5.3.3 Chandel Water Supply Scheme (1) System Development Plan a. Expansion of Treatment Plant Figure 53.11 shows the relationship between the daily maximum water demand and the existing treatment capacity for the Chandel WSS. Given the existing treatment plant capacity is 15,000 m3/day, there is no immediate need to augment the WSS.

35,000

AugmentationAugmentation of 15,000 mm3/day3/day 30,000

25,000 /day) 3 20,000

15,000

Water Quantity (m Quantity Water 10,000

5,000 Day Maximum Water Demand Water Demand including New Airport Existing Treatment Capacity 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 Year

Figure 53.11 Development Plan for the Chandel WSS

The government of proposes to construct a new airport in Mopa. If the new airport is constructed, the expected daily maximum water demand is represented by the dashed line in Figure 53.11. According to Goa’s Department of Transportation, the new airport will be operational in 2010. The necessary water demand for the new airport and its associated facilities in 2010 is estimated to be 1,000 m3/day by the Department of Transportation. In this case, the augmentation of the existing plant by 15,000 m3/day will be necessary. However, it is recommended that before implementing the augmentation, the demand projection be reviewed based on current conditions and the necessary expansion capacity be re-evaluated.

5 - 35 b. Transmission Plan As mentioned in section 5.2, the Chandel WSS covers only the Pernem and Pernen Talukas. Figure 53.12 shows the transmission plan for the Chandel WSS in 2025.

2.0MLD for New Airport Chandel WTP (30MLD) 18.0MLD 16.0MLD

Sanquelim Taluka Bardez Taluka

Figure 53.12 Transmission Plan for the Chandel WSS

(2) Treatment Plant a. Water treatment Plant Capacity A new water treatment plant of 15 MLD capacity is proposed in the Master Plan. According to the Water Resources Department, the water resource availability for the Chandel WTP is 110 MLD from the Tillari Canal. b. Proposed Water Treatment Process The proposed treatment process for the new water treatment plant consists of contact aeration, a coagulation basin, flocculation/sedimentation, sand filtration and chlorination. This process was designed considering the raw water quality and the existing process conditions (See Figure 53.13).

Figure 53.13 Proposed Water Treatment Process at the Chandel WTP c. Implementation Schedule The timeline for the implementation schedule of WTP is shown in Table 53.14. Rehabilitation

5 - 36 and improvement of the existing water treatment plant will be conducted during Stage I. Installation of chlorine safety equipment, replacement of equipment that has exceeded its design life, and installation of a generator and flow meters will be conducted over this period. Other replacements will be undertaken as equipment exceeds its design life. Transmission facilities for the new airport (located at Mopa) will be constructed during Stage I. A 15 MLD capacity plant will be constructed during Stage II.

Table 53.14 Implementation Schedule for Chandel WTP Stage Existing Plants New Plants - Installation of safety equipment Construction of transmission - Replacement of raw water pumps and Stage I Components backwash pumps facilities for new airport - Installation of generator and flow meters

- Replacement of equipment as it Expansion of 15 MLD plant Stage II Components exceeds its design life

- Modification of coagulation process

(3) Transmission System a. Proposed Transmission System The transmission system shown in Figure 53.14 and summarised in Table 53.15 is proposed to supply future service areas and to meet the expected demand increases. Calculation using WaterCAD are attached in Volume IV Appendix M53 Results of Hydraulic Analysis.

Table 53.15 Proposed Transmission Mains for the Chandel WSS Material Diameter (mm) Length (km) Ductile Iron 400 2.90 250 4.15 200 11.42 150 8.26 100 8.85 Total 35.58 b. Rehabilitation of the Existing Transmission System The master plan does not specify the rehabilitation or replacement of the existing transmission mains because the existing transmission mains were installed in 2001 and are still adequate.

5 - 37 N

W E

S

φ100DI, 2.85km

Torshem, 100m3

Mopa, 1,000m3 φ200DI, 2.7km 2.3kW x 3 units, 100m3 sump P Chandel MBR, 1,600m3 Chandel WTP Existing: 15,000 m3/day φ150DI, 1.98km Proposed: 15,000 m3/day Korgao, 300m3 Parastem, 400m3 φ250DI, 0.58km φ200DI, 3.34km Kerim, 150m3 φ200DI, 2.48km φ150DI, 1.80km 3 φ100DI, 6.00km Paliyem, 300m3 Arambol, 400m3 Pernem, 300m Ozorim, 150m3 φ250DI, 3.57km φ200DI, 0.25km φ200DI, 2.40km Pernem Taluka

