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Environmental Monitoring Report Semestral Report January to June 2014
VIE: Song Bung 4 Hydropower Project
Prepared by Song Bung 4 Hydropower Project Management Board (SB4HPMB) for the Vietnam
Electricity and the Asian Development Bank.
Environmental Monitoring Report Semiannual Report January to June 2014
VIE: Song Bung 4 Hydropower Project
Prepared by Song Bung 4 Hydropower Project Management Board (SB4HPB) for
Vietnam Electricity and the Asian Development Bank.
Project head office: Song Bung 4 Hydropower Project Management Board No. 539 Nguyen Huu Tho, Da Nang City Tel: +84 511 2488 811 Fax: +84 511 2621 535
CURRENCY EQUIVALENTS (as of 10 July 2014)
Currency unit – dong (D) $1.00 = 21,180 VND
ABBREVIATIONS
ADB Asian Development Bank EVN Electricity of Viet Nam BYT Ministry of Health MONRE/BTNMT Ministry of Natural Resources and Environment EVN Electricity of Vietnam PMU Project Management Unit NR Nature Reserve IMA Independent Monitoring Agency EMP Environmental Management Plan KK Air sampling location NM Surface Water sampling location SH Domestic water sampling location NT Waste Water monitoring location NG Underground water monitoring location QCVN National Technical Regulation TCVN Vietnam Standard PMB Project Management Board SB4 Song Bung 4 PPC Province People’s Committee DPC District People committee
NOTES
In this report, “$” refers to US dollars, “VND” refers to Vietnam Dong unless otherwise stated.
This environmental monitoring report is a document of the borrower. The views expressed herein do not necessarily represent those of ADB's Board of Directors, Management, or staff, and may be preliminary in nature. In preparing any country program or strategy, financing any project, or by making any designation of or reference to a particular territory or geographic area in this document, the Asian Development Bank does not intend to make any judgments as to the legal or other status of any territory or area.
TABLE OF CONTENTS
1. INTRODUCTION............................................................................................................ 1 1.1. Project background..........................................................................................................1 1.2 Project owner and other project stakeholders..................................................................2 1.3. Objectives of EMP Monitoring .........................................................................................2
2. PROJECT IMPLEMENTATION ...................................................................................... 3 2.1. Package XL01..................................................................................................................3 2.2 Package XL02...................................................................................................................4 2.3 Package TB04...................................................................................................................4 2.4. Package TB05..................................................................................................................5
3. COMPLIANCE WITH EMP............................................................................................. 5 3.1. Environmental mitigation measures in compliance with EMP .............................................. 6 3.2. Wastes ........................................................................................................................... 9 3.3. Non-conformance reports (NCR)......................................................................................... 9 4. MONITORING PROGRAM........................................................................................... 11
4.1. Monitoring background ..................................................................................................11 4.2. Water quality monitoring................................................................................................11 4.3. Wastewater quality monitoring.......................................................................................15 4.4. Air quality monitoring ....................................................................................................19 4.5. Underground water quality.............................................................................................22
5. BIODIVERSITY OFFSET PROGRAMS........................................................................ 25 5.1. Capacity building program.............................................................................................25 5.2. Rehabilitation program ..................................................................................................25 5.3. Reservoir clearance.......................................................................................................26
6. FUND FOR ENVIRONMENTAL PROGRAMS.............................................................. 27 7. CONCLUSION AND RECOMMENDATION.................................................................. 27 7.1 Conclusion ......................................................................................................................... 27 7.2. Recommendation .............................................................................................................. 27 Annex 1. Pictures on environmental compliance at site............................................................ 28 Annex 2. List of Non-conformance Reports.............................................................................. 31
1. INTRODUCTION
1.1. Project background
1. Song Bung 4 Hydropower Project is part of the Vu Gia – Thu Bon hydropower cascade approved by the Ministry of Industry by Decision No.875/QD-KHDT dated 02/05/2003 and given priority for construction after A Vuong and Song Tranh 2 project. The project is partially funded locally from within Vietnam and partially by a loan from the Asian Development Bank (ADB). 2. Song Bung 4 Hydropower Project is located on Song Bung in the upper part of the Vu Gia River in Nam Giang District, Quang Nam Province. The basin area to the dam of Song Bung 4 is 1,477 km2, length of the main river is about 107km (Figure 1). 3. The headwork is located in the area of the Ta BHing (now Ta Poo) and ZuoiH communes, Nam Giang district, Quang Nam province. The coordinate of the proposed dam is at 15o42’19” of the Northern latitude and 107o38’28” of the Eastern longitude. The powerhouse is located at Ta BHing (now belong to Ta Poo) commune with the coordinate at 15o43’38” of the Northern latitude and 107o38’58” of the Eastern longitude.
