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Odor Supression spray - for Biogas Plants
Pro-Odor-Spray-1
Pro-Odor-Spray-1
Pro-Odor-Spray-1
NRT has developed nanomaterials which can be mixed with bio-waste to suppress the sulfur or ammonia smell
Suppressing bad odors in biowaste involves neutralizing or masking volatile compounds such as acidic gases and volatile organic compounds (VOCs).
Pro-Odor-Spray-1
(Acid Clenz)
Oxidizes organic odorants and reduces microbial activity
NRT has developed nanomaterials which can be mixed with bio-waste to suppress the sulfur or ammonia smell
Suppressing bad odors in biowaste involves neutralizing or masking volatile compounds such as acidic gases and volatile organic compounds (VOCs).
Pro-Odor-Spray-1
(Acid Clenz)
Oxidizes organic odorants and reduces microbial activity causing odors.
1L - Rs. 150/- (excluding GST)
5L - Rs. 700/- (excluding GST)
Pro-Odor-Spray-2
Pro-Odor-Spray-1
Pro-Odor-Spray-1
NRT has developed nanomaterials which can be mixed with bio-waste to suppress the sulfur or ammonia smell
Helps neutralize alkaline compounds like ammonia.
Pro-Odor-Spray-2
(Ammonia Clenz)
Neutralizes ammonia odors by lowering pH.
Helps neutralize alkaline compounds like ammonia.
1L - Rs. 150/- (excluding GST)
5L - Rs. 700/- (excluding GST)
Pro-Odor-Spray-3
Pro-Odor-Spray-1
Pro-Odor-Spray-3
NRT has developed nanomaterials which can be mixed with bio-waste to suppress the sulfur or ammonia smell
Reduces odor by neutralizing acidic gases and creating an unfavorable environment for odor-causing bacteria.
Pro-Odor-Spray-3
(Sulfur Clenz)
Suppresses hydrogen sulfide formation by creating an environment favorable for non-odorou
NRT has developed nanomaterials which can be mixed with bio-waste to suppress the sulfur or ammonia smell
Reduces odor by neutralizing acidic gases and creating an unfavorable environment for odor-causing bacteria.
Pro-Odor-Spray-3
(Sulfur Clenz)
Suppresses hydrogen sulfide formation by creating an environment favorable for non-odorous sulfur-oxidizing bacteria.
1L - Rs.200/- (excluding GST)
5L - Rs. 800/- (excluding GST)
Pro-Odor-Spray-4
Pro-Odor-Spray-1
Pro-Odor-Spray-3
NRT has developed spray for waste bin odor suppression at homes / restuarants
Reduces odor by neutralizing acidic gases and creating an unfavorable environment for odor-causing bacteria.
Pro-Odor-Spray-4
(H2S Clenz)
Suppresses hydrogen sulfide formation by creating an environment favorable for non-odorous sulfur-oxidizing bacteria.
20
NRT has developed spray for waste bin odor suppression at homes / restuarants
Reduces odor by neutralizing acidic gases and creating an unfavorable environment for odor-causing bacteria.
Pro-Odor-Spray-4
(H2S Clenz)
Suppresses hydrogen sulfide formation by creating an environment favorable for non-odorous sulfur-oxidizing bacteria.
200 ml - Rs.250/- (excluding GST)
1L - Rs.300/- (excluding GST)
5L - Rs. 1500/- (exl.GST)
pH control in Biogas Reactors
Pro-pH-Spray-A
Pro-pH-Spray-A
Pro-pH-Spray-A
pH control in bioreactors is crucial for optimizing microbial or enzymatic activity and ensuring efficient bioprocessing. Both acidic and alkaline liquids are used to maintain the pH within the desired range.
Acidic Liquids for pH Lowering
Pro-pH -Spray-A
(pH -Acidic Clenz)
Advantages:
Adds potassium ions, beneficial for some microbial pro
pH control in bioreactors is crucial for optimizing microbial or enzymatic activity and ensuring efficient bioprocessing. Both acidic and alkaline liquids are used to maintain the pH within the desired range.
Acidic Liquids for pH Lowering
Pro-pH -Spray-A
(pH -Acidic Clenz)
Advantages:
Adds potassium ions, beneficial for some microbial processes
Adds sulfate ions, which may influence sulfate-reducing bacteria
1L - Rs. 250/- (excluding GST)
5L - Rs. 800/- (excluding GST)
Pro-pH-Spray-B
Pro-pH-Spray-A
Pro-pH-Spray-A
pH control in bioreactors is crucial for optimizing microbial or enzymatic activity and ensuring efficient bioprocessing. Both acidic and alkaline liquids are used to maintain the pH within the desired range.
