| Borewell Size (Diameter) | Recommended Usage | Rate Per Feet |
|---|---|---|
| 4.5 Inch Dia | Small Residential / Individual Home | ₹ 98 |
| 6.5 Inch Dia | Standard Home / Apartments / Shops | ₹ 108 |
| 7.5 Inch Dia | Commercial / Large Housing Society | ₹ 155 |
| 12 Inch Dia | Agriculture / Industrial High-Yield | ₹ 186 |
*Above Bore well cost for Ideal Drilling Depth
*For Narrow Space additional equipment required, hence may incur Extra Cost
* PVC Pipe Installation may varry based on the Soil / Rock type. Here we calculated Average !
Drilling in the rugged mountainous terrain of Mon is an engineering feat that demands specialized equipment and localized geological knowledge. The strata in Mon often consist of a chaotic mix of boulders, glacial till, and hard metamorphic rock like schist or quartzite. Standard drilling methods frequently fail here due to shifting boulders that can bury a drill bit instantly. Therefore, we utilize ODEX (Overburden Drilling) or Symmetrix systems, which allow us to install the casing pipes simultaneously while drilling through loose debris. This 'Casing-while-drilling' method is the only way to ensure a stable borehole in the steep slopes of Mon. Water is typically found in lineaments and fault zones, making site selection a critical part of our process. We use man-portable or tractor-mounted compact rigs to access narrow mountain roads and remote locations across the district. Given the high elevation, we also specialize in installing high-head multi-stage pumps and hydropneumatic tanks to ensure consistent water pressure for homes built on different levels. Our focus is on providing a resilient water supply that can withstand the extreme climatic conditions and geological instability common in high-altitude regions.
Technical Setup for Mountainous Terrain:
Lightweight High-Pressure DTH for High-Altitude Terrains.
*Regulations updated as per 2026 state-wise groundwater policies. Non-compliance may lead to sealing of the borewell and environmental fines.
A: For residential properties in Mon, the 6.5 inch dia drilling rate is ₹108 per feet. A typical 340 feet borewell here costs approximately ₹36,720 for drilling alone.
A: In Mon, the average water level is around 310 feet. However, to ensure a perennial supply, we recommend an ideal drilling depth of 340 feet.
A: It is tight, but our compact crawler rigs in Mon can operate in very small footprints, provided there is vertical clearance.
A: PVC casing pipes in Mon vary by brand. For Mountainous terrain, we use Class-4 or Class-5 pipes to withstand underground pressure.
A: Yes, apartments in Mon usually require high-yield 6.5 or 7.5-inch wells drilled to 340 feet with high-HP pumps.
A: Robotic or sensor-based drilling in Mon is more precise and slightly more expensive than the base ₹108/ft rate but ensures higher safety.
This Borewell Cost is also applicable to Mon Town, Naginimora, Tizit, Aboi, Tobu, Chen, Mopong, Phomching, Angjangyang, Wakching, Mon Village, Kongan, Shangnyu, Longwa, Totok, Lampong Sheanghah, Jakphang, Chenwetnyu, Lungwa Border Area, Mon Sadar.
Mon district, located in the northernmost part of Nagaland, presents a distinct hydrogeological profile characterized by its rugged, hilly terrain and steep slopes. While the district receives substantial annual rainfall—ranging from 2000mm to 3000mm—the mountainous topography often leads to high surface runoff, making water retention and consistent availability a recurring challenge. Traditionally, the population in areas like Tizit, Naginimora, and the higher altitude villages relies heavily on natural mountain springs and seasonal streams for their daily water needs. As urbanization grows and traditional spring yields fluctuate due to environmental changes, there is an increasing necessity for structured water solutions. While municipal water schemes are being expanded under national programs, a borewell or deep tube well serves as a vital, high-reliability secondary asset for institutional, agricultural, and domestic needs in the accessible foothills and valley regions.
Groundwater development in Mon is governed by the state’s rigorous regulatory framework, specifically the Nagaland Groundwater (Regulation and Control of Development and Management) Act. To ensure sustainable use, property owners and organizations intending to construct a deep tube well must follow a formal, scientific procedure overseen by the state’s Department of Geology and Mining. The process begins with a formal application addressed to the Director, requesting a technical feasibility study. Departmental experts then conduct a site assessment to evaluate the geological potential. Essential requirements for approval include providing clear site access for heavy drilling rigs, submitting a "No Objection Certificate" if the site is on private land, and ensuring compliance with state-mandated groundwater management protocols. Because the department monitors extraction to prevent aquifer depletion, unauthorized drilling is strongly discouraged and carries significant legal and operational risks. Residents are urged to coordinate directly with the district-level Geology and Mining offices to initiate the proper, scientifically vetted approval process.
The quality of groundwater in Mon is deeply tied to its complex geological setting, which includes varied rock formations and localized coal-bearing strata. In the lower-lying areas and valleys, such as Tizit, the water extracted is generally reliable, but it often requires testing for specific mineral constituents. Residents may notice that the water exhibits varying degrees of "hardness," typically due to the presence of dissolved calcium and magnesium minerals from the underlying rock. Furthermore, given the district's history of coal mining, groundwater in proximity to certain mining zones must be monitored for potential contamination, including elevated levels of heavy metals or sulfate-rich compounds. Because water quality can vary significantly even over short distances, it is highly recommended that every new borewell undergo a professional chemical analysis at a certified laboratory before being used for drinking or domestic consumption.
Drilling for water in the hilly terrain of Mon is a highly technical undertaking that requires specialized, truck-mounted DTH (Down-The-Hole) or rotary drilling rigs designed for hard-rock mountainous environments. The depth required for a successful, high-yield borewell varies significantly based on the local geo-structures, with exploratory drilling confirming the existence of potential aquifers in valley corridors and certain slope-base formations. Scientific geohydrological surveying is mandatory to increase the success rate and avoid the high risk of drilling "dry" wells in unfavourable geological patches. Key challenges include the extreme logistical difficulty of transporting heavy machinery to steep or remote sites, the necessity for robust casing pipes (often M.S. or high-grade PVC) to handle the complex sub-surface strata, and the imperative to ensure the well is properly developed to prevent siltation. Residents should view their borewell as a long-term investment that requires periodic maintenance and, crucially, the integration of rainwater harvesting to help recharge the delicate mountain aquifers that supply the wells.
Find the borewell cost for your land based on the state, city, and locality. The cost estimate for a borewell tends to vary from area to area. For example, the borewell cost in a village is not the same as the cost in a city. It also depends on factors such as the accessibility of the borewell point, the type of soil (rock or loose soil), labor rates in the locality, PVC pipe and lid prices, and the availability of borewell equipment nearby.