Sardar Vallabhbhai Patel Sports Enclave Skip to main content

Sardar Vallabhbhai Patel Sports Enclave

20 Mega Stadium 
3000 Apartments
12000 Car Parking and 35000 Two Wheeler Parking
Accommodate 12000+ Children

These are some of the amazing features in Sardar Vallabhbhai Patel Sports Enclave...

Sardar Vallabhbhai Patel Sports Encalve

With emerging talent in sports and to encourage them, the Gujarat Government will set up a huge sports complex which will be named "Sardar Vallabhbhai Patel Sports Enclave" at the banks of Sabarmati River, Ahmedabad.

Sports Enclave:

Sardar Vallabhbhai Patel Sports Enclave
This whole Enclave will be spread over 233 acres of land which will also include the "Narendra Modi Stadium" which is spread over 63 acres. The Enclave planned will be larger than the Indira Gandhi Sports Arena, Delhi which is spread over 102 acres and will be complete at a cost of 4600 crores of which the State will invest 3200 crores, and private investment of 1400 crores.

All the stadiums and buildings will be constructed in conformity with International Standards related to Sports. The schools with no playground which counts as much as 600+ will be linked with this complex and facilities for those students will be given for a complete day.
Sardar Vallabhbhai Patel Sports Enclave
The complex inaugurated the Narendra Modi Stadium- a capacity of over 110000 individuals and Dhyanchand Hockey Stadium- a capacity of 15000 individuals.

The whole complex will be well connected with transportation such as:
1. Sabarmati Bullet Train Station
2. Metro (Special for this area)
3. BRT

 A heritage to Sports City- Ahmedabad:

The old stadium at Motera has hosted many magnificent matches also the history of Ahmedabad city with heritage places will now be entitled as Sports City with, Sardar Vallabhbhai Patel Sports Enclave, Narayanpura Sports Stadium both the sports enclave and completed will have the world's largest stadium in most of the sports with International Standards by which Ahmedabad can become the sports hub of the entire country which will host Commonwealth Games and Asian Games. As the complex is built on international standards that can even host the Olympics.

Comments

Popular posts from this blog

Great Man-Made River (GMR)

Libya's Great Man Made River: The Great Man-Made River in Libya is one of the most ambitious Civil Engineering Project in history of mankind.  In the year 1953, the Libya Government found out not only vast oil reserves but also vast quantity of fresh water locked under the strata, most of the water was trapped around 7000-30000 years ago which is divided in 4 different basins. The first basin is named Kufra basin which is neat Egypt Border which covers almost 35000 sq kilometer which is quite deep around 2000 m deep. The other basin is in Sirte Basin which cover 10000 sq kilometer, third in Murzuk Basin and the last in Jabal Fezzan Basin covering 4800 sq kilometers area.  The GMR project will be used to transfer water to North of the country to provide water for irrigation purpose for more than 6 million  people. This will be a changing point  for Libya and the Colonel Muammar Gaddafi called it the Eighth Wonder of World. The work started in 1984 of the project and estimated to be

Timber Buildings !?

 Why do we need a timber building? Yes, timber buildings. As on earth human population is on an exponential rise, many and many people are trying to get home in a city where they have easy excess for the workplace for their own living. In the near future, as the population gets more concentrated in cities more and more structures I mean Tall Structures need to be built. Loading Bearing and Comparison So now architects and builders have opted for the old Technic of using timber as a building material eliminating concrete and steel. Yes, it is very hard to find this amount of trees but not impossible. It can be grown and regrown as needed. Many projects have been in progress of this idea and it reduces about 75% of carbon emission as compared to concrete and steel structure. Using timber coming directly from the forest doesn't have the appropriate strength required for a high-rise building. So designers came up with the new idea of CLT i.e. Cross Laminate Tim

DDSS - Roof Truss

Design Of Roof Truss: If load from purlin, false ceiling etc are applied in between the nodes, then principal rafters or main ties are designed for combined stresses from bending and axial loads. IS 800 - 2007 provides general design procedure for the angle Purlins conforming to steel grade of Fe 410 of O, S, W  and not exceeding slope more than 30 degree based on live load of 750 N/m2. Loads on Trusses: Dead Load, Live Load, Wind Load and Snow Load are types of loads on the truss. The main in Design of Truss in small truss and some Industrial Truss. Dead Load (DL): If spacing of Truss is 4 m and pitch of truss is 1:4 then self weight of the truss is taken as, w = (l/3+6) of plan area .... in kN/m2. Then add all the dead loads with this such as GI sheet, AC sheet and Purlins weight. Then multiply with the plan area to get the actual DL. Live Load(LL): If the angle is less than 10 degree, then the LL will be directly taken as 750 N/m2. If slope of truss is more than 10 degree, live load