Ecological Concepts

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ECPL DEMO2

What We Do (Services/Solutions)

Ecological Sewage Processing

Nowadays, the environmental problems associated with residual color in industrial effluents have posed a serious threat to many environmental scientists. The effluents from the industries have liberated wide variety of pollutants which can directly introduce into the natural water sources. The industrial sector usually consumes enormous amount of water for manufacturing the sportswear, fashion and luxury brands of clothes. In that, several hazardous chemicals were added for coloring and designing purposes which contains many organic and inorganic substances, ammonia, infectious microorganisms, detergents, heavy metals, pesticides and household cleaning aids. These water pollutants are toxic to fish and other aquatic lives and it is also harmful to humans. So, there is a need for removal of toxic pollutants from the industrial effluents. The methods for controlling the water pollution can be majorly classified into three steps:

  1. Primary (screening, sedimentation, homogenization, neutralization, mechanical flocculation, chemical coagulation)
  2.  Secondary (aerobic and anaerobic treatment, aerated lagoons, activated sludge process, trickling filtration, oxidation ditch and pond) and
  3. Tertiary (membrane technologies, adsorption, oxidation technique, coagulation and flocculation, electrochemical processes, ion exchange method, crystallization, Evaporation). Our technology describes a critical review of the current literature available on various wastewater de-colorization techniques being applied to remove the hazardous chemicals from industrial wastewater.

Industrial Wastewater Treatment by Ecological Technology

Some decades back, all manufacturing activity consisted of simple chemicals and formulae but as the technology improved, more and more complex processes came into practice and chemical derivatives.

To some extent, water treatment technology hasn’t kept pace with the development, so the industrialists didn’t have any option but to keep to the treatment technology available – aeration, using another chemical to neutralize their waste chemicals in the effluents.  Therefore increasingly they fell afoul of the pollution watch dogs and had to close shop due to their inadequate pollution control.

Not so any longer – ECPL technology has found a way to come to the aid of the industries.  Their problems are solved by delivering crystal clear water – the industrialists can recycle their waste water thus conserving ground water which they are forced to draw in excess, in their daily activity, which is again an offense.

ECPL treatment covers almost all types of industries for now, being –

  1. Chemical industries
  2. Distilleries
  3. Sugar plants
  4. Tanneries
  5. Paper industries

Drains Treatment using Bio Oxygenation

Many of the applicators in water treatment will insist on storing of water to treat the water for pollution.  This is an easy way out for them but not for installations with flowing water 24x7.

 

We can name a few people in India who don’t mind the on flow of water over the treated water. ECPL is in such an exalted company to treat water as it flows into the in situ area.  The reason being our products do not flow with the water current but stick to a particular area continuously releasing phytoplankton’s and consequently dissolved oxygen, which permeates even the onrushing water and purifies it.

 

This is what our process is all about.  Depending upon the type of sewerage we have to treat, we formulate dosing, frequency and treatment at the benthic level of the water system.  Accordingly, we dose the water once, twice or thrice a week as per water flow, density of muck etc.

Ponds Treatment using Bio Oxygenation

Ponds, they contain static water and captive organic/inorganic sludge.  As per the tolerance of the water, its level of contamination, animal/human pathogens, we dose the water body as per pre-determined levels of de-toxicities of matter.

Many fresh water ponds have a significant population of suspendedBlue & Green algae (BGA) in the water bodies. This gives the   water   a   Greenish   appearance.   High concentration of algae leadsto depletion of the dissolved oxygen of water causing anaerobic conditions in the water bodies. This results in death of aquatic population, besides an unpleasant odor. With many years of R & D An Accelerated Bio-Oxygenation solution to treat polluted water bodies has been developed.

. It Helps.

  1. To Promotes growth of Phytoplankton, A special kind of Microbes.
  2. Phytoplankton produce food from sunlight by Photosynthesis
  3.  Phytoplankton's produce more than 50% of food in the marine food chain.
  4. Encourages bacteria to grow and consumePollutants present in water  C02 consumed & produces 02, increases DO

In fact in our repertoire, a flowing water system (dynamic) is easier to treat than still water (static) that the impetus to mix well with the water is less.

