| Borewell Size (Diameter) | Recommended Usage | Rate Per Feet |
|---|---|---|
| 4.5 Inch Dia | Small Residential / Individual Home | ₹ 96 |
| 6.5 Inch Dia | Standard Home / Apartments / Shops | ₹ 101 |
| 7.5 Inch Dia | Commercial / Large Housing Society | ₹ 163 |
| 12 Inch Dia | Agriculture / Industrial High-Yield | ₹ 182 |
*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 !
In the fertile plains of Hissar, the geology consists of deep, unconsolidated alluvial deposits including sand, silt, clay, and gravel. Unlike rocky terrains, the challenge in Hissar is not the hardness of the ground, but the stability of the borehole. We utilize Direct Rotary or Reverse Rotary drilling technologies to manage these soft strata effectively. A crucial part of our service in Hissar is the design of the assembly, where we strategically place 'V-Wire' screens or slotted pipes against the most productive sand aquifers. To prevent the 'sand-pumping' issue common in this region, we perform precision gravel packing, filling the annular space with graded pebbles to act as a natural filter. This ensures crystal-clear water and protects your submersible pump from premature wear and tear. Because Hissar may have multiple aquifer layers, we help clients identify the second or third layer to avoid the risk of surface pollutants or agricultural runoff. Our development process includes high-velocity surging and air-compressor cleaning to stabilize the aquifer and maximize flow. This professional approach results in a high-discharge tube well capable of supporting large-scale irrigation or high-capacity residential requirements.
Technical Setup for Alluvial Terrain:
Direct Rotary (DR) Rig with Gravel Packing for Sand Aquifers.
*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 Hissar, the 6.5 inch dia drilling rate is ₹101 per feet. A typical 355 feet borewell here costs approximately ₹35,855 for drilling alone.
A: In Hissar, the average water level is around 275 feet. However, to ensure a perennial supply, we recommend an ideal drilling depth of 355 feet.
A: Yes, apartments in Hissar usually require high-yield 6.5 or 7.5-inch wells drilled to 355 feet with high-HP pumps.
A: Yes, a 4.5-inch borewell is cost-effective for small families in Hissar, though 6.5-inch is the standard for better pump options.
A: In Haryana, borewells are usually deeper and drilled in rock, while tubewells are common in alluvial soil. Hissar mainly requires deep borewells due to its Alluvial nature.
A: Muddy water usually indicates a casing failure or poor filtration in the Alluvial layer. We offer repair and re-casing services across Hissar.
This Borewell Cost is also applicable to Hisar City, Hansi, Narnaund, Barwala, Adampur, Bass, Uklana Mandi, Agroha, Sisai, Dhansu, Talwandi Rana, Satrod, Mirzapur, Gangwa, Azad Nagar, Model Town, Jindal Marg, Balsamand, Chaudhariwas, Mangali.
Hisar, a major center in western Haryana, navigates a complex hydrological landscape where groundwater dependency has become a primary concern for residents and the agricultural sector alike. The district relies on a combination of the Western Yamuna Canal system and the Bhakra Main Line, but the availability of canal water is often inconsistent in areas like Hansi, Barwala, and Adampur. This unpredictability, coupled with a semi-arid climate, has led to a significant water shortage possibility during the peak summer months. In urban hubs like Hisar City and the growing sectors around the Haryana Agricultural University, the municipal supply often struggles to keep pace with the high daily demand. Consequently, drilling a borewell is no longer optional for many; it is a critical requirement for maintaining household hygiene and ensuring crop survival in rural pockets, serving as the only stable buffer against seasonal supply gaps.
The procedure for obtaining borewell approval in Hisar is strictly regulated under the Haryana Water Resources (Conservation, Regulation, and Management) Authority (HWRA). Residents in localities such as Model Town, Urban Estate, or the outskirts near Agroha must navigate a formalized online application process. The localized content of these rules mandates that all infrastructure projects, industries, and housing societies obtain a No Objection Certificate (NOC) before any drilling commences. Applicants must submit land ownership documents (Jamabandi), a site plan, and often a water denial certificate from the Public Health Engineering Department (PHED). In regions identified as "Over-exploited," the authority may require a detailed Impact Assessment Report. Furthermore, it is mandatory to integrate a rainwater harvesting system with the borewell to facilitate aquifer recharge, and failure to register a new tubewell can result in heavy penalties and the disconnection of power services.
The type of water found in the aquifers of Hisar district varies significantly, largely influenced by the proximity to canal networks and the depth of the extraction. In many central urban areas, the groundwater is characterized as "Hard Water" due to high concentrations of calcium and magnesium, which often leads to white scaling on kitchen appliances and bathroom fixtures. A prominent challenge in localities like Balsamand and Narnaund is the presence of "Brackish" or "Salty" water, particularly in deeper layers where Total Dissolved Solids (TDS) can exceed 2000 mg/l. While some shallow pockets near canal commands may yield relatively "Sweet" water, many residents report a "Metallic Taste" or high fluoride levels, which are common in the alluvial plains of this region. Due to these mineral complexities, the use of high-efficiency RO filtration systems is a standard practice across Hisar to ensure the water is potable and palatable for daily consumption.
Drilling a borewell in Hisar involves dealing with varied geological strata consisting of sand, silt, and clay, often interspersed with kankar (calcium carbonate) layers. For a sustainable yield in residential sectors like Mill Gate or Azad Nagar, the required depth typically ranges from 350 feet to 550 feet, though in some rural blocks, depths may reach 700 feet to bypass saline layers. The cost involved is determined by the drilling method—usually Reverse Circulation or Direct Rotary for alluvial soil—and includes expenses for high-quality PVC casing and assembly pipes. The borewell success rate in the district is moderate; the primary challenge remains the risk of "Saline Ingress" or the rapid decline of the water table. A professionally installed and properly flushed borewell in Hisar can have a functional life of 15 to 20 years, provided localized recharge measures are strictly followed to sustain the health of the local aquifer.
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.