Block Work - Standard Operating Procedure

BLOCKWORK

Introduction:

This standard operating procedure enumerates the scope of AAC Block masonry work to be executed in the Tower area as specified in the approved drawings and at places when instructed by the Tower-in-charge.

Responsibility:  

The respective Tower-in-charge is responsible to execute the work as per the procedure.

Safety & protection:

Blocks shall be stacked properly near the place of work (Do not stack too large quantity  near the work area thereby causing safety hazards)

The height of the stack should not be more than one and a half meters.

Scaffolding to be braced adequately

Working space to be clear of rubbish waste mortar etc so that easy access is ensured.

Scaffolding to be checked for the load-carrying capacity and ensure no overloading.

Material hoists should be checked for load carrying capacity and ensure no overloading. Material hoist third-party safety inspection reports should be submitted by the contractor before using the hoist for material shifting.

Lifting, manual transporting of blocks, etc have to be carried out by workers who are properly trained. Otherwise, this may cause serious injuries to workers.

Chasing in the blockwork has to be carried using appropriate cutting tools only. While chasing the worker must wear proper safety appliances like shoes, goggles, helmets, etc.

Throwing debris from height is strictly prohibited.

Before commencement of blockwork in front of the lift shaft safety permit should be taken.

CT props to be fixed in the front lift shaft to tie the safety belt.

Hard barrication to be cut only by gas cutting (If any anchored in concrete along the openings and edge of the building).

PPEs should be used properly.

Educate the workmen through the pep-talk meetings.

Preparatory works:

Ensure the availability of a detailed layout of the Flat showing room dimensions, the thickness of walls at various locations in the Tower, details of openings (with sizes) to be provided in the walls for doors, windows & other openings. Details of cross walls to ensure proper bond in main walls, location details of concealed items such as electrical conduits, telephone conduits, conduits for TV Antenna wires and cables, location details of items such as water supply pipes with details of the inlet, outlet, and crossings of service lines, sanitary pipes with details of the inlet, outlet and crossings of service lines, openings or holes for positioning of water closet p / straps, openings required for air conditioning ducts, pipe sleeves to be left in walls for other service pipes.

Do check for customer changes prior to execution of blockwork. 

 Starting the blockwork:

Scrub & clean the floor area with the proper tools, where blockwork is to be done.  

Mark the wall lines on the floor to get the proper layout of blockwork, check the clear height between the floor top and the beam bottom/slab bottom, where block work is to be done.

Decide on the thickness of leveling course mortar to avoid wastage/cutting of blocks at the top course and to maintain the gap of 10 to 15mm at top of blockwork. The thickness of leveling course mortar should not be more than 25mm.

Mix quantity of mortar, which will be consumed in the next 2 hours only. Mixing shall be done with proper measurements of ingredients in the proportion of 1:6 with pharma, where 1 part is cement and 6 parts is crush sand. The mixing platform/Tray must be clean. (If more quantity is mixed and will not be consumed within the time, cement will start setting leading to weaker masonry). 

Add water to the dry mix of cement crush sand in the required quantity.

Prepare a scheme of scaffolding, draw a sketch and pass on the same to Workers for execution. Ensure safety aspects such as stability, proper joints, etc. Check and ensure availability of scaffolding materials, access ladder or staircases, working platforms, etc. 

Blockwork base course, alignment & jointing:

Fix one block at both ends of the wall in level as per layout.

Blocks should be wet before placing to avoid absorption of water from mortar.

Carry out leveling course of blockwork with a dry bond (i.e. without mortar in the vertical joints, lay the blocks in position) by fixing line thread on end blocks. Use a piece of plywood to have uniform vertical joints.

Lay mortar for full bed width and for a length of 3 blocks at a time. 

Lay one block at a time & gently pressing it in the mortar bed. 

Excess mortar coming out on the edge (while pressing block in position in bed mortar) to be taken by trowel and reused.  

Use straight edge/spirit levels on top of the blocks laid & check the top level. 

