Payment & Shipping Terms:
|Length:||31M Or Customized||Working Temperature:||201 Degrees Celsius|
|Plate Thickness:||16mm||Main Material:||Q345R|
|Working Medium:||Saturated Steam And Condensed Water||Rail Distance:||600*150mm(12KG)|
fully automatic autoclave,
aac block plant,
ASME Certificate AAC Autoclave
AAC Autoclave With ASME Certificate And Mechanical Safety Interlock
1. AAC Block Cutting machine preparation work
1. Land of 4 Acres is Required
2. Workshop area –approximately 30000 Sq Mt or 30000 sft
3. Total Plant area( construction area ) = 4500 Sq Mt or 45000 sft
4. Power connection needed – 500 KVA
5. Ideal manpower requirement is 40 nos. (Skilled – 10, semi skilled-10 and unskilled 20)
6. Skill division 40 workers = Main plant 2 nos of 10 hour shifts 15 people each + Boiler & Autoclave section 3 people in 3 shifts of 8 hours
7. Water requirement approximately 225 Tons per Day.
8. Fly Ash requirement approximately 225 Tons per day
9. The above power and plant calculations are based on Fly ash based AAC without Lime Crushing Unit and Ball mill for sand. If the process so require, we may add them at a later stage. But surely we give provisions for them at site right from installation stage
10. 300 working days is considered in a year through 333 days a year is possible.
11 Fly to be provided free of cost by power plants. Only transportation to be arraigned by Project. Average distance of 250 KM
12. Carbon Credit is estimates are for reference purpose. The Project owner must handle his part of CDM project to get Carbon credits, through independent consultants. Please check the form of CDM after 2012
13. AAC Blocks of all sizes will be manufactured according to the market requirement, though mainly stipulated sizes as per the BIS standards.
2. AAC Block Cutting machine WORKING PROCESS
The Process of manufacture is simple t follow, and complex to implement.
First, the Fly Ash is mixed with water, and made Slurry in a slurry mixture. If Sand is used as a base material, we need a ball mill to grind the sand to fine power. The slurry making process is same sand.
After Slurry is made, the slurry is stored in slurry storage tank, where the slurry is constantly agitated. Care is taken to run the slurry storage tank all the time, so that is never settles down the particles.
Then a weigh batcher weighs the Slurry, lime, OPC, Gypsum and aluminum power in preset quantities, and mixes thoroughly. The mixture also pours the mix into the Mould carried n the mould cart. The full pouring of the mixture is just enough to fill around 50% of the mould.
Then the mould is kept in a warm chamber for 2 hours, so that the aeration and the light initial setting takes place. Next process is de-molding process of the big block, in which a sophisticated overhead hoist takes the mould, demoulds the block.
Next process is the level wire cutting of the Block, while the block passes on the cutting trolley through the series of wires. This process follows a vertical wire cutting where as the block remains stationary, and the cutter cuts the block vertically.
The final cut blocks are Steam cured in autoclaves for 8 hours at 12 KG/Sq cm pressure, and 200D C.
3. AAC Block Cutting machine RAW MATERIAL
Fly-Ash: A lot has been said about this raw material in this Project Profile itself. But this Raw material is freely available in Thermal Power plants. There are no taxes on this item whatsoever. Transportation charges are only to be attended by the entrepreneur.
Lime: Active powered lime is a requirement for giving the real aeration to the product. In phase 1 we can aim to buy the active lime directly. In phase -2 we can think of having backward integration and making a lime powering unit at site to have a more competitive advantage, We can also think of a lime burning klin inside the factory premises. The project financials however have not considered the costs of powering unit, and the lime kiln in this project. Different qualities of lime are available, and depending on the raw materials, the mix design can be chosen to get the optimal quality of production.
OPC. This Project aims to utilize OPC cement as main binder material. It will give faster strength to the bricks, besides giving improved consistent quality. It also ensures a better cost effectiveness for the same. Using OPC will be a standardized practice. The other prime advantages of using OPC (compared to other binders) is it’s easy availability locally through nationwide Retail Network of Cement Companies.
Gypsum: This too is an industrial waste. This is available as an industrial byproduct of Fertilizer Plant. Gypsum is responsible to give long term strength to the Blocks.
Aluminum Power. Finely ground Aluminum power is used in very limited quantity ( less than 0.5%), so that it reacts with active lime, and silica in base material to make the aeration.
4.AAC block advantages
3. Environmental friendly: needs no burning/backing
4. Strength: Higher Strength Bricks.
5. Uniform Shape: Easier and faster Brick working.
6. Uniform Shape: Less Mortar in Brick work.
7. Uniform Shape: Less Mortar in Plaster.
8. Natural Concrete: Gains strength over time.
9. Natural Concrete: Walls can be left exposed/un pl
10. Better heat & sound insulation compared to red B
11. Far Lesser brakeage during handling & transporta
12. Better Vibration resistance compared to red Brick
13. Light weight : Faster and easier transportation
14. Light weight : Faster and easier brickwork
15. Light weight : saves structural concrete by 35%
Contact Person: Olymspan