Conferences and Training will help you sharpen your skills and expand your professional network.


Pilot testing enables our customers to verify the feasibility of the proposed separation processes.


If the development is technology driven, R&D is directed toward developing products to meet the unmet needs.



To provide skilled manpower to the industry


As an individual you can avail various benefits from the bandwagon of services we carry out. You can be a student currently studying in your 3rd/4th year, a recently passed out student or even a professional pursuing a career in the environment sector to be eligible for this category of services.


For an Industry it becomes all the more essential to be trained. Be it your operators or the EHS Managers who are the backbone behind STP/ETP/WTP/APC etc. Go through our entire content to learn more about what is being offered.


We are aiming to improve Industry-Institute interaction and in doing so 50% of the change that we are trying to aim will have to come from the institute’s side only. We are aiming to sign MOUs with colleges and institutes so that both the institute and its student can get benefited from the same.

Job opportunities in Environment Sector are growing rapidly

“Tesla Innovation Center (TIC)” is a facility created by Tesla Innovation Pvt Ltd, SINE, IIT Bombay, Mumbai keeping focus on enhancing employability and professional skills.

TIC offers training for Civil/Chemical/Environment/Biotech Engineers who wish to take up/pursue their career in “Environment Engineering Sector”. TIC is equipped with more than 20 working pilots for technologies in air, water, wastewater and solid waste.

Furthermore, you can get hands-on training on the operation of equipment and instruments for monitoring and analysis of air and water quality. With more than 200 clients, TIPL will also facilitate the placements for deserving candidates.

What is the need to get trained?


Design Hands on Training O&M Troubleshooting R&D
CSTR - Biogas X X X
UASB - Biogas X X X
Primary Treatment X X X X
Electrocoagulation X X X
Dissolved Air Floatation X X X X
Pressure Sand Filter X X X
Activated Carbon Filter X X X X
Softener X X X
Demineralisation Plant X X X
Adsorption For Heavy Metals X X
Reverse Osmosis X X X
Nano Filtration X X X X
Ultra-Filtration X X X X
Acid Recovery X X X
Caustic Recovery X X X
Dyes & Salt Recovery X X X
Coolant Recovery System X X
Bio Tower X X X X
Algal Bio Sequestration X X X X
Photo Catalytic Reactor X X X
Detox-250 X X X X
Cyclone Separator X X X
Wet Air Scrubber X X X
Venturi Scrubber X X X
Bag House Filtration X X X
Electrostatic Precipitator X X X
Indoor Air Purifier X X X
RO Simulation Software X X
Costing & Proposals (Basics & Case Studies) X X
Personality Development X
Mock Interview X
Aquifer Assessment - Case Study X X
Solid Waste Management X X
MEE Basic Design & Key Challenges X X
Lab Training X X
Health & Safety X X
Internal Assessment
Introduction To OSS X X X


We focus on bringing out more & more advanced technologies for you to take trials

Detox 250™

Advanced Oxidation Processes (AOP) refer to a set of oxidative water treatments that can be used to treat toxic effluents at the industrial level and wastewater treatment plants. AOPs are efficient methods to remove organic contamination not degradable by means of biological processes.

Pressurized Bio Reactor

Efficiency of the bioreactors have long been vitiated due to low Oxygen mass transfer from air to liquid phase. It is a well-known fact that Bioreactors are space intensive treatment units. An increase in oxygen transfer rate can be the key to overcome the Oxygen limitation. TESLA Innovations Pvt. Ltd. is on its way to develop an innovative technology based on pressurised bio-reactor for effluent treatment.

Wet Air Oxidation

Wet oxidation is a form of hydrothermal treatment. It is the oxidation of dissolved or suspended components in water using oxygen as the oxidizer. It is referred to as “Wet Air Oxidation” (WAO) when air is used. The oxidation reactions occur in superheated water at a temperature above the normal boiling point of water (100 °C), but below the critical point (374 °C).

Ultra Filtration

Ultrafiltration (UF) is a type of membrane filtration in which hydrostatic pressure forces a liquid against a semipermeable membrane. A semipermeable membrane is a thin layer of material capable of separating substances when a driving force is applied across the membrane.


Reverse osmosis (RO) is a water purification technology that uses a semipermeable membrane to remove ions, molecules, and larger particles from drinking water. In reverse osmosis, an applied pressure is used to overcome osmotic pressure, a colligative property, that is driven by chemical potential differences of the solvent, a thermodynamic parameter.


The MBBR system consists of an aeration tank with special plastic carriers that provide a surface where a biofilm can grow. The carriers are made of a material with a density close to the density of water. The carriers will be mixed in the tank by the aeration system and thus will have good contact between the substrate in the influent wastewater and the biomass on the carriers which will help to oxidise the soluble organic matters into H2O and CO2.


Electrocoagulation (EC) is a broad-spectrum treatment technology that removes total suspended solids (TSS), heavy metals, emulsified oils, bacteria and other contaminants from water.

Photo catalytic Reactor

Firstly, the quartz reactor will be filled with wastewater. Then the catalyst namely titanium dioxide will be added from material port. For proper mixing a magnetic stirrer will be provided. After proper mixing of catalyst, the UV lamp will be started. This will excite the semiconductor catalyst into charge separation and electron hole pairs. The electrons and holes, on separation, assist in the production of the very reactive hydroxyl radical in the aqueous phase which can destroy many toxic organic pollutants.

Coolant Recovery System

The invention of coolant revolutionized the operations of engineering industries – but have equally created a negative impact on the environment as they are highly non bio-degradable and polluting.
Upon continuous usage in the machine, soluble cutting oil need replacement, primarily due to bad odor, biological degradation and accumulation of different types of particulate matter, each having a deterrent effect on the coolant’s performance and life.
Our Coolant Recovery System has been designed to eliminate the contaminants in coolant – which are mainly tramp oil & bacteria – without altering the properties of the original emulsion. This enables increase in coolant cycle times, thereby reducing both procurement of fresh oil as well as frequency of discharge.