Figure 1. Project location
The Project consists of the following salient figures:
- Full supply level (FSL): 222.5m - Minimum operating level (MOL): 205m - Gross storage: 510.8 million m3
2
- Active storage: 233.99 million m3 - Reservoir area at FSL: 15.65km2 - Installed capacity (NLm): 156MW - Firm capacity (Nđb): 35.93MW - Mean annual energy (Eo): 586.25 million Kwh - Gross investment (approved): 4,981.97 billion VND
The overall progress of Project construction: - Kick-off activities : June 2010 - Impoundment : January 2012 - Impounding : August 2014 - Unit 1 Commissioning : September 2014 - Unit 2 Commissioning : October 2014
1.2 Project owner and other project stakeholders
- Project Owner: EVN - Project Executing Agency: Song Bung 4 Hydro Power Project Management Board (that
represents for EVN to implement) - Site Supervision Consultant: Mott Macdonald in association with PECC4 - Contractors: Sinohydro is the main contractor appointed for both of the two civil
engineering contracts: XL01 Design and construction of the Headworks, XL02 Design and Construction of the Waterways
- Independent Monitoring Agency: Social Consultant The Table 1 below show the overall progress of the environmental programs in accordance with EIA, EMP
Table 1. Progress of environmental programs Program Implementation time Status Note
1.Environmental protection From 2009 to 2014 Ongoing See more in Section 3 2. Monitoring program From 2009 to 2014 Ongoing See more in Section 4 3. Capacity building program - For STNR ( building guard post, purchasing boat)
From 2011 to 2012 Finished
4. Reforestation program See more in Section 5.2 - For protection forest 2012-2021 The
taking care/ protection activitiesare starting from 2014
Replanting at site was finished in 2013
- For production/ special-use forest
Not being implemented at the site yet.
5. Community - based forest management
2010-2011 Finished
6. Reservoir clearance 2013 -7/2014 Finished the site clearance
Prepare documents to invite MONRE/ DONRE, local agency to accept the clearance results within July/2014 for reservoir impounding (see more in section 5.3)
1.3. Objectives of EMP Monitoring
4. EMP monitoring is conducted based on (i) approved EIA by MONRE in 2007, (ii) approved EMP by ADB in 2010, (iii) Civil works contract of packages, (iv) Vietnam Technical
3
regulations and Law on Environment, (v) ADB’s environmental safeguards. The objectives of EMP monitoring are as follows:
(i) To monitor the Project compliance with Vietnam Technical regulations and Law on Environment, ADB’s Environmental safeguards, EMP and EIA;
(ii) To monitor the environmental compliance of Contractors during construction phase;
(iii) To suggest the mitigation measures to minimize effectively the negative impacts on environment during construction phase;
(iv) To determine and control new or potential environmental impacts (if any).
2. PROJECT IMPLEMENTATION
5. There are 4 main packages in Song Bung 4 Project:
(i) Package XL-01: Consist of preparation of Engineering and Construction Drawings and Civil Works Construction of Headworks. This contract has been awarded to Sinohydro Corp (Sino);
(ii) Package XL-02: Consist of preparation of Engineering and Construction Drawings and Civil Works Construction of Waterways. This contract has been awarded to Sinohydro Corp (Sino);
(iii) Package TB-04: Consist of supply, transportation, storage and preservation, installation, pre-commissioning and commissioning of electro-mechanical equipment. This contract has been awarded to Hydrochina Huadong Alstom Consortium (HHAC) of China;
(iv) Package TB-05: consist of supply, transportation, storage and preservation, installation, pre-commissioning and commissioning of Hydro-mechanical equipment. This contract has been awarded to Hydraulic Equipment Joint Stock Company (HESCO).
