Biogas Plant
The prime objective of this best practice is to gradually increase the usage of non-conventional energy resources in the college premises. To promote this, Nature club of this college created a biogas plant under the able supervision of faculty members.
Solar Energy System
With the challenging situation of global climate change and the need to cut down carbon emissions EMEA College has taken an initiative by setting up 10 KW grid connected roof top Solar PV Plant with 32 panel at the terrace of Main Block. This Solar PV system at our college will promote green energy and clean energy.
Herbal Garden
Horticulture Farm
Bamboo Lake
Incinerator
Waste management is one of the perennial problems we face. Improper management of waste may affect the nature harmfully. Here, EMEA College finds a way to manage the waste properly and systematically.In an attempt to promote cleanliness and save environment, PTA of the college installed an Incinerator to dispose and manage the waste scientifically and properly. .Activities pertaining to keep the environment green and pollution free is encouraged and best efforts to manage waste from its origin to its final disposal is done. This includes the collection, transport, treatment and disposal of waste.
Mahagony Park
Rain Water Harvesting
A project on Rainwater harvesting has been undertaken in the college campus. It has been set-up in the campus with 25000 litres of water storage capacity. The rain water is collected from the roof tops of the college with the help of gutters and downspouts. These downspouts are channelized in such a way that the collected rain water can be used for watering the plants in the garden, thereby reducing by 50% the consumption of water for the said purpose.
Water Purification
In our college, the drinking water has been purified by modern treatment technology using Filtration, Ion exchange and Reverse osmosis. There are two R.O. plants are in operation to cater the drinking water needs of all the students, staff members, supporting staff and the visitors. The raw water with an average total dissolved solid [TDS] of 750-1000 ppm is treated to reduce the TDS content to less than 100ppm, the generally acceptable upper limit of the TDS. This done in three stages, namely: Pre-treatment consists of sand filtration, coke treatment, and ion exchange; main process comprises 6 RO membrane filters held in parallel to each other, and post treatment. The maximum capacity of each plant is 1,500 litres per hour. This water is pure, tasty and hygienic rendering it highly suitable for human consumption.