3 φ200DI, 0.25km Dargalim, 300m Bichilim Taluka

Corgao, 300m3

φ400DI, 2.90km Legend

φ150DI, 1.29km Existing Transmission Mains , 800m3 Existing Reservoirs

Proposed Transmission Mains

3 , 400m φ400DI, 0.8km Details of Proposed Transmission Mains

Proposed Reservoirs

Bardez Taluka Padi, 300m3 Details of Proposed Reservoir, Location & Volume φ150DI, 3.19km P Proposed Proposed Pumping Stations 14.3kW x 3 units, Details of Proposed Pumping Stations 100m3 sump Boundary of Taluka

Not to scale Figure 53.14 Proposed Transmission System for the Chandel WSS in 2025

5 - 38 (4) Reservoirs a. Proposed Reservoirs To supply treated water to an expanded service area, the construction of 14 reservoirs (as listed in Table 53.16) is proposed. Locations and volumes of the proposed reservoirs are shown in Figure 53.14. The reservoirs have been specified in accordance with the PWD’s plan.

Table 53.16 List of Reservoirs Proposed for the Chandel WSS Location Capacity (m3) Remarks Chandel MBR 1,600 addition to the existing reservoir of 1,600 m3 Mopa (for new airport) 1,000 with P/S (3 pump units of 2.3 kW and 100 m3 sump) Ozorim 150 - Torshem 100 addition to the existing reservoir of 50 m3 Dargalim 300 - Pernem 300 addition to the existing reservoir of 150 m3 Parastem 400 addition to the existing reservoir of 100 m3 Morjim 400 addition to the existing reservoir of 100 m3 Corgao 300 - Mandrem 800 - Korgao 300 addition to the existing reservoir of 70 m3 Arambol 400 - Paliyem 300 addition to the existing reservoir of 70 m3 Kerim 150 addition to the existing reservoir of 150 m3 b. Rehabilitation of the Existing Reservoirs The Chandel WSS has 33 reservoirs, as summarised in Table 53.17. A detailed list of the reservoirs is attached in Volume IV Appendix M31 Existing Water Supply System. Table 53.17 identifies the reservoirs that need to be rehabilitated.

Table 53.17 Number of Existing Reservoirs Number of Reservoirs Reservoir Volume (m3) Existing to be rehabilitated 1,600 1 0 800 2 0 250 - 400 2 1 150 3 0 100 12 3 50 & 70 13 3 Total 33 7

5 - 39 (5) Pumping Station The proposal includes the construction of one pumping station for the new airport. The pumping station will be located at the existing treatment plant. The pumping station will pump treated water to the proposed Mopa Reservoir (listed in Table 53.16).

(6) Distribution Pipeline and House Connections a. Proposed Distribution Pipeline and House Connection The proposed length of distribution pipelines was calculated by multiplying the number of house connections to be installed (which reflects the increase in population served) by the unit pipeline length per connection (which is 14.26m as mentioned in section 5.1.2). Table 53.18 shows the proposed number of house connections and length of distribution pipelines.

Table 53.18 Proposed Number of House Connections and Length of Distribution Pipelines in the Chandel WSS (incremental basis) Year 2007 2008 2009 2010 2011 2012 2013

Distribution 3,245 3,277 3,307 3,330 3,426 3,461 3,481 Pipeline (m) Number of House 228 230 232 233 240 243 244 Connection Year 2014 2015 2016 2017 2018 2019 2020

Distribution 3,512 3,524 3,483 3,522 3,546 3,581 3,602 Pipeline (m) Number of House 246 247 244 247 249 251 253 Connection Year 2021 2022 2023 2024 2025 Total

Distribution 3,631 3,660 3,692 3,716 3,742 66,740 Pipeline (m) Number of House 255 257 259 261 262 4,680 Connection b. Rehabilitation of the Existing Distribution Pipeline and House Connections The design life of the distribution pipelines is assumed to be 50 years. The plan is to replace 2 % of the existing 329km of distribution pipelines every year. This means 38 % of the existing pipelines will be replaced between 2007 - 2025. As a result the existing 125km of distribution pipelines will be replaced with new pipelines during the 19 years from 2007 to 2025.

The design life of the water meters at the house connections is assumed to be 10 years. The plan is to replace all of the existing water meters (i.e. 12,517 meters) within 10 years. As a

5 - 40 result about 25,900 water meters will be replaced during the 19 years from 2007 - 2025.