Make sure that the spirit level is in working condition & read the bubble carefully.

Lay the last closure block in the course, to close the bond and locate it to be near the center of the wall normally. 

Check the layout of leveling course blockwork and then fill all vertical joints of blocks with cement mortar.

As soon as mortars in the joints have initially set, use a proper tool and strike the vertical joints first. The horizontal bed joints are to be raked next to a depth of 10 mm.

Curing to the base course should be done for the next 7days. 

Blockwork with Adhesive: 

After completion of the base course, Blockwork should be done with approved block adhesive. 

Block adhesive should be mixed thoroughly with water in the proportion specified by the manufacturer.

Block adhesive should be applied with an adhesive application trowel only to ensure uniform application.

Before starting the block fixing work above the base course, the positions of full and cut (required size) blocks should be finalized to ensure the staggered vertical joints are at least 6 and to minimize the wastage of blocks. This can be done by making elevation sketches/drawings for walls and pass on the same to Workers for execution.

The adhesive should be applied on both faces were block to RCC joint comes and on one face where block to block joints come.

Clean the surface of the block and apply adhesive on it from the end of the wall. Fix the block on adhesive by pressing it within 3 minutes.

For fixing the next block apply the adhesive on two sides (i.e.- the face of the block fixed earlier and at the top of the below block) and fix the block in position with the help of a wooden mallet. 

Each fixed block should be checked for its line, level, and plumb by a mason. 

The thickness of the adhesive is 3 to 4mm if not checked at the time of fixing will result in unleveled blockwork with the cavities in joints.

While fixing the block between two laid blocks, the adhesive should be applied on all three sides of the block.

Repeat the above points for building more courses.

All joints should be sealed from all sides while fixing blocks.

If the corners of blocks are broken then they should be filled and finished to the surface of the wall with cement mortar.

A clear gap of a minimum of 10mm should be left between the topmost layer and the RCC bottom.

This gap should be filled with very lean mortar and 10mm aggregates should be fixed on the surface. 

This is to prevent the cracks afterward in the wall plastering (due to the presence of different materials like block and RCC).

If the gap is bigger than 20mm the mortar with aggregate should be made to fill it.

In the double-wall area, an opening for water drainage and circulation of air should be made in chajja. After doing three layers of blockwork, ghotai to the chajja should be done with a slope towards the opening. Ghotai should be done on all sides of the box up to 300mm in height.

Height of Construction:

No part of the wall during construction shall raise more than one and a half meters above the general construction level.

Curing:

In hot & dry weather the mortar is likely to dry up before it has attained its final set in the blockwork. This leads to the crumbling of mortar and resulting in weak block masonry. This shall be prevented, by keeping the base blockwork layer constantly wet, for at least seven days. Blockwork is done with adhesive doesn't require curing.

Dos & Do not:

Do stack the blocks on a proper platform & clean surface. 

Do stack blocks at just a convenient location for immediate use. 

Do not overrule safety aspects to achieve timely completion.

Important Note: 

New masons should not be deployed directly on work without Training. The quality department will train the masons. On arrival of new masons at the site, information should be provided to the quality department by the respective Tower-in-charge.

Use Adhesive before its expiry date.

Team

CBEC India

Formwork/ Shuttering- Standard Operating Procedures

FORMWORK

Introduction:

This standard operating procedure enumerates the scope of Formwork to be executed in Tower area as specified in the approved drawings and at places when instructed by the Tower-in-charge.

Responsibility:

The respective Tower-in-charge is responsible to execute the work as per procedure.

Safety & protection:

PPEs like safety belts at height, helmets, safety goggles, ear plugs, hand gloves and safety shoes etc. should be used properly. 

Ensure the working area is kept clean for easy access and formwork materials are being stacked correctly.

Proper illumination to be provided during the work, if required.

Educate the workmen through pep-talk meeting. 

 

Preparatory works:

Contractor should submit a Formwork Scheme Drawings for the formwork system which he is going to use at site.