Lakes Treatment using Bio Oxygenation

Lakes, they contain static water and captive organic/inorganic sludge.  As per the tolerance of the water, its level of contamination, animal/human pathogens, we dose the water body as per pre-determined levels of de-toxicities of matter.

Many fresh water lakes have a significant population of suspendedBlue & Green algae (BGA) in the water bodies. This gives the   water   a   Greenish   appearance.   High concentration of algae leadsto depletion of the dissolved oxygen of water causing anaerobic conditions in the water bodies. This results in death of aquatic population, besides an unpleasant odor. With many years of R & D An  Accelerated Bio-Oxygenation solution to treat polluted water bodies has been developed. It Helps..

  1. To Promotes growth of Phytoplankton, A special kind of Microbes.
  2.  Phytoplankton produce food from sunlight by Photosynthesis
  3.  Phytoplankton's produce more than 50% of food in the marine food chain.
  4.  Encourages bacteria to grow and consumePollutants present in water
  5.  C02 consumed & produces 02, increases DO

In fact in our repertoire, a flowing water system (dynamic) is easier to treat than still water (static) that the impetus to mix well with the water is less.

Wetland Treatment using Bio Oxygenation

Like Lakes and Ponds Wetlands contain static water and captive organic/inorganic sludge.  As per the tolerance of the water, its level of contamination, animal/human pathogens, we dose the water body as per pre-determined levels of de-toxicities of matter.

Many wetlands have a significant population of suspendedBlue & Green algae (BGA) in the water bodies. This gives the   water   a   Greenish   appearance.   High concentration of algae leadsto depletion of the dissolved oxygen of water causing anaerobic conditions in the water bodies. This results in death of aquatic population, besides an unpleasant odor. With many years of R & D an Accelerated Bio-Oxygenation solution to treat polluted water bodies has been developed. It Helps.

  1. To Promotes growth of Phytoplankton, A special kind of Microbes.
  2.  Phytoplankton produce food from sunlight by Photosynthesis
  3.  Phytoplankton's produce more than 50% of food in the marine food chain.
  4.  Encourages bacteria to grow and consumePollutants present in water
  5.  C02 consumed & produces 02, increases DO

In fact in our repertoire, a flowing water system (dynamic) is easier to treat than still water (static) that the impetus to mix well with the water is less.

 

Rainwater Collection harvesting for Potable Water

Rainwater harvesting means capturing and storing rain that falls on-site (usually on roofs). It is generally used for irrigation and toilet flushing or other greywater uses, though it can also be used for drinking water if it is adequately treated.

Capturing rainwater can be a valuable way to reduce or even eliminate a building's use of municipal potable water, without requiring reductions in water use by occupants. However, it is of course more effective in rainy climates than dry ones.

Rainwater harvesting systems are measured by their area for collecting water (in m2 or ft2) and the volume of water they store (in liters or gallons).

Simple rainwater collection systems have three main elements: the roof or other catchment area, the storage tank(s), and the gutter and other piping that directs the water from the catchment area to the tank.

Advanced systems may also use a pump to pull water from the tank to where it is used, and may purify the water with additional devices such as filters and ultraviolet disinfection.

If the rainwater is meant for drinking or watering gardens, be sure to choose a tank material that does not leach toxins or foster pathogens. For example, galvanized steel tanks are lined with polyethylene or other food-grade liner.

If the rainwater is collected from a roof is meant for drinking or watering gardens, be sure to choose roofing materials that do not leach toxins. For instance, asphalt shingles leach toxins into water, while metal roofs or slate shingles do not.

Community Drinking Water Systems using Ground Water

Our technique allows us enough room to indulge in two-stage treatment of ground water:

 

Depending upon the area, aquifer from where we draw water, ground water contains hard salts and minerals in their basic form or plain sweet water. 

