Concentrated eco-friendly drain cleaner
Eco-friendly mosquito and fly repellent
T1B™ Eco Clean
Concentrated eco-friendly surface cleaner
T1B™ Eco Clean
Concentrated eco-friendly urinals for waterless urinals
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Natural Cleaners FAQs
Chemical and bio-enzyme cleaners are used to clean surfaces and remove stains, but they work in different ways and have different properties.
Chemical cleaners: Chemical cleaners are substances that are used to clean surfaces and remove stains by breaking down or dissolving dirt or stains. They typically work through a chemical reaction and can be harsh on surfaces and the environment. They can also be toxic to humans, animals and plants.
Bio-enzyme cleaners: Bio-enzyme cleaners are cleaning products that contain microorganisms, such as bacteria and enzymes, that work together to break down dirt and stains. They are biodegradable, non-toxic and non-corrosive, and typically use natural ingredients. They work through a biological process, which means that the microorganisms consume the dirt and stains, breaking them down into harmless by-products.
Effectiveness: Chemical cleaners are usually more effective at removing heavy stains and grime, and often require less contact time to clean surfaces. However, bio-enzyme cleaners are more effective in breaking down organic materials and can be used for a wide range of cleaning tasks, including kitchen and bathroom cleaning, laundry and degreasing.
Safety: Chemical cleaners can be dangerous if not used properly and can cause skin irritation, respiratory issues and other health problems. On the other hand, bio-enzyme cleaners are generally considered safer to use, as they are non-toxic and biodegradable.
Environmental impact: Chemical cleaners can have a negative impact on the environment, as they can pollute the water and harm aquatic life. Bio-enzyme cleaners, on the other hand, are considered to be more environmentally friendly, as they are biodegradable and do not release harmful chemicals into the environment.
A bio enzyme-based cleaner works by using enzymes produced by microorganisms, such as bacteria to break down and remove organic substances from surfaces. Bio enzyme-based cleaners contain a mixture of enzymes that are specifically designed to break down specific types of organic substances, such as fats, oils, proteins, and starches. When the cleaner is applied to a surface, the enzymes begin to break down the organic substances into smaller, water-soluble molecules, which can then be easily rinsed away.
Bacteria and enzymes are linked in several ways, as bacteria can both produce and utilize enzymes. Bacteria can produce a wide range of enzymes that are used for a variety of purposes, such as breaking down organic matter for energy, synthesizing and modifying cellular components, and defending against competitors and predators. Bacteria can secrete these enzymes into the environment, where they can be used to degrade organic matter, carry out metabolic processes, and carry out other functions that are important for the bacteria’s survival and growth.
Some bacteria rely on enzymes produced by other bacteria or organisms to carry out important metabolic processes. For example, some bacteria may use enzymes produced by fungi or other bacteria to break down complex carbohydrates or lipids, which they cannot degrade themselves.
Bacteria can also interact with each other through enzymes. For example, some bacteria produce enzymes that can inhibit the growth of competing bacteria, allowing them to outcompete their rivals for resources.
Some of the most important enzymes in wastewater treatment include:
Proteases: These enzymes break down proteins into smaller peptides and amino acids, which can be further broken down by other microorganisms.
Lipases: These enzymes break down fats and oils into simpler compounds such as fatty acids and glycerol.
Cellulases: These enzymes break down cellulose, a complex carbohydrate found in plant material, into simpler sugars that can be used as a source of energy for microorganisms.
Amylases: These enzymes break down starches and other complex carbohydrates into simpler sugars.
Laccases: These enzymes are used in the removal of recalcitrant pollutants such as dyes, lignin, and phenols.
Phosphatases: These enzymes help in the removal of phosphates, which can contribute to the eutrophication of water bodies.
Ureases: These enzymes are used in the breakdown of urea, a common source of ammonia in wastewater.
Xylanases: These enzymes break down xylan, a complex carbohydrate found in plant material.
Peroxidases: These enzymes help in the removal of pollutants such as pesticides and heavy metals.
Pectinases: These enzymes break down pectin, a complex carbohydrate found in plant cell walls
Overall, the relationship between bacteria and enzymes is complex and multifaceted, as bacteria can both produce and utilize enzymes to carry out a wide range of functions that are essential for their survival and growth.
Bacteria are microorganisms that can consume organic matter and pollutants as a source of energy and nutrients. Enzymes are catalysts that help speed up chemical reactions within the bacteria, allowing them to break down pollutants more efficiently.
When pollutants are present in wastewater, the bacteria will consume them as a source of energy. As the bacteria consume the pollutants, they also secrete enzymes that can break down the pollutants into simpler compounds. These enzymes can break down complex molecules such as proteins, carbohydrates, and fats into smaller, more manageable compounds that can be further broken down by the bacteria. A very good example is, when a protein-based pollutant is present in the wastewater, the bacteria will consume it and secrete proteases, enzymes that break down proteins into peptides and amino acids. These smaller compounds can then be used by the bacteria as a source of energy, or further broken down into simpler compounds such as carbon dioxide and water. Enzymes also play a very important role to remove recalcitrant pollutants such as dyes, lignin, and phenols, which are difficult to treat with conventional methods.
Endoenzymes and exoenzymes are two types of enzymes that play important roles in a variety of biological processes.
Endoenzymes: Endoenzymes are enzymes that are produced by cells and function within the cell. These enzymes are involved in a variety of cellular processes, such as metabolism, DNA replication and repair, and protein synthesis. Endoenzymes play a critical role in maintaining the health and function of cells by catalyzing a wide range of chemical reactions.
Exoenzymes: Exoenzymes are enzymes that are produced by cells and secreted into the environment. These enzymes play a critical role in breaking down complex molecules, such as carbohydrates, proteins, and lipids, into simpler compounds that can be used by cells as a source of energy and nutrients.
Natural mosquito and fly repellents release chemicals that mask insect’s scents to locate hosts or
mates. These natural repellents typically use essential oils or other plant-based compounds that are
effective in repelling mosquitoes and flies.
One common natural mosquito and fly repellent is citronella oil. Citronella oil is derived from the citronella plant and works by masking the chemicals that mosquitoes and flies use to locate hosts and mates. When applied to any surface or sprayed, it creates a barrier that makes it difficult for the insects to detect the presence of humans. Another natural mosquito and fly repellent is lemon eucalyptus oil. It contains a compound called PMD (p-menthane-3,8-diol) which is effective in repelling mosquitoes. Other natural ingredients that can be used as mosquito and fly repellents include catnip oil, peppermint oil, and thyme oil. These oils contain compounds that are known to be effective in repelling mosquitoes and flies. It is important to note that not all natural repellents are effective against all types of insects, and some may be more effective in certain situations or against certain species of insects.