Do calculate total required materials for formwork as per scheme drawing and ensure the availability at site to achieve a cycle time.

Keep 3mm sponge sheet in stock for making old concrete to shutter joint. 

Formwork should be free from damages and holes on it. Do not use damaged shutters; it can be use only after doing correct repairs to the satisfaction level of Tower-in-charge.

In Case of holes on shutter, it should be sealed with PVC plug cap.

Do clean and oil shutters before fixing them in place.

Do not allow contractor to cut the shutters at working area, to prevent saw dust in formwork.

In Load Carrying props ensure Minimum 12mm dia pin is being used.

Work Method:

 

For Columns:

Ensure starters of minimum 6 inches are casted.

Reinforcement is clean and free from mud, oil, mortar droppings, loose rust, paint, oil, grease or other deleterious matter

Before fixing shutters to column, reinforcement should be checked by Tower-in-charge. 

Do use 3mm sponge sheet to seal gap between old concrete and shutter joint by applying it around concreted faces of column and then fix shutter over it.

Fix shutters to column as per scheme drawing.

Check formwork for its Cross sectional size and diagonals.

Check the Plumb of erected formwork.

Do check spacing of formwork primary and secondary member is as per scheme drawing.

For Slabs and Beams:

Ensure column concrete top is below or at beam bottom level.

Do fix shutters as per formwork scheme drawing.

Ensure there should not be any gap between adjacent shutters, in case there is gap it should sealed correctly by fixing rib inside and covering it from top with masking tape.

Ensure all Load Carrying props are in plumb and in line. In case of missing pin do not use pin of less than 12mm dia.

Additional prop should be fixed at the joint of shutter at beam bottom.

In case of Acrow spans are being used, they should be overlapped by minimum 2 feet. 

Slab and Beam bottom levels should be checked prior to fixing reinforcement on it.

Do check plumb of column caps and beam sides.

Do check alignment of formwork as per drawing.

Dos and Do not’s:

Do’s:

Do clean and oil shutter before fixing it in place.

Do plug the holes on shutter with PVC caps if any.

Use sponge sheet to seal gaps at joint.

Do fix all load carrying props in plumb.

Do nots:

Do not allow oiling on shutter once reinforcement activity is started.

Do not allow use of damage shutter without repairing.

Team

CBEC India

Steel Reinforcement- Standard Operating Procedures

REINFORCEMENT

Introduction:

This standard operating procedure enumerates the scope of Reinforcement Work to be executed in Tower area as specified in the approved drawings and at places when instructed by the Tower-in-charge.

Responsibility:

The respective Tower-in-charge is responsible to execute the work as per work procedure.

Safety & protection:

Ensure the workers use safety appliances like safety belts at height, helmets, safety goggles, safety shoes etc.

Ensure the working area is kept clean for easy access and formwork materials are being stacked correctly.

Proper illumination to be provided during the work, if required.

Educate the workmen through pep-talk meeting. 

Preparatory Works:

All reinforcement work shall be executed in conformity with the drawings supplied and instructions given by the Tower-in-charge and shall be generally be carried out in accordance with relevant Indian standard specifications (IS 2502).

While transporting, care will be taken for ensuring that the bars do not suffer any damage and are safely handled. HYSD bars will be properly stacked and identification and traceability should be properly ensured in the places of work and any further checks as desired could be ensured there. 

Do prepare bar bending schedule before cutting any bars.

Work Method: 

Bending & Cutting:

The Contractor shall be responsible for preparing, checking all bar bending schedules against the drawing and obtain approval from the Tower-in-charge before cutting and bending and prior to fixing of steel.

Neither the size nor the length of a bar shall be less than the size or length shown in the drawings

The dimension of bends shall be so given that a minimum amount of calculation is necessary for marking of bars. The dimensioning procedure shall be used as per drawings and in absence of dimension on drawings, IS: 2502 shall be referred for bending. Dimensions shown in the bar bending schedule shall be checked before cutting the bars.

