Planning schemes for small urban settlements or neighborhood units (≈5,000 population) require systematic estimation of development costs to ensure financial feasibility, infrastructure adequacy, and sustainable growth. Development cost includes expenditure on physical infrastructure, social amenities, and site development works.

The costing process is based on:

• Population norms
• Land use standards
• Infrastructure service levels
• Unit rates (CPWD/PWD SOR)

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2. Planning Assumptions

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2.1 Population

• Total population = 5,000 persons

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2.2 Household Size

• Average household size = 5 persons

$$Total\ Households = \frac{5000}{5} = 1000\ units$$Total Households=55000​=1000 units

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2.3 Land Requirement (URDPFI Norms)

Land Use	% Distribution
Residential	45–55%
Commercial	3–5%
Roads	12–18%
Public/Semi-public	10–12%
Recreational	10–12%
Utilities	3–5%

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Assumed Total Land Area

• 60 hectares (approx.)

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3. Land Use Distribution

Land Use	Area (ha)
Residential	30
Commercial	3
Roads	9
Public/Semi-public	7
Recreational	7
Utilities	4
Total	60 ha

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4. Infrastructure Components

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4.1 Roads and Circulation

• Road network (internal roads, streets)
• Footpaths and parking

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4.2 Water Supply

• Per capita demand = 135 lpcd
• Total demand:

$$5000 \times 135 = 675,000\ liters/day = 0.675\ MLD$$5000×135=675,000 liters/day=0.675 MLD

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4.3 Sewerage System

• Wastewater ≈ 80% of water supply

$$= 0.54\ MLD$$=0.54 MLD

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4.4 Storm Water Drainage

• Based on rainfall intensity and area

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4.5 Power Supply

• Distribution network
• Street lighting

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4.6 Solid Waste Management

• Waste generation ≈ 0.4–0.6 kg/person/day

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4.7 Social Infrastructure

• Primary school
• Health center
• Community hall

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5. Cost Estimation Procedure

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Step 1: Quantity Estimation

• Roads (m²)
• Pipelines (m)
• Structures (nos./m³)

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Step 2: Unit Rates

• Based on PWD/CPWD SOR

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Step 3: Cost Calculation

$$Cost = Quantity \times Rate$$Cost=Quantity×Rate

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Step 4: Add Contingencies

• 3–5%

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Step 5: Add Administrative Costs

• 5–10%

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6. Detailed Development Cost Estimation

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6.1 Roads

• Area = 9 ha = 90,000 m²
• Rate = ₹1,500/m²

$$Cost = 90,000 \times 1500 = ₹13.5\ crore$$Cost=90,000×1500=₹13.5 crore

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6.2 Water Supply

• Pipeline + storage + pumps

Estimated cost:

• ₹8,000 per capita

$$= 5000 \times 8000 = ₹4\ crore$$=5000×8000=₹4 crore

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6.3 Sewerage System

• ₹10,000 per capita

$$= 5000 \times 10,000 = ₹5\ crore$$=5000×10,000=₹5 crore

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6.4 Storm Water Drainage

• ₹1.5 crore (approx.)

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6.5 Electrical Infrastructure

• ₹5,000 per capita

$$= 5000 \times 5000 = ₹2.5\ crore$$=5000×5000=₹2.5 crore

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6.6 Solid Waste Management

• ₹50 lakh

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6.7 Landscaping & Open Spaces

• Area = 7 ha
• Rate = ₹500/m²

$$= 70,000 \times 500 = ₹3.5\ crore$$=70,000×500=₹3.5 crore

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6.8 Social Infrastructure

Facility	Cost (₹ crore)
School	2
Health center	1
Community hall	1
Total	₹4 crore

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7. Summary of Development Cost

Component	Cost (₹ crore)
Roads	13.5
Water supply	4
Sewerage	5
Drainage	1.5
Electrical	2.5
Solid waste	0.5
Landscaping	3.5
Social infrastructure	4
Subtotal	34.5

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Add Contingencies (5%)

$$= 1.7\ crore$$=1.7 crore

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Add Administrative Costs (10%)

$$= 3.45\ crore$$=3.45 crore

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8. Total Development Cost

$$Total = 34.5 + 1.7 + 3.45 = ₹39.65\ crore$$Total=34.5+1.7+3.45=₹39.65 crore

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9. Per Capita Development Cost

$$= \frac{39.65\ crore}{5000} = ₹79,300\ per\ person$$=500039.65 crore​=₹79,300 per person

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10. Per Hectare Cost

$$= \frac{39.65\ crore}{60} \approx ₹0.66\ crore/ha$$=6039.65 crore​≈₹0.66 crore/ha

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11. Cost Optimization Strategies

• Use of local materials
• Phased development
• Integrated infrastructure planning
• Adoption of sustainable systems

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12. Role in Urban Planning

• Supports neighborhood planning
• Helps in TOD-based development
• Assists in financial feasibility analysis
• Enables efficient infrastructure provision

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13. Challenges

• Price fluctuations
• Land acquisition costs
• Demand uncertainty
• Infrastructure maintenance costs

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14. Conclusion

Preparation of detailed development costs for a planning scheme of 5,000 population involves systematic estimation of infrastructure and service components based on planning norms and standards. Accurate costing ensures efficient allocation of resources, financial feasibility, and sustainable development. By integrating engineering, economic, and planning principles, such schemes can effectively support urban growth and improve quality of life.