Acidic Liquids for pH Lowering
Pro-pH -Spray-B
(pH- Acidic Clenz)
Advantages:
entile pH reduction; acts as a chelating agent
Provi
pH control in bioreactors is crucial for optimizing microbial or enzymatic activity and ensuring efficient bioprocessing. Both acidic and alkaline liquids are used to maintain the pH within the desired range.
Acidic Liquids for pH Lowering
Pro-pH -Spray-B
(pH- Acidic Clenz)
Advantages:
entile pH reduction; acts as a chelating agent
Provides a carbon source for some microbes
1L - Rs. 250/- (excluding GST)
5L - Rs. 800/- (excluding GST)
Pro-pH-Spray-C
Pro-pH-Spray-A
Pro-pH-Spray-C
pH control in bioreactors is crucial for optimizing microbial or enzymatic activity and ensuring efficient bioprocessing. Both acidic and alkaline liquids are used to maintain the pH within the desired range.
Alkaline Liquids for pH Lowering
Pro-pH -Spray-C
(pH- Alkaline Clenz)
Advantages:
Adds potassium ions, beneficial for some microbial
pH control in bioreactors is crucial for optimizing microbial or enzymatic activity and ensuring efficient bioprocessing. Both acidic and alkaline liquids are used to maintain the pH within the desired range.
Alkaline Liquids for pH Lowering
Pro-pH -Spray-C
(pH- Alkaline Clenz)
Advantages:
Adds potassium ions, beneficial for some microbial processes
Adds nitrogen, useful in some fermentation processes
1L - Rs. 250/- (excluding GST)
5L - Rs. 800/- (excluding GST)
Higher Biomethane Producing materials
CAT-MAT-1
CAT -NANO-3
CAT-ENZY-2
Improving methane production in biogas reactors involves enhancing the efficiency of the anaerobic digestion process. This can be achieved by using chemicals or catalysts that optimize microbial activity, stabilize the system, or enhance the breakdown of organic matter.
Microorganisms involved in methanogenesis require essential nutri
Improving methane production in biogas reactors involves enhancing the efficiency of the anaerobic digestion process. This can be achieved by using chemicals or catalysts that optimize microbial activity, stabilize the system, or enhance the breakdown of organic matter.
Microorganisms involved in methanogenesis require essential nutrients for optimal activity:
Cat- Mat- 1
Advantages:
- Improves enzymatic activity in methanogens and helps reduce hydrogen sulfide (H₂S) by precipitating sulfides
- Essential for the enzyme methyl-coenzyme M reductase in methanogenesis
- enhance microbial metabolic pathways
Available Packs:
1Kg - Rs. 1500/- (excluding GST)
10kg - Rs. 12500/- (excluding GST)
NOTE:
In a study using food waste, adding 1 kg metal oxide per m³ increased methane yield by 25% compared to the control reactor.
CAT-ENZY-2
CAT -NANO-3
CAT-ENZY-2
Improving methane production in biogas reactors involves enhancing the efficiency of the anaerobic digestion process. This can be achieved by using chemicals or catalysts that optimize microbial activity, stabilize the system, or enhance the breakdown of organic matter.
Advantages:
Break down complex organic matter (e.g., cellulose, fat
Improving methane production in biogas reactors involves enhancing the efficiency of the anaerobic digestion process. This can be achieved by using chemicals or catalysts that optimize microbial activity, stabilize the system, or enhance the breakdown of organic matter.
Advantages:
Break down complex organic matter (e.g., cellulose, fats, proteins) into simpler compounds, improving feedstock digestibility.
Cat- Enzy-2
Available Packs:
(on special request only)
1Kg - Rs. 1500/- (excluding GST)
10kg - Rs. 12500/- (excluding GST)
NOTE:
- A study on treated with an enzyme cocktail showed a methane yield increase from 200 mL/g VS to 300 mL/g VS, a 50% increment.
- In food waste, adding enzyme (0.2 kg/m³) increased methane production by 20% compared to untreated waste.
CAT -NANO-3
CAT -NANO-3
CAT -NANO-3
Improving methane production in biogas reactors involves enhancing the efficiency of the anaerobic digestion process. This can be achieved by using chemicals or catalysts that optimize microbial activity, stabilize the system, or enhance the breakdown of organic matter.
Advantages:
Enhances interspecies electron transfer between bacteri
Improving methane production in biogas reactors involves enhancing the efficiency of the anaerobic digestion process. This can be achieved by using chemicals or catalysts that optimize microbial activity, stabilize the system, or enhance the breakdown of organic matter.