Bending of bars shall be done in cold conditions only and no heating is permitted on bars. Load shall be applied gradually. Bar once bent shall not be reworked for modification without the approval of the Tower-in-charge.

Bars having cracks or splits on the bends shall be rejected.

After bending of bars, they shall be properly tagged according to drawing number and bar mark for easy identification.

Spacing, Fixing and Cleaning:

All reinforcement shall when fixed in position and at the time of concreting be clean and free from mud, oil, mortar droppings, loose rust, paint, oil, grease, or other deleterious matter. 

All reinforcement shall be placed and maintained in the positions shown on the drawings.

All cover blocks shall be either of PVC or of concrete or of cement mortar of the same strength as that of the surrounding concrete. Proper size of cover block shall be provided at the time of fixing of rebars.

18 swg wire shall be used as binding wire. All bars crossing one another shall be bound with this wire twisted tight to make the skeleton on network rigid.

The free ends of binding wire shall be bent back inwards

Laps in reinforcement shall be provided as indicated on the drawings. Laps shall be staggered as far as practicable for different bars and located at points along the span where neither shear nor bending moment is maximum and as directed by the Structural Consultant.

At one place do not lap more than 50 % of bars. 

As and when necessary welded laps shall be provided as specified by the Tower-in-charge, and shall be in accordance with IS code 2571 requirements.

Important Notes:

Ensure ring hooks are bent at 1350 after fixing of reinforcement in place.

After fixing reinforcement in place do not allow contractor for doing re-oiling on shutter.

Round cover blocks with hole inside should be fixed in rings at the time of reinforcement fixing.

Rebar chair should be fixed on bottom reinforcement of slab only by proper tying its leg with binding wire and do not allow to place rebar chair directly on shuttering.

Team 

CBEC India

Concrete Work- Standard Operating Procedures

CONCRETE WORK

Introduction:

This standard operating procedure enumerates the scope of Concrete Works to be executed in the Tower area as specified in the approved drawings and at places when instructed by the Tower-in-charge.

Responsibility:

The respective Tower-in-charge is responsible to execute the work as per work procedure.

Safety & protection:

Ensure the workers use safety appliances like safety belts at height, helmets, safety goggles, safety shoes, etc.

Ensure the working area is kept clean for easy access.

Proper illumination to be provided during the work if required.

Educate the workmen through pep-talk meetings. 

 

Preparatory Works:

Ensure calibration of weigh batcher, water dispenser is done every six months.

The amount of the water added shall be adjusted to compensate for any variations in the moisture content. To allow for variations in the mass of aggregates due to variation in the moisture content, suitable adjustments in the masses of aggregates shall be made. It should be done by QC Department.

Ensure all equipment related to the concrete are available and is in working condition.

Production of Concrete:

Production of concrete should be done as per approved mix design and by weight batching only. In any case, do not allow volume batching.

1st batch of days production should be made in front of Tower-in-charge and should be checked for the required slump. If any variation in produce concrete is observed should be informed to the QC department and after correction batching should proceed.

It is a must to monitor the consistency of the mix in each batch of concrete. The first three batches should be done in front of the Tower-in-charge and then further should be monitored by the concrete supervisor.

The concrete shall be mixed in a mechanical mixer. The mixing shall be continued until there is a uniform distribution of the materials & the mass is uniform in color & consistency.

If there is segregation after unloading from the mixer, the concrete should be remixed.

All Concrete will be conveyed from the mixer and/or Batching Plant to the place of final deposit in buckets, transit mixers, containers, without segregation.

Concrete will be transported with all precautions to prevent loss of water by evaporation in hot weather and heat loss in cold weather conditions. No concrete will be transported and placed in the open, while it rains. 

All equipment used for transporting and placing concrete will be thoroughly cleaned after each period of placement. 

The mix after discharging from the mixers shall be transported by wheelbarrows, buckets, pumps, etc. without causing segregation and loss of cement slurry and without altering its desired properties, with regard to water-cement ratio, slump, cohesion, and homogeneity.