6. The Contractor's works has been implemented in the packages XL.01, XL.02, TB.04, TB.05 such as following:
2.1. Package XL01
The construction progress of package XL 01 is presented in Table 2
Table 2. Construction progress of pakage XL-01
Package’s components Detail items of each component % of completion
The roadsurfaceconcreteanddam cresthandrailforBlock1-5atrightabutment
100 % (with 3 month delay)
The road surface concrete and dam upstream handrail for Block 13-17 at left abutment
100 % (with 2 month delay)
theconstructionof elevatorwell. 100 %
theearthingmeshofdam upstream 100% The drainageholes768mbelow EL199ofdamfoundationand627mfordamblock
100%
Dam
The curtaingrouting487m.
100%
4
DiversionCulvert
Preparationworkfordiversionculvertclosure 100%
PlungePool theexcavationaboveEL119of plungepool. 100%
theinstallationof bridgeandconcretingof
bridgesurfaceforSpan1-4.
100%
The secondstageconcreteforNo.1gateslot 100% thewall constructionof operationhouse. 100%
The concretingtoEL181forEJ6-7,
toEL182forEJ7-8; toEL185forEJ8-9;
toEL185forEJ9-10; toEL185forEJ10-11
100% (with 20-day-delayinconcrete workat EL181platformofspillway.
Spillway
243concreteblocks 100%
RCC crushingsystemandquarry
Stopped operation
2.2 Package XL02
The construction progress of package XL 01 is presented in Table 3
Table 3. Construction progress of pakage XL-02
Package’s
components Detail items of each component % of
completion
civil work for operation house. 100%
concrete work for transformer foundation 100%
construction of oil tank 90%
second stage concrete for tailrace gate slot 70%
Powerhouse:
excavation of cable trench at powerhouse 100%
Switch yard: civil work except traffic road 100%
defect remedy and chemical grouting of cracks 70%
36m backfill grouting 100%
420m consolidation grouting 100%
Headrace tunnel:
super fine cement trial for joints 100%
2.3 Package TB04
The progress of package TB04 is presented in Table 4
Table 4. Construction progress of pakage TB04 Package’s components
Detail items of each component % of completion
Turbine
equipment of
electric
generator
Installation Unit 1
95%
Unit 2 is installing as rate of progress
Auxiliary Installation auxiliary equiment of Unit 1 65%
5
equipment Auxiliary equiment of Unit 2 is installing as rate of
progress Crane of
powerhouse
Crane of powerhouse have been completed installation and that is operating
100%
Gantry Crane of electric generator room have been completed installation that is operating
100%
Switchyard
Installation equiment of switchyard 65%
2.4. Package TB05
The construction progress of package TB05 is presented in Table 5
Table 5. Construction progress of pakage TB05
Package’s components
Detail items of each component % of completion
Intake
The equipment of intake: the flat valve with size (4mx12m), the sewer grates with size (6mx14.4m), 50 tons gantry crane and
hydraulic cylinder system for lifting gate of valve
100%
Spillway
Installation the environmental exhaust pipe to the EL 198 100%
Four radial valve gates 100% Equipment of
spillway
The hydraulic machine equipment of four radial valve gates As rate of progress
3. COMPLIANCE WITH EMP
Thereare many parties carry out environmental compliance inspectionweekly,monthly,and
quarterly as follows:
(i) TheMcDonald/PECC4–acting as supervising consultant-carryout regular
inspection at site andgeneratereport on the EMP compliance to Contractor, SB4 PMB; including toxic gas, noise, dust, sanitation condition, erosion, siltation;
(ii) TheContractor carry out monitoring monthly as mentioned in EMP and apply mitigation measures;
(iii) The SocioConsultant – acting as Independent monitoring agency - conduct compliance monitoring programs in accordance with EMP, EIA every 03 months on safety parallel with environmental quality monitoring program.
(iv) SB4PMB – acting as Project owner – receives all the relevant information, conduct inspection at least once a month with McDonald/PECC4, Contractors
All the retained money due to the non-conformance on EMP has been released. Contractors is required to keep applying the mitigation measures and follow-up activities to ensure the compliance on environment.