(7) Summary of the Planning The components of the Chandel WSS Master Plan are summarised in Table 53.19. Figure 53.15 depicts the proposed Chandel WSS in 2025.

Table 53.19 Components of the Chandel WSS Master Plan

Facility Proposed Rehabilitation/ Replacement

3 Treatment Plant 15,000 m3/day 15,000 m /day Transmission Main 35.58 km -

Reservoir 14 7

Pumping Station 1 -

Distribution Pipeline 67 km 125 km

House Connection 4,680 25,900

5 - 41 Patradevi, 100GLR, RL=54.0, HWL=58.0

φ100DI, 2.85km

LEGEND Water Treatment Plant Torshem, 50GLR, Torshem(Proposed), 150 GLR, RL=54.0, HWL=58.0 RL=54.0, HWL=58.0 MBR (Master Balancing Reservoir) GLR (Ground Level Reservoir)/OHR (Over Head Reservoir) Tamboxem, 100GLR, Existing GLR RL=54.0, HWL=58.0 Proposed GLR/OHR Transmission Main Existing Main Kalana River Proposed Main Ugvem, 100GLR, RL=54.0, HWL=58.0 Chandel WTP (15MLD) Ambernem, 100GLR, Mopa(Proposed), 1000 GLR, Tillari Irrigation Canal RL=54.0, HWL=58.0 RL=170.0, HWL=174.0 Parastem, φ200DI, 2.70km 50GLR&100GLR, 2.3kW×3 units, RL=54.0, HWL=58.0 100 m3 Sump Naibag, 50GLR, Chandel, 100GLR, RL=54.0, HWL=58.0 RL=54.0, HWL=58.0 Diversion Canal Casarvarem 1,600 MBR,

Parastem(Proposed), RL=100.0, HWL=104.0 Intake 400GLR, Casarvarem 50GLR, RL=54.0, HWL=58.0 Malpe, 800GLR, φ200DI, 1.98km Weir RL=54.0, HWL=58.0 RL=66.0, WL=70.0 Ibrampur, 100GLR, RL=54.0, HWL=58.0 Kerim(Proposed) 150GLR, Korgao-New(Prposed) Varcond, 50GLR, φ 20 m Kalana River RL=44.0, HWL=48.0 Pernem, 150GLR, 0 k D 8 300GLR, RL=59.0, HWL=63.0 I 5 , . RL=44.0, HWL=48.0 2. 0 Kerim, 150GLR, RL=54.0, HWL=58.0 48 I, k D m 0 RL=44.0, HWL=48.0 5 Pernem(Proposed) 2 φ200DI, 3.34km Korgao, 70GLR, 300GLR, φ φ150DI, 1.80km RL=60.0, HWL=64.0 RL=44.0, HWL=48.0 Virnoda, Alone, 100GLR, Paliyem, 70GLR, 70GLR&50GLR, RL=54.0, HWL=58.0 Arambol(Proposed), RL=67.0, HWL=71.0 RL=54.0, HWL=58.0 400GLR, Ozorim(Proposed)150 GLR, RL=54.0, HWL=58.0 RL=54.0, HWL=58.0 φ100DI, 6.00km Paliyem(Proposed), 300GLR, Harmal, 250GLR, φ200DI, 2.40km φ200DI, 0.25km RL=67.0, HWL=71.0 m RL=34.0, HWL=38.0 k Dargalim, 300 OHR, 7 Corgao(Proposed) .5 3 RL=54.0, HWL=??.? I, Chapora River 300GLR, Tuem, D 50 RL=54.0, HWL=58.0 2 50GLR, 150GLR&400GLR, φ RL=55.0, HWL=59.0 Ozari, 100GLR, RL=71.0, HWL=75.0 φ200DI, 0.25km

Dandoswada, 50GLR, Mandrem, 100GLR, RL=57.0, HWL=61.0 RL=54.0, HWL=58.0 φ400DI, 2.90km

Parcem, 70GLR, RL=54.0, HWL=58.0 φ150DI, 1.29km Tillari Irrigation Canal Mandrem-New(Proposed), 800GLR, RL=54.0, HWL=58.0 Dhargal, 800GLR, RL=44.0, HWL=48.0

Agarwada, 50GLR, RL=54.0, HWL=58.0 Chapora River Morjim(Proposed), 400GLR, RL=54.0, HWL=58.0 Morjim,100GLR&100GLR, RL=54.0, HWL=58.0

Chapora River φ150DI, 3.19km

0 2 km 4 km 6 km

Figure 53.15 Proposed System for the Chandel Water Supply Scheme in 2025

5 – 42