of the rotating electromagnetic waves generated in the housing 10 of the electric energy saving device is relatively small, by fixing the plug 34 connected with the conductive plates 30 via the wire 33 into the socket 40 as shown in FIG. 4, the rotating electromagnetic waves generated in the housing 10 is absorbed into the electricity line 41. At this time, absorption force is produced by a static pressure difference existing between the electric energy saving device 100 and the power supplying electricity line 41. Due to the absorption force, the rotating electromagnetic waves generated in the electric energy saving device 100 are continuously moved into the electricity line 41.

The rotating electromagnetic waves absorbed into the electricity line 41 create new crystal bonding of atoms in the conductive wire. Accordingly, the alternating magnetic fields converts heat energy which is otherwise lost due to an electric resistance existing in the conductive line, into rotating electromagnetic energy to transform it into effective electric energy.
The rotating electromagnetic energy resultantly plays an important role of decreasing a variety of resistances existing in the conductive wire. The decrease in resistance causes a decrease in current, whereby, as a resistance loss is reduced, a desired output can be accomplished with reduced current flow. Considering an equation, P = I x V x case, since a voltage V is constant, if a current I is reduced, an amount of consumed electric energy P can be reduced.

As can be readily seen from FIG. 5, the above-described reduction in electric power consumption and current was confirmed by performing tests a multitude of times using a System VIP 3 Energy Analyzer made in Italy.

Industrial Applicability

As apparent from the above description, the electric energy saving device according to the present invention provides advantages as described below.

In the present invention, a space for supplying, as thermodynamic activation energy, rotating electromagnetic waves which are also called IT- rays or Gibbs free energy, is defined in a conductor constituting an electricity line, and the device includes a ceramic layer for generating rotating electromagnetic waves in a space, conductive plates serving as conductor bodies placed in a predetermined space to collect the rotating electromagnetic waves generated in the ceramic layer, and the electricity line connected to the conductor bodies to discharge the rotating electromagnetic waves collected by the conductive plates. Consequently, as a resistance of the conductor is decreased by virtue of the activation energy discharged through the electricity line, current consumption is reduced and it is possible to save electric energy. By applying the present invention for a predetermined period of time, significant electric energy saving effect of no less than 15% can be accomplished.

In the drawings and specification, there have been disclosed typical preferred embodiments of the invention and, although specific terms are employed, they are used in a generic and descriptive sense only and not for purposes of limitation, the scope of the invention being set forth in the following claims.

Claims

1. An electric energy saving device comprising:
a housing made of metal or plastic and coated on an inner surface thereof with a ceramic layer mainly formed of silicate to emanate rotating electromagnetic waves, so that wave transfer to the outside is prevented;
an inner cover plate supported in a space defined in the housing by separation maintaining rods, to repeatedly absorb and emit rotating electromagnetic waves emanated from the ceramic layer and thereby perform a resonance absorption function;
conductive plates rested on supporting insulation blocks so that rotating electromagnetic waves generated in a free space defined between the inner cover plate and a bottom surface of the housing can penetrate into the conductive plates; and
a wire for outputting, out of the housing, the rotating electromagnetic waves penetrated into the conductive plates, to an electricity line.

2. The electric energy saving device as set forth in claim I, wherein the inner cover plate has a size for ensuring that a predetermined space is defined between side walls of the housing and the inner cover plate.

3. The electric energy saving device as set forth in claim I, wherein the ceramic layer is heated to a temperature of no greater than 150°C.















Product Certificate

Certification Europe ( CE )

DASTEK CERTIFICATION TEST REPORT



Certification (C) CMA China







ISO 9001 : 2000 CERTIFICATE



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Covered With Insurance ( Free )





Monday, June 4, 2007

Example Installation at Petrol Station

01. Petrol Stations That Use Lots of Electricity









02. Mar 15th Main distributing board






03. Mar 15th Measuring equipment set up





04. Set up




05. Measuring instrument, Power saving appliance


06. DATA Collection complete

Installation mode

01. Check Drawing Review







02. Power Capacity Check (ACB Panel)



03. Positioning of Panel (ACB Panel before installation)



04. Installation of Power Saver (U-1000 installed)




05. Installation of Power Saver (U-1000 installed)




WORK SCHEDULE AND TIMING

FIRST VISIT (Day 1)
Energy Saving Presentation (30 minutes)
Proposal Accepted by Client and signed
Energy Audit Before Data (7 days)

SECOND VISIT (Day 8)
Collect Energy Audit Before Data
Energy Saver Installation and testing for 1 day trial

THIRD VISIT (Day 10)
Collect Energy Audit After Data
Calculate Energy Saver Installed for 1 day trial
Make Energy Saver Proposal to Client