Placing: 

Before placing the Concrete all reinforcements steels, embedded parts, water stoppers shall be correctly placed, aligned, and securely held in positions and formwork fixed. Concrete will be deposited in successive layers in its final position, as nearly as practicable, to avoid segregation due to re-handling. 

The concrete shall be placed & compacted before the initial setting of concrete commences & each layer of concrete shall be compacted fully before the succeeding layer is placed 

For locations where direct placement is not possible and in particular through narrow forms, suitable drop chutes will be provided to confine the concrete in movement. 

Long troughs, chutes, and pipes will be kept free from coatings of hardened concrete. Open troughs and chutes shall be of metal or metal lined. 

Concrete shall be placed carefully to avoid displacement of reinforcements, embedded parts. Concrete shall not be permitted to fall freely from a height of more than 1.5 m or to strike the forms at an angle.

Placement of Concrete by Pumping:

The receiving hopper of the pump shall have a hydraulically/electrically operated remixing blade to keep the concrete mixed continuously and maintain consistency and uniformity.

The pipelines will be made of seamless and high-quality precision steel pipes. At the face of the placing boom, a heavy-duty flexible hose may be attached to facilitate Concrete Pouring. Strong Couplings will be used to clamp both the flexible and rigid pipes in proper alignment. 

Accessories like curved sections of rigid pipes, swivel joints, rotary distributors, pin and gate valves to prevent backflow, air vent for downhill pumping, etc. shall be provided as per the requirements.

At the start of the pumping operation, cement slurry or pumping aid shall be allowed to pass through the pipeline to lubricate the inner surface of the pipes. 

During the placing of concrete first, place the concrete in the column area and then in the beam. Do not allow rollover concrete from beam to column.

Compaction: 

Each layer of Fresh Concrete shall be thoroughly compacted by vibrators to the minimum practicable consolidated volume.

The concrete to be vibrated shall be placed in position in level layers of suitable thickness not greater than the effective length of the vibrating needle. It is advisable to have concrete layer thickness not more than 600mm(in vertical members) for effective vibration.

A vibrator needle shall be inserted vertically inside the Concrete and shall be allowed to penetrate through by its own weight. Vibration shall not be stopped when the needle is immersed in Concrete. 

The vibrator shall penetrate fully into the layer being placed and also penetrate about 100 to 200 mm in the already consolidated lower layer for good bond and homogeneity between the two layers and to prevent the formation of cold joints. The vibrators shall be withdrawn slowly out of the concrete so as to allow the concrete to flow back into the hole behind the vibrator.

The spacing of insertion shall be at intervals of about 450 mm to 700 mm depending upon the mix. The specified spacing between the inserting positions shall be maintained uniformly throughout the surface of the concrete so that the concrete is uniformly vibrated.

The spacing shall provide some overlapping of the area vibrated at each insertion. It is better to insert the vibrating head at a number of places than to leave it at one place for a long time. 

The range of action & degree of consolidation can be recognized from the rising air bubbles & the formation of a smooth textured surface around the vibrating head. 

The vibrator needle shall be kept clear from forms. The vibrator shall be prevented from coming into contact with the reinforcement bars, embedded parts. Over vibration shall be avoided.

Compaction of concrete at junctions with hardened concrete:

The hardened concrete surface shall be prepared by hacking or roughening & removing laitance, greasy matter & lose particles.

The cleaned surface shall be wetted. Cement paste of creamy consistency or Cement  SBR (Nitto Bond) mix shall then be applied to the wet surface of old concrete & fresh concrete vibrated against it. 

Curing of Concrete:

Exposed surfaces of concrete shall be kept in a damp or wet condition by ponding (with vatta of 50mm thick) or by covering with a layer of sacking, canvas, or similar materials. 

The curing shall be started after the initial setting time of concrete & the same shall be continued for a minimum of 10 days. 

The curing water shall be the same as that is used for construction purposes. 

