Itajai Renewable Energy
ITAJAI RENEWABLE ENERGY - INDIA
Itajai Renewable Energy, a unit of Itajai Groups is a company leading the future for reducing the dependency on fossil fuels by focusing on alternate fuel-Biodiesel, Algae to Biofuels, Co2 Mitigation, Solar Energy, Wind Energy and converting post consumed waste plastics and Municipal Solid Waste to Crude Oil, Green Hydrogen gas, Carbon Pellets etc.
Working across years in R&D, the company has inculcated and combined novel amelioration technology solutions for advanced recycling and purification of landfill and ocean waste plastics.
We are associated with waste management companies that has state-of-the-art research and development units that focus on developing advanced waste management, waste to energy technologies. IRE takes pride in getting pioneer solutions from Indian Institute of Petroleum, a unit of Council of Scientific & Industrial Research and Indian Institute of Technology.
Our Services
BIOMASS ENERGY
- Used Cooking Oil to Bio Diesel
- Wet Waste to Bio Gas Plant
- Biomass to Pellets, Briquettes
- Algae to Biofuel & High Value Human Protein feed/ CO2 Mitigation through Algae Photo bioreactor
- Containerized Hydroponic vertical farming
PORTABLE DESALINATION PLANT
- Floating Desalination Plant
- Containerized Desalination Plant
SOLAR POWER PLANTS WITH ENERGY STORAGE
- On grid Solar Power Plant
- Off grid Solar Power Plant
- Floating Solar Power Plant
WASTE MANAGEMENT
- Conversion of Dry Waste Plastic to Fuel oil/ Hydrocarbon derivatives.
- Erection & Commissioning/Operation and Maintenance of Waste to Energy Complex. •
- Sewage Treatment Plant
TIDAL ENEGRY
- Tidal Dams, Barrages & Lagoons
- Tidal Stream Turbine
WIND ENERGY
- On Shore Wind Turbines
- Off Shore Wind Turbines
- Portable Wind Turbines
WASTE MANAGEMENT
Waste management (or waste disposal) includes the processes and actions required to manage waste from its inception to its final disposal. This includes the collection, transport, treatment and disposal of waste, together with monitoring and regulation of the waste management process and waste-related laws, technologies, economic mechanisms
BIOMASS ENERGY
Bioenergy Is an Energy Generated From Organic Matter, Such As Biomass, Biodegradable Agricultural & Industrial Wastes, Municipal Solid Waste, Sewage/waste Water Etc.
Traditionally, Bioenergy, Mostly In The Form Of Heat, Was Generated From The Combustion Of Biomass In The Forms As Wood, Animal Waste And Traditional Charcoal.waste/ Bio-mass Sources Like Agricultural Residue, Poultry Waste, Cattle Dung, Sugarcane Press Mud, Municipal Solid Waste And Sewage Treatment Plant Waste, Etc. Produce Biogas Through The Process Of Anaerobic Decomposition And Biomass Pellets Are Produced From The Left Over Residues.
With Advent Of Modem Technologies/processes, Bioenergy Is Now Generated In The Form Of Power And Fuels Like Biogas, Biocng, Liquid Biofuels, Pellet/briquettes Etc.
TIDAL ENERGY
Tidal Energy Is One Of The Largest Untapped Sources Of Renewable Energy In The World.
Tidal Energy Is A Clean, Safe And Reliable Source Of Energy. It Is A Form Of Hydrokinetic Power, Which Is Harvested By Capturing The Energy From Tidal Currents And Converting It Into Electricity.
The Gravitational Forces Of Celestial Bodies Are Not Going To Stop Anytime Soon. Furthermore, As High And Low Tide Is Cyclical.
Tidal Power Is Also Relatively Prosperous At Low Speeds, In Contrast To Wind Power. Water Has One Thousand Times Higher Density Than Air And Tidal Turbines Can Generate Electricity At Speeds As Low As lm/s, Or 2.2mph. In Contrast, Most Wind Turbines Begin Generating Electricity At 3m/s-4m/s, Or 7mph-9mph.
