Packaging information
10kg
Product Number: 80005-1
IMPA CODE: 550680
STP Solupak HT also contains a balanced macronutrient package (C:N at ratio of 20:1). This ensures rapid growth and maintenance of activity during start up or periods of low flow (starvation of the biomass). Micronutrients such as trace metals are delivered via a slow release seaweed extract.
The bacteria used in STP Solupak HT manufactured in a GMP-compliant fermentation facility with an ongoing R&D development programme for strain development.
Extra Benifits
The STP Solupak HT consortium contains strains resistance to chlorine (from cleaners and sanitizers) up to a concentration of about 20ppm.
In addition, and to protect against accidental release of chlorine, a chlorine quenching additive is also added to offer protection up to 100ppm. To offer yet further protection, a specialised organic ingredient is added to the formulation to bind heavy and toxic light metals from reducing the respiratory activity of the biomass.
STP Solupak HT is suitable for use in all Type ll and Type lll MSD’s which has a need for biological sewage treatment powder. Helps to stay compliant to Marpol ANNEX IV
STP Solupak HT is offered in convenient to meter and dose 100g cold water soluble PVA sachets.
Marine sewage waste management is a critical issue that requirres attention and the concern of the environment. The discharge of untreated sewage into sea or other water bodies can lead to serious health and ecological problems, including the spread of disease and the destruction of aquatic ecosystems.
To address these issues, advanced technologies have been developed to effectively manage sewage waste and prevent its harmful impact on the environment. One of these technologies is the use of concentrated bioactive powder formulations, which can be used in marine sewage treatment systems.
Concentrated bioactive powder formulation is a blend of patented bacterial strains specifically developed to deal with sewage waste.
This advanced technology works by using natural bacteria to break down and treat the organic matter present in sewage, converting it into a safer and more manageable form.
The concentrated nature of the formulation ensures a high number of active bacterial cells, providing maximum treatment efficiency and faster results.
The concentrated bioactive powder formulation contains a unique blend of bacterial strains that have been carefully selected and patented for their ability to efficiently treat sewage waste.
These bacterial strains have been shown to have excellent degradation capabilities for a wide range of organic pollutants, including fats, oils, and grease (FOG), volatile fatty acids (VFA), and total nitrogen.
The formulation also contains essential nutrients and growth factors to support the growth and activity of the bacteria, ensuring optimal performance and treatment efficiency.
The concentrated bioactive powder formulation is added to the sewage treatment process to help break down and treat the organic matter present in the waste.The bacteria in the formulation begin to multiply and consume the organic matter, converting it into a safer and more manageable form. The end result is treated sewage that is safe for discharge into the environment and meets all regulatory requirements.
The concentrated nature of the formulation ensures a high number of active bacterial cells, providing maximum treatment efficiency and faster results.
The concentrated bioactive powder formulation is a cutting-edge technology that provides a natural, efficient, and cost-effective solution for sewage waste management. The advanced blend of patented bacterial strains is specifically designed to deal with sewage waste, converting it into a safer and more manageable form.
The technology offers a wide range of benefits, including efficient treatment, a natural process, a wide range of applications, safety for discharge, and cost-effectiveness. If you are looking for a solution to manage your sewage waste, consider the concentrated bioactive powder formulation.
Activated bio powder, a potent blend of microorganisms, enzymes, and natural components, forms the core of modern marine sewage treatment systems. Its primary function is to break down organic matter and pollutants present in wastewater, rendering them harmless and environmentally friendly. However, the efficiency of this process is inextricably linked to the solubility of the bio powder itself.
When activated bio powder exhibits high solubility, it translates into a faster and more even distribution of microorganisms and enzymes across the entire wastewater volume. This enhanced dispersion directly leads to accelerated degradation of organic matter and pollutants, resulting in reduced treatment times and higher treatment efficiencies. Moreover, efficient solubility ensures that no pockets of untreated wastewater are left behind, eliminating the risk of incomplete treatment and potential harm to marine ecosystems.
As the marine industry charts a course toward greener practices, the selection of the right activated bio powder cannot be overstated. Opting for a bio powder with proven high solubility guarantees an edge in wastewater treatment efficiency, compliance with evolving regulations, and a reduced environmental footprint. STP Solupak HT from GNC Marine has a solubility of 96%, prioritizes solubility as a key feature underscores a commitment to excellence and sustainability.
In the intricate world of marine sewage treatment systems, every detail matters. The solubility of activated bio powder emerges as a paramount factor that underpins treatment efficiency, environmental harmony, and regulatory adherence. By embracing bio powder with optimal solubility, the marine industry can revolutionize its wastewater treatment practices, propelling us towards cleaner oceans, healthier ecosystems, and a more sustainable future.
BOD is a fundamental indicator of the organic content in wastewater. It measures the amount of oxygen that microorganisms need to break down organic matter present in the water. In essence, BOD quantifies the level of biodegradable pollutants in the water, reflecting the potential for oxygen depletion in receiving water bodies like rivers or lakes.
A higher BOD value indicates a larger load of organic matter and a greater demand for oxygen-consuming microbial activity during decomposition.
TSS refers to the concentration of solid particles suspended in wastewater. These particles include a wide range of materials such as organic matter, inorganic compounds, and microorganisms.
TSS measurement is crucial as it helps evaluate the effectiveness of primary treatment processes that aim to remove larger solid particles from the wastewater.
Elevated TSS levels can lead to adverse environmental impacts, such as reduced light penetration in water bodies and interference with aquatic life.
The pH level of wastewater indicates its acidity or alkalinity. pH influences various biological and chemical reactions that occur during the treatment process. Extremes in pH can affect the efficiency of microbial activity and the stability of treatment chemicals. Maintaining an appropriate pH range is essential to ensure optimal treatment performance.
Phosphorus is a nutrient that can lead to eutrophication if present in excessive amounts. It promotes the growth of algae and aquatic plants, which can lead to oxygen depletion and negatively impact aquatic ecosystems. Accurate measurement of phosphorus concentration helps control nutrient loading and mitigate eutrophication.
Wastewater treatment plants play a vital role in safeguarding the environment by treating and purifying sewage before it is released back into natural water bodies. The effectiveness of these treatment processes relies on accurate measurement and monitoring of various parameters that indicate the level of contamination and the efficiency of treatment. Among these parameters, Biochemical Oxygen Demand (BOD), Chemical Oxygen Demand (COD), and Total Suspended Solids (TSS) are some of the most crucial factors that provide insights into the quality of wastewater and the performance of treatment systems.
A successful wastewater treatment process hinges on precise measurement and monitoring of key parameters like BOD, COD, TSS, pH, ammonia, nitrogen compounds, and phosphorus. These measurements offer insights into the nature and extent of pollution in wastewater, guide treatment strategies, and ensure compliance with environmental regulations. By comprehensively understanding these measurement factors, wastewater treatment plants can contribute significantly to safeguarding the environment and maintaining the health of our water bodies.
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