Sampling & strength of concrete:-

Minimum 12 cubes (4 samples) for concrete irrespective of its quantity should be made.

Samples should be distributed over whole concrete batches and should be taken randomly.

3 cubes should be made from each sample by filling the cube in 3 layers and each layer should be compacted with a tamping rod 35 times.

Cubes after finishing should be embossed with binding wire or nail or any suitable mean and should show;

Grade of concrete.

Date of concrete.

Location of Concrete.

Cube Number should be started with 1 and first 3 cubes of number 1,2,3 should be of the same batch and next 4,5,6, number cube should be of the same batch taken at another interval and so on.

Before casting cubes, ensure cube molds are in perfect alignment and oiled when it is dismantled for cleaning.

Note: In all cases, the 28 days compressive strength specified shall alone be a criterion for acceptance or rejection of the concrete.

Frequency of sampling when concrete quantity is more: 

The minimum frequency of sampling of each grade (For RMC):

Quantity of concrete in Cum            Number of SPECIMENS/Grade

1 Cum  to 5Cum                                  6 Nos

6 Cum to 15 Cum                                3 Nos

16 Cum to 30 Cum                             3 Nos

31 Cum to 50 Cum                            6 Nos

51 and above                                    18+ three additional specimens for each additional 50 m3  or part thereof.

Test results of sample: 

The result is for the average strength of three specimens.

The individual variation should not be more than + 15 percent of the average. If more, the test results of the sample are invalid.

Stripping of formwork:

The following striking period shall be adopted when the ambient temperature does not fall below 150C:

1. Vertical formwork to columns, walls, 

2. beams  18  24 hours.

3. Soffit formwork to slabs  7 days.

4. Soffit formwork to beams  14 days.

Records:

Records of concrete poured indicating place, quantity and other particulars will be maintained.

INSPECTION RECORDS:

The following records pertaining to Concrete Works will be prepared and maintained:

 1. Concrete Pour Card  

 2. Post Concrete Inspection 

 3. Test Results of Fine Aggregate  

 4. Test Results of Coarse Aggregate  

5. Sieve Analysis of Fine Aggregate    

6. Sieve Analysis of Coarse Aggregate  

7. Combined grading for All In Aggregate with 20 mm MSA  Batch Weight Field Concrete Data   

 8. Concrete Request/program   

 9. Concrete Dispatch details   

10. Calibration of Weighing Scale  

Concrete surface:

1. The face of concrete for which formwork is not provided other than slabs shall be floated to a smooth finish. The floating shall be done so as not to bring an excess of mortar to the surface of the concrete. 

2. Slab top should be broomed finish.

3. After casting of column and walls, do insert 20mm metal halfway into it to form a construction joint.

4. All Concrete surfaces which receive plaster should be hacked properly with hacking tools.

Team

CBEC India

 

Checklist for Registration of Real Estate Project

1.  General Info:

A	Business Constitution: Tick One
B	Full Name of Organization/ Proprietor
C	Fathers Full Name (Proprietor Only)	-
D	Copy of PAN
E	Copy of Aadhar Card (Proprietor Only)	-
F	Contact Details of Organization: Name of Contact Person Designation of Contact Person Company Mobile Number Secondary Mobile Number Landline Number Email id Website URL
G	Business Address Details:  Copy of Latest Electricity Bill Copy of Latest  Property  Tax Challan
H	Passport Size Photograph of Proprietor
I	Partner/ Director/ Authorised Signatory Details  Full Name Fathers Full Name Copy of PAN Copy of Aadhar Mobile Number Email id Passport Size Photo

 

2.  Past Experience Details

 

Sr. No	Particulars	Details
A	Project Name
B	Project Type	i.  Residential ii. Commercial iii. Mixed (Plots& Buildings) iv. Plot v. Industrial vi. Others
C	Land Area (Sq. Mts.)
D	Address of Project
E	Number of Buildings/Plots
F	Number of Apartments
G	Total Cost
H	CTS No./ Survey No/ Final Plot No.
I	Original Proposed Date of Completion
J	Actual Date of Completion