The Main Challenge Is To Install These Turbines In The Oceans And Maintain Them There At Acceptable And Competitive Costs. Using Our Expertise In The Design Of Floating Systems, Marine Operations And Offshore Maintenance It’s Made Easier.
CNG CONVERSION KITS
CNG Compressed Natural Gas is one of the most viable alternative fuel options today.
CNG is gaseous fuel and is a mixture of hydrocarbons mainly Methane. It is natural gas compressed to a pressure of 200-250 Kg/cm2 to enhance the vehicle on-board storage capacity. Thus, the compressed form of NG is used as a fuel for transportation purposes.
A CNG conversion kit is a set of components that are installed in a vehicle so it can operate using CNG. CNG conversion kits usually come with parts such as regulator, high pressure tubing and fittings, pressure gauge, filling nozzle, hoses, hose clamps, advance timing processor, fuel change over “ON/Off” switch as well as the necessary wiring, straps and screws.
ADVANTAGES OF CNG:
► ENVIRONMENT FRIENDLY: CNG is clean fuel. Natural gas produces very less hydrocarbon emissions than LPG and petrol.
► CNG IS ECONOMIC: CNG is cheaper than petrol and LPG. It saves money. Clean Engine: CNG is good for car engine. CNG doesn’t harm car engine which happens in LPG. Also spark plugs and converters remain good in CNG.
► EASE OF USE AND FLEXIBILITY: Car runs on both CNG and Petrol. So its option for petrol.
► LUBRICATION: It requires less lubrication.
► CNG IS SAFER: CNG is safer than petrol and diesel. CNG gas tanks are safer and stronger.
PLASTIC TO FUEL
Pyrolysis represents the thermal degradation of materials at high temperatures within an inert atmosphere. . Hence, it is an energy recovery method and a more specific type of waste-to-energy conversion Pyrolysis an advanced proven technology against the Incineration of waste plastics.
Whereas during Incineration the waste plastic directly combusted by flame chances for Air pollution if it is not taken care of proper pollution control measures, also it’s not possible to recover the energy values of the plastic or rubber waste so there are recurring expenses to maintain Incineration.
In Pyrolysis process any combustible material in municipal waste such as Plastics, Rubber, Wood, Cloth, Tyres, etc. can be converted in to useful products without any pollution. Even the Garden waste instead of windrows compost which takes 45 days and huge space we can process in Pyrolysis about 25 Tons in 24 Hours with less space
There are Two Types of Pyrolysis processes:1. Batch Process and 2. Continuous Process, there are many issues in Batch process such as Pollution and operational Risk also poor quality of Carbon and Oil but with less Investment. In fact this process is banned by CPCB in few States in India.
Continuous Process by Fast Pyrolysis to get Quality Products which has good market demand but the plant cost is expensive.
BENEFITS OF THE PROJECT
- Addressing the environment and liquid energy requirements
- Working towards a litter free and cleaner country
- Addressing major environmental issue of waste plastics (non- biodegradable)
- Preservation of the land-fill site
- Import substitution for hydro-carbon derivatives like kerosene, diesel etc.
- Helps in avoiding climate change problems due to burning of plastics and other MSW materials by providing End of Life solution for waste in a safe manner without emitting Green House Gases.
- Helps to decarbonizes the environment and supports COP26 international climate Change goals.
- Waste To Wealth creation
Wet Waste Biogas plant
100kg food waste biogas plant is designed to produce biogas from food waste. It involves the process of converting food waste into renewable energy through anaerobic digestion. To produce non-hazardous biogas from food waste like bread, meat waste, rotten vegetables, rotten fruits, a food waste biogas plant has to be established first and then food waste is dumped into the biogas digester. The waste inside biogas digester starts to decompose in an oxygen- free environment, with the help of microorganisms. With this setup, you can get from 3.0kg to 3.1 kg of liquefied petroleum gas every day with the input of 75kg food waste. The biogas obtained can be captured and used for cooking, generating electricity, etc.