Advantages:
Enhances interspecies electron transfer between bacteria and methanogens
Improve enzymatic activity and methane production.
Cat- nano-3
NOTE: Methane production can increase by 20–50% depending on the dosage (typically lower, around 0.1–0.5 kg/m³).
Available Packs:
1Kg - Rs. 2500/- (excluding GST)
10kg - Rs. 22500/- (excluding GST)
NOTE:
- In a study with cow manure as feedstock, the addition of 1 kg of Nanocatalyst per m³ reactor volume resulted in a methane yield increase from 200 mL/g VS (volatile solids) to 260 mL/g VS—a 30% increase.
- For food waste and sludge, similar dosages have yielded a 15–40% increment in methane production.
membranes for separation of CH4 and CO2
CO2 Membrane-1
CO2- Membrane-2
CO2- Membrane-2
Chemical membranes are widely used for the separation of biomethane (CH₄) from carbon dioxide (CO₂) in biogas upgrading systems. These membranes leverage differences in permeability, solubility, or reactivity between CH₄ and CO₂ to achieve efficient separation.
Advantages:
- Characteristics: High thermal and chemical stability.
- Application:
Chemical membranes are widely used for the separation of biomethane (CH₄) from carbon dioxide (CO₂) in biogas upgrading systems. These membranes leverage differences in permeability, solubility, or reactivity between CH₄ and CO₂ to achieve efficient separation.
Advantages:
- Characteristics: High thermal and chemical stability.
- Application: Suitable for CO₂/CH₄ separation due to high CO₂ permeability.
CO2- Membrane-2
CO2- Membrane-2
CO2- Membrane-2
Chemical membranes are widely used for the separation of biomethane (CH₄) from carbon dioxide (CO₂) in biogas upgrading systems. These membranes leverage differences in permeability, solubility, or reactivity between CH₄ and CO₂ to achieve efficient separation.
Advantages:
- Characteristics: CO₂ reacts chemically with funtional groups, ena
Chemical membranes are widely used for the separation of biomethane (CH₄) from carbon dioxide (CO₂) in biogas upgrading systems. These membranes leverage differences in permeability, solubility, or reactivity between CH₄ and CO₂ to achieve efficient separation.
Advantages:
- Characteristics: CO₂ reacts chemically with funtional groups, enabling high selectivity.
- Application: Used in systems where high CO₂ concentration removal is required.
CO2 Membrane-3
CO2- Membrane-2
CO2 Membrane-3
Chemical membranes are widely used for the separation of biomethane (CH₄) from carbon dioxide (CO₂) in biogas upgrading systems. These membranes leverage differences in permeability, solubility, or reactivity between CH₄ and CO₂ to achieve efficient separation.
Advantages:
- Characteristics: High surface area and tunable pore size for sele
Chemical membranes are widely used for the separation of biomethane (CH₄) from carbon dioxide (CO₂) in biogas upgrading systems. These membranes leverage differences in permeability, solubility, or reactivity between CH₄ and CO₂ to achieve efficient separation.
Advantages:
- Characteristics: High surface area and tunable pore size for selective CO₂ adsorption.
- Application: Used in advanced biogas upgrading systems.
Biowaste converion to Agri Manure
Biowaste to Agri Manure-1
Biowaste to Agri Manure-1
Biowaste to Agri Manure-1
Converting biowaste slurry into agricultural manure with maintained NPK (Nitrogen-Phosphorus-Potassium) values involves optimizing its nutrient profile by adding cost-effective chemical and natural amendments.
Biowaste to Agri Manure-2
Biowaste to Agri Manure-1
Biowaste to Agri Manure-1
Converting biowaste slurry into agricultural manure with maintained NPK (Nitrogen-Phosphorus-Potassium) values involves optimizing its nutrient profile by adding cost-effective chemical and natural amendments.
Biowaste to Agri Manure-3
Biowaste to Agri Manure-1
Biowaste to Agri Manure-3
Converting biowaste slurry into agricultural manure with maintained NPK (Nitrogen-Phosphorus-Potassium) values involves optimizing its nutrient profile by adding cost-effective chemical and natural amendments.
Nanomaterials for BioFuel Production
Biofuel Production
NRT provides Nanoctalaysts used in Biofuel production: Ni catalyst, CeO2 catalyst, ZnAl2O4 catalyst
Biofuel synthesis
NRT provides nanomaterial's for biofuel synthesis :
ZnO, Indium Tin Oxide (ITO), CeO2
Biomass pretreatment
NRT provides nanomaterials for biomass pretreatment process:
Nanofibrilated cellulose, mesoporous silica, zeolites (MgAl2O4)
Combo offer...for all sectors
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25% off on MRP on all Products
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