 

 3. Membership Details of Self Regulatory Organizations :

CREDAI MAHARASHTRA	Membership Number
CREADAI MCHI
NAREDCO
MARATHI BANDHKAM VYAVSAHIK ASSOCIATION
OTHERS

4. Project Details 

Sr.No	Particulars	Details
A	Project Status	i.  On-Going ii. New
B	Project Name
C	Project Type	i. Residential ii. Commercial iii.  Mixed(Plots & Buildings) iv.  Plot v.  Industrial vi. Others
D	Proposed Date of Completion
E	Revised Proposed Date of Completion
F	Address Details of Project
G	Whether Litigation related to the project? If Yes– 1. Project Name 2. Name of Court 3.  Type of Case–Criminal, Civil or Others 4.   Petition–Writ, Suit, Appeal or Arbitration Appeal 5.  Case Number 6.  Year 7.   Copy of  Preventive /Interim/Injunction Order Passed if any 8.  Present Status	YES/NO
H	Whether any Co-promoter involved? IF YES Co-promoter Details as per point 1	YES/NO
I	Land Details	i.  CTS No./Survey No. ii. Area Sq.Mts iii. Aggregate Area of Recreational         OpenSpace(SqMts) iv. Total Building Count v.  Sanctioned Building Count vi. Proposed but not sanctioned building count vii.  Boundaries 1. East 2. West 3.  South 4.  North
J	FSI Details	i.  Built-Up area as per Approved FSI(sq. Mts) ii. Built-Up Area as per proposed FSI (Sq. Mt) iii. Total FSI
K	Details of Separate Bank Account	i.  Bank Name ii.  Branch Name iii. IFSC Code iv.  Bank Account No v.   Bank Address

 

 

5.   Building Details (Each Building Wise)

a.            General Info

I.  Name

II. Number of Basement

III.Number of Plinth

IV. Number of Podium

V. Number of Slab of the superstructure

VI. Number of Stilts

VII. Number of Open Parking

VIII. Number of Closed Parking

IX. Date of Completion

 

b.     Apartment Type Details

1. Apartment Type (1BK,2BK,etc)

2. Carpet Area (Sq Mts)

3.Proposed No. of Apartments

4. Number of Apartments booked/sold/allotted

c. Common Area sand Facility Details

 

Particulars	Proposed	Percentage of Completion	Details
No. of Garages	(in Numbers)
Covered Parking	(in Numbers)
Internal Roads & Footpaths	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Water Supply	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Sewerage (Chamber, Lines, Septic Tank, STP)	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Storm Water Drains	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Landscaping &Tree  Planting	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Street Lighting	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Electrical Meter Room, Sub-Station, Receiving Station	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Aggregate area of Recreational Open Space	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Open Parking	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Community Buildings	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Treatment And Disposal Of       Sewage And Sullage Water	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Solid Waste Management And Disposal	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Water Conservation, Rainwater harvesting	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Energy management	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Fire Protection And Fire Safety Requirements	Yes/No	If No, then do not fill this column	If No, then do not fill This column
Specify other amenities if any	Yes/No	If No, then do not fill this column	If No, then do not fill This column

 

d.  Project Professional Details

Particulars	Details
i.     Real Estate Agent Reg. No. Full Name  Address Aadhar No Contact No            E-mail Address
ii. Contractor (All Contractor Details,      RCC, Electrical, Plumbing, Etc.)               Reg. No. Full Name Address Aadhar No Contact No E-mail Address
iii. Architect(who issues form1)  Full Name Address Aadhar No Contact No E-mail Address
iv. Structural Engineer (who issues form 2 ) FullName Address Aadhar No Contact No E-mail Address
v.Chartered Accountant (who issues form 3) Full Name Address Aadhar No Contact No E-mail Address
vi. Chartered Accountant (who issues form5) FullName Address Aadhar No Contact No             E-mail Address
vii. Any Other Project Professional with their designation