BIODIESEL
- Biodiesel is a clean and renewable energy source produced from vegetable oils, animal fats, and once used cooking oil through a Transesterification process.
- One of the best advantages of biodiesel is using it in the existing diesel engine.
- Reducing Foreign Oil Dependency.
- Reducing Greenhouse Gases.
- Sustainability
- Biodiesel is biodegradable and non-toxic
- High-Quality Engine Performance
- HSD when burnt emits about 10962 gms of CO2 per gallon or 3.78ltrs
- Biodiesel when burnt emits only 2600 gms of CO2 per gallon or 3.78ltrs
- Biodiesel has high OXYGEN content (11 %)
Several industrial use of diesel engines using biodiesel are ,
- Power Generators, Boilers, Dryers, Thermic fluid heaters, Ovens, Furnaces, Kilns, Irrigation Pumps, Construction equipments, Agricultural equipment,bulldozers,Trains and locomotives.
GRAVITY ENERGY STORAGE
- Gravity Storage is a concept with which unprecedentedly large quantities of power can be stored for a long time of 6-14 hours, and can be made available again. The fundamental principle is based on the hydraulic lifting of a large rock mass.
- Gravity Storage is economically superior to all other energy storage and its low operational costs of less than Polymer Energy Technology Pte Ltd(SPV) % capex per year. Small land footprint per KWh
- The Solar Gravity Battery will work to solve the most pressing issue with solar energy production :- energy storage. Solar panels produce energy only in the day, and not at night when electricity is most needed. Our solution is to store it in potential energy
- During the day time, the solar panel will power a motor, that will lift a heavy object. At night, the object will slowly be lowered down, powering a generator, and sending that power to the lamp.
CONTAINERIZED HYDROPONICS FARMING
The concept of container farming makes sense for places, where limited resources and drought frequently hinder food production, and where urbanisation is continuing at a rapid pace.
In fact, a number of local food producers are already successfully using shipping containers to grow everything from Green Vegetables, gourmet mushrooms to fresh-water fish.Urban farms also reduce the need to ship food over long distances, which is financially and environmentally costly.
Practical experience has shown that a single container farm can yield a harvest as high as 6000 plants per week. That’s between 80 and 120 times more than the same space on a traditional farm.
A container farm can also reduce water usage by up to 90 percent.
UV lighting, an irrigation system and environmental sensors that balance temperature, humidity and carbon dioxide levels make it possible to sustain ideal growing conditions year round. Many container farms also feature remote monitoring systems that give farmers access to real-time data via mobile devices.
One of the most pressing issues island communities face is a lack of local food production due to space, climate, and weather restrictions. As a result, many island communities rely on imported food that degrades the local culture and increases the amount of unhealthy food products on the market. Container farming can create a resilient and sustainable local food system.
GREEN HYDROGEN
Green Hydrogen Is Produced Through Electrolysis By Splitting Water Molecules Into Individual Elements. During This Process, Only Hydrogen And Oxygen Is Produced The Oxygen Can Safely Be Released Into The Atmosphere As A By-product. Electrolysis Requires Electrical Energy Generated Through Renewables Like Wind And Solar Power In The Case Of Green Hydrogen. In Addition To Electrolysis, Green Hydrogen Can Also Be Produced By Steam Reforming Of Biomethane And Pyrolysis Of Biogenic Feedstocks. Green Hydrogen Is The Cleanest Way To Produce Hydrogen With The Lowest Possible (close To Zero) Co2 Emissions. The Next Couple Of Years Will Be Decisive For The Fight Against Climate Change. Moving To Green And Low-carbon Hydrogen Is The Goal To Decarbonise Many Sectors Like Heavy Transport And Industry.
OFF SHORE WIND ENERGY TO PRODUCE GREEN HYDROGEN FOR AMMONIA PLANTS