6
3.1. Environmental mitigation measures in compliance with EMP
7. The compliance of contractors with EMP has been inspected through their application of
mitigation measures stated in EMP during their construction. The constructor’s implemented
mitigation measures and actions required are required in Table 6.
Table 6. Mitigation measures in compliance with EMP
Potential Environmental
Impacts/Proposed Mitigation Measures mentioned in EMP
Implemented activities Action required/
Recommendations
Impacts on air quality from dust, noise, gas
- Contractor brought three water trucks to spray the roads on the site. - Contractor hired local people to clean access road by hand tools.- Workers are equipped with Personal Protection Equipment (PPE), air quality in tunnel is monitored every week to ensure the working conditions, air ventilation is openned during working times; - Quantity of dynamite, time of blasting, warning signs are under control to ensure safety.
- Cover trucks during transportation; - Spray water at least 2 times/day, everyday; - Build washing station; - Pave, asphalt the road; - Ensure workers’ health; - Ensure safety during blasting activities.
Wastes from domestic use, hazardous wastes generated into the environment
- Dustbins have been placed in camps and construction areas;
- The domestic solid waste from camps: The garbage is collected and transported to the Disposal No.1 for burying. Food waste is collected by the local people for animal breeding.
- Contractor has covered the domestic wastes by a layer of soil every day;
- Construction solid wastes consist of waste materials from soil, rock excavation activities, broken woody tools. They are transported and dumped at the regulated disposal sites. The vegetations from the ground clearing activities are burnt after dried.
- Contractor build stable places to store oil... and has signed contract with Viet Xanh Company to treat hazardous waste. The Viet Xanh company has transported out some amount of hazardous wastes in May 2012. Most of wasted oil is reused to lubricate the formwork of concrete works. The cloth sticked by oil and battery have been stored in separate storage with concrete floor, roof, water drainage with oil trap and will be treated following regulations.
For the domestic wastes: - Toilets should be installed in camps and construction areas.
Wastewater generating from - Contractors have arranged settling Construction wastewater
7
Potential Environmental Impacts/Proposed Mitigation Measures mentioned in EMP
Implemented activities Action required/
Recommendations
construction activities
tank for construction wastewater at concrete mixing area, adit 1 &2 for water from the tunnel, and crushing plant; oil traps to separate oil from rain-water that flow over the rock quarry; - Contractors have built toilets at camps.
- Arranging mud-deposit tank at the rock crush station areas, concrete batching areas; - Arranging oil traps at rock quarry areas, areas for vehicles reparing, oil supplying areas; Domestic waste water Domestic wastewater of workers will be collected and treated by septic tanks.
Reduction of Bung water quality, water courses nearby
- Monitoring water quality of Bung river to determine the trend of water quality change;
- River pollution caused by waste, harmful waste and solid erosion should be minimized; - Mining for mineral at upstream should be monitored and controlled by forest guard; - Monitoring the quality of the river regularly.
Safety on site
There were 03 accidents that cause slight injuries: - 21 Mar: Fall down from the ladder (about 80cm from ladder end) to stop-log warehouse EL 219.8m, one worker was injured; - 10 June: One metal plate fell down and hit truck head (that was parked at EL181 platform, right beneath Gate No.1, one worker was injured; - 02 June: Fall down from the trunnion at spillway, one lworker was injured;
- Supervise and remind site workers to use the personal protection equipment; - Ensure proper load of truck, cover the truck during transportation;
- Contractors should regular
train safety for workers and
remind drivers about driving
safety.
Impact on soil environment and vegetation
- Storage area, repairing area, parking area have roof, concrete floor, drainage surrounding to collect oil leakage;
- Grass were grown on the slopes of the explosive store to prevent erosion;
- The soil and rock fallen down by landslide caused by heavy rains in the rainy season were cleaned and collected.
- Erosion and loss of top sod: restoring the top sod after construction;
- Solid waste pollution: collect oil at oil storage, repairing area, parking area. These areas will be consolidated by waterproof and drainage;
- - Restore dam site and other roadwork zones: A large area in the vicinity is grassy and vulnerable to erosion and slippage due to construction activities of vegetation clearing, scaling, driving of heavy vehicles, blasting. This area needs
8
Potential Environmental Impacts/Proposed Mitigation Measures mentioned in EMP
Implemented activities Action required/
Recommendations
to be resorted by growing vegetation and making solid ground
- Make the Disposal No.2
and Disposal No.4 in
accordance with technical
design to prevent erosion.