Comparison with competitor

P(KWH)=V(voltage)*I(current*COS0'(pf)
P(KWH) is to determine power capacity reduction based on 3 factor as above

01.
At first, for voltage adjustment system(dropping voltage) and you can just compare height of water tank from ground with voltage.About low voltage(110~660V), for example if motor is less than property voltage, it can’t keep torque any more therefore it causes tremendous trouble and product life cycle.Most of factories are avoiding this, many troubles regarding this have been occurring in Japan, Korea, China and any other countries.By adopting series circuit, volume is 10~20times bigger than current type.Therefore it is often restricted when installing.The price is triple times expensive therefore it has disadvantage that the investment can be returned in 3~4years.Most manufacturers producing power saving appliance are same like this. They are making an effort to cover the disadvantage of dropping voltage.However to the original point, it is proportionate to formula stated as above.Most experts name it “A.V.R((Average Voltage Regular). We usually say it “Transformer”

02. At second “phase modifying eqiupment” called condenser is not applicable to household,business establishment, factory but it is nothing but “phase modifying eqiupment” as compensation for reducing “reactive power” in only KEPCO.COSθ is ratio of active power for apparent power In other words, it is ratio that how effectively voltage and current perform to electric equipment.However, the most important thing is that it hardly influences on active power quantity(KWH)which is a standard collected by KEPCO.On the view of supplier of KEPCO, it does not matter to flow current slightly. Then drop of electric pressure becomes little and has a advantage of usage effect of power supply equipment.
On disadvantage aspect, it is installed in main TR mostly received.Moreover unreal excessive installation causes “leading phase”, which make us pay more electric charge and has danger of fire. In conclusion , it is nothing but unreal phase modifying eqiupment.

03. At third, it’s current. If the height of voltage system is far from the water tank on the ground, just think current the thickness of pipe. KEPCO as receiver or supplier is making every effort in providing this current.Using electricity = it is equal to using current, Current is the existence to obstacle free electron flow named as resistance in A/C. In other words, it is to make water flow difficult in pipe.ULTRA is world 1st current improvement system by keeping voltage regularly applied superconductor.
Superconduction phenomenon in normal temperature (300K) has been already developed scientifically and is being approaching theoretically and presently applied products will appear.

Power Saving Appliance

Power usage can be calculated as below.
P(power usage)=V(voltage)xI(current)xCOS0'(pf)[W]


Two methods are applied to save the power : voltage drop and current improvement. More than 95% of existing power saving appliances is the voltage drop system.They are not simple to use since delicate machinery is sensitive to the voltage.The voltage drop system lowers the intensity of lighting and is generally avoided in environments such as hotels and department stores where importance is placed on atmospheric lighting.Adopting the current improvement method, “ULTRA” of KESECO minimizes load and increases current receiving efficiency without voltage adjustment to maximize power saving. It is highly welcomed by industries, which require high voltage power as well as in normal homes.


Current Improvement


For our ULTRA, alternative magnetic field and Rotating Electromagnetic Waves are generated by ceramic installed inside power saving appliance as the picture below.Rotating Electromagnetic Waves generated on this occasion is converted to far infrared ray(8-11㎛ near the maximum radiation energy) by structure free space and emitted.This far infrared ray is converted to Rotating Electromagnetic Waves consecutively by alternative magnetic field again.Under this process, Rotating Electromagnetic Waves improves current flow by flowing into wire by high absorption power between power saving appliance and voltage gap of wire in it. In other words, Rotating Electromagnetic Waves absorbed into wire have influence on imperfect crystal structure and make free electron current better and improve current by converting reactive energy wasted by existing resistance into active energy.Finally it reduces resistance of wire and improve current value energy.


Principal Of Power Saving

Principle of Power Saving



Principal of returning the heat energy lost by reistance to effective energy

01. Electron by exchange of lattice vibration - Chemical Box created by chemical reaction
If the attractive force between electrons is stronger than the expulsion force caused by electric interaction between the electrons, the resulting force would attract the electrons toward each other and characteristic internal structure will be formed where each two electrons move together as a pair forming a Cooper pair.

02. Pyroelectritricity created by physical reaction
When electric current flows through the Power Saving Appliance, and if the increase of energy of Cooper pairs is less than the gap of energy, excitation state can not be created and the energy is not scattered allowing the continuous flow of electricity.

03. Electric effect
In order to be able to supply the resulting decrease of electric resistance through the power connection, the current decreased by radiation method, among other energy transmission methods, is supplied maintaining constant torque at load, which will effectively improve the power current.

ULTRA New Technology Principle