 

6.  Project Cost Details

Sr. No.		Particulars	Estimated Total Amount	Actual  Total Amount
1		Land Cost
	A	Acquisition Cost of Land or Development Rights, lease Premium, lease, rent, interest cost incurred or payable on Land Cost and legal cost
	B	Amount of Premium payable to obtain development rights, FSI, additional FSI, fungible area, and any other incentive under DCR from Local Authority or State Government or any Statutory Authority
	C	The acquisition cost of TDR(if any)
	D	Amounts payable to State Government or competent authority or any other statutory authority of the State or Central Government, towards stamp duty, transfer charges, registration fees, etc; and
	E	Land Premium payable as per the annual statement of rates (ASR) for the redevelopment of land owned by Public authorities
	F	Estimated construction cost of rehab building   including site development and infrastructure for the same as
		Certified by Engineer Actual Cost of construction of rehab building incurred as per the books of Accounts as verified by the CA
		Cost towards clearance of the land  of  all or any  encumbrances  including the cost of removal of legal/illegal occupants, cost for providing temporary transit accommodation or rent in lieu of Transit Accommodation, overhead cost
		Cost of ASR linked premium, fees, charges and security deposits or maintenance deposit, or any amount what so ever payable to any authorities Towards and in project of rehabilitation
2		Development Cost/ Cost of Construction
	A	Estimated Cost of Construction as certified by Engineer and Actual Cost of construction incurred as per the books of accounts as verified by the CA
		On-site expenditure for the development of the entire project excluding the cost of construction as per (ii) above, i.e. salaries, consultants fees, site overheads, cost of services (including  water, electricity, sewerage), cost of machinery and equipment including its hire and maintenance costs, consumables, etc. All costs directly incurred to complete the construction of the buildings /wings of the project registered
	b	Payment of Taxes, cess, fees, charges, premiums, interest, etc. to any statutory Authority
	c	Interest payable to financial institutions, scheduled banks, non-banking financial institution (NBFC) or money lender son construction funding or money borrowed for construction.  Principal Amount:
3		Total Estimated Cost of the Real Estate Project

 

 7.  PROJECT COMPLETION DETAILS: 

Sr. No.	Task/Activity	Percentage of Work
1	Excavation
2	X number of Basement(s) and Plinth
3	X number of Podiums
4	Stilt Floor
5	X number of Slabs of Super Structure
6	Internal walls, Internal Plaster, Floorings Within Flats/ Premises, Doors and Windows to each of the Flat/Premises
7	Sanitary Fittings within the Flat/ Premises, Electrical Fittings within the Flat/Premises
8	Staircases, Lifts Well sand Lobbies at each Floor level connecting Staircases and Lifts, Overhead and Underground Water Tanks
9	The external plumbing and external plaster, elevation,  completion of terraces with Waterproofing of the Building/Wing
10	Installation of lifts, water pumps, Fire Fighting Fittings and Equipment as per CFONOC, Electrical fittings to Common Areas, electro, mechanical  equipment,  Compliance with conditions of environment/ CRZNOC, Finishing to entrance lobby/s, plinth protection, paving of areas appurtenant to Building/Wing, Compound Wall, and all other requirements as may be required to Obtain Occupation/Completion Certificate

 

 DOCUMENTS REQUIRED (Scanned Copies)

 

a.     Copy of the legal title report

b.     Details of encumbrances (If No Encumbrance then letter of self certification by promoter stating no encumbrances)

c.     Copy of Layout Approval (in case of layout)

d.     Performa of the allotment letter and agreement for sale

e.     Declaration in FORM B

f.      Certificates of Architect (Form1)

g.     Certificates of CA (Form3)

h.     Certificates of Engineer (Form2)

i.      Commencement Certificates.

j.       Building Plan Approval (IOD)

For more details, you can visit https://maharerait.mahaonline.gov.in/

Team

CBEC India