  1. In many cases ground water is contaminated due to industrial activity, e.g., fluoride or arsenic poisoning. Such instances are many in India, where quarrying, chemical factories or sugar mills tend to poison the ground water.  This leads to chronic diseases in the population using such ground water.  People are maimed, have deformed organs at birth, incidence of cancer, asthma, bronchitis etc.  this is the direct result of groundwater poisoning.
  2. Hard water resulting in unsuitable water available to the populace; in such cases people resort to Reverse Osmosis to stay fit.

In both the above cases, mass throughput of ground water is necessary to give the people decent potable water.  No amount of chemical treatment will ensure this.  Usage of Chlorine is effective to the extent that it gets rid of bacteria but leaves other aspects of water quality untouched.

 

The only possible solution available in the above cases (except where sweet water is available) is to install community-oriented RO plants in modular fashion.  This step will complement the pumping stations in every city, village and give world-class potable water to the population in general.

 

The investment is low and the service potential of such RO plants are long, giving value for money to the owners (municipalities).

 

ECPL can supplement such installations with an unique product-mix to detox the people with sufficiently dissolved oxygen (oxygen therapy) to ward of occurrence of lethal diseases.  A brief note on this is:

This new therapy appears to be a breakthrough that radically slashes your risk of diseases linked to low oxygen, just by improving one simple thing you already do every day – drinking water.

The treatment shows promise for the chronically ill as well as for healthy people and athletes simply looking for better health or a performance edge.

Oxygen deficiency has long been linked to disease, going back to Dr. Otto Heinrich Warburg in 1931, when he won the Nobel Prize for showing that cancer is caused by a lack of oxygen respiration in cells.

ARTHRITIS, CANCER, TRAUMA, STROKE, AUTISM,

PARKINSONS, ALZHEMIR MULTIPLE SCLEROSIS AND

OTHER DEGENERATIVE NEUROLOGICAL DISEASES

ASTHMA, PROMOTE HEALING IN INFECTIONS, BURNS AND SKIN GRAFTS

GENERALLY SLOW THE AGING PROCESS

The final output of RO plants, water with higher amount of dissolved oxygen, if given to the chronically ill in our target areas will certainly help in reducing the effect of ground water contamination.  The cost of such water is negligible, may be add up to 50 paise per liter.  When the civic authorities spend huge amounts of money in health care, the oxygen therapy will reduce attendance in hospital

 

Community Drinking Water Systems using Ponds Water

The process of decontamination of pond or lake water is not very different – there are two ways of going about getting potable water to the people:

 

  1. The water is drawn from the water bodies by pumping stations and treated for bacteria and pumped to the households
  2. Additionally, the water body will be de-contaminated regularly dosing the water with our signature product for oxygenation for human and animal pathogens, a major factor while dealing with such water bodies.

If this system is built into the regular water treatment, the health authorities can really breathe easy as there will not be incidence of seasonal diseases like malaria, dengue or typhoid and consequent rush for medication.

Community Drinking Water Systems using Lakes Water

The process of decontamination of pond or lake water is not very different – there are two ways of going about getting potable water to the people:

 

  1. The water is drawn from the water bodies by pumping stations and treated for bacteria and pumped to the households
  2. Additionally, the water body will be de-contaminated regularly dosing the water with our signature product for oxygenation for human and animal pathogens, a major factor while dealing with such water bodies.

If this system is built into the regular water treatment, the health authorities can really breathe easy as there will not be incidence of seasonal diseases like malaria, dengue or typhoid and consequent rush for medication.

 

-Ecological Drinking Water Oxygenation

-Ecological Oxygenating Fish Incubator

-Ecological Oxygenating Plants Incubator

-Ecological Oxygenating Water Fall

                        Ecological Architecture

-Sustainable Architectural Designs

-Ecological Town Planning & Urban Planning

-Sustainable Project Planning & Management

-Ecological Landscaping

-Ecological Interior Designing

-Pollution Controls Measures Planning

-Smart Cities Development

-Model Village Development

-Ecological Water Filtration

-Ecological Farming