Army Engineer Services Tenders for 1 MW Solar Plant in Alwar
- The Military Engineer Services has released a tender for setting up of 1 MW solar energy plant at Itarana in Alwar, Rajasthan.
The Military Engineer Services (MES) has released a tender, welcoming quotes from qualified bidders, for setting up of 1 MW solar energy plant at Itarana in Alwar, Rajasthan.
The extent of benefit the selected bidders will consist of the survey, layout, fabrication, supply, setup, screening and also commissioning of the ground-mounted solar power plant. On successful appointing of the plant, the developers will be called for to offer thorough procedure and also upkeep solutions for the plant for a period of 5 years. The entire work under this agreement shall be completed in 2191 days.
The estimated expense of the project is Rs 6.8 crore according to MES. And all prospective buyers are required to send an Earnest Money Deposit of Rs 6.8 lakh in addition to their bids. Lately, we reported that ITI Limited has issued a tender for a 1.5 MW grid-connected solar power plant (rooftop/ground-mounted) with net-metering at its center in Raebareli. The estimated cost of the project because tender is Rs 2.55 crore.
A quantity equivalent to 5 percent of the agreement sum shall be deposited by the contractor (either gotten or unenlisted) within 28 days of invoice of the letter of approval, on receipt of performance protection, after that work order will be placed, falling short which, the agreement will be terminated and also EMD sent by unenlisted contractor will be forfeited.
To be eligible for taking part in the bidding procedure, the bidders have to have experience of successfully finishing work on solar power plants in federal government department/ PSU during the last 7 years based on the following:
One work of capability > 80 percent of capability of plant defined in NIT i.e 0.80 MW
Or
2 works of capacity > 50 percent of capability of plant defined in NIT i.e 0.50 MW
Or
Three works of capacity > 40 percent of capacity of plant specified in NIT i.e 0.40 MW.