Biological impacts
- The guard post at the Vinh stream has been put in operation to limit the access into the forest/ STNR. Also, a police guard at the entrance of SB4 project site (constructed in 2011) helps to prevent illegal logging at the project site and ensure security for the site; - The construction workers have been trained not to use products from wild animals, not cutting down tree outside of project boundary, not to use wood for fuel but using gas,… These issues have been inspected frequently, continuously by MM/PECC4. According to the report from Independent Environmental Monitoring Agency, the local forest control does not include any findings on illegal hunting from SB4 site’s workers; - The Community-based forest management program finished in 2011, has complied with EMP. This program helps affected people to access to and profit from non-timber forest products; - Capacity building for Song Thanh NR, including building a guard post and supplying a boat to increase the patrolling of STNR staff to prevent illegal hunting and access to forest when there are construction activities and reservoir; - Rehabilitation plan for the areas affected by construction activities has been implemented.
- Construction activities will require removal of trees; Building (access roads) and improvement (highway) of roads, and transmission lines in relation to the Song Bung 4 HPP will increase access to the forested areas in the vicinity and potentially increase illegal logging, - The temporary increase in workers to the construction site will increase the potential for illegal fuel wood and non-timber forest product collection and hunting. Mitigation measures for these impacts include (a) Disseminating widely the regulation of forest protection and hunting forbiddance; (b) provision of environmental training on environmental management issues, (c) environmental protection by guards, capacity building of forest rangers, and imposing fines for illegal activities, and (d) community awareness campaign. - Vegetation will also be lost in the STNR, other areas and might affect local people. Instead of paying for each tree lost, the Project will support a conservation off-set program, including: community based forest management plan, rehabilitation plan, capacity building program.
9
3.2. Wastes
(i) Solid wastes from construction activities 8. Construction solid waste generated in the construction site includes: building materials, rubble and soil, etc… They were collected and transported to disposal sites along construction roads. Currently, the transportation of refuse soil and rubble has been decreased. It was mainly the transportation of surface soil in rock quarry to the waste disposal No.1. 9. At the disposal areas, mitigation measures are applied to prevent land slide, soil erosion, such as rock layers were laid on the bottom of the disposal areas and on the slopes of disposal areas, water drainage system was built around the disposal area to collect the rain-water.
(ii) Domestic solid wastes 10. Domestic solid waste of the offices, camps and kitchen was collected into 15 mobile waste bins (150 liters/each) which were placed around the main camp area and 01 large mental bin-about 12 m3 was used to collect waste before they was buried in the waste disposal.
(iii) Hazardous solid waste
11. Hazardous waste is generated from material storage areas, waste disposal sites and vehicle gathering and repair area. 12. The composition of hazardous waste generated at the construction area was mainly consisted of waste oil from the oil change of vehicles and machines; and lubricant clouts that contain lubricant. SinoHydro Contractor has signed contract with Viet Xanh Environmental Limited Company (Contract Number 2/5-2012 – HA/CN dated 01 May, 2012) whose license accredited by government for transporting, storage and treating the hazardous wastes. Hazardous wastes will be collected, transported and treated under the contract including: (1) Hydraulic oil waste; (2) lubricant clouts; (3) unused battery; Collection frequency is based on the request of the construction site. Also, at oil supplement areas and hazardous wastes are put/ stored at a storage in accordance with Vietnam regulation as follows having concrete floor, roof, drainage with collection pit to collect water and leaked oil. The leaked oil will be absorbed into the clout. 13. In 2012, Viet Xanh Environmental Limited Company collected and treated the hazardous solid waste one time in May, including: 1500 liters of oil waste; 22 batteries and 15kg clouts with lubricant. 14. From May 2012, the used-oil has been reused to lubricate the formworks for concrete work at the dam, at the tunnel… Hence, there is little used-oil at site (except some cloths sticking oil, unused battery have been all stored at site) and will be treated before the Project ending.
3.3. Non-conformance reports (NCR)
15. In the first six months of 2014, eight Non-Conformance Reports (NCR) has been issued (with one NCR was closed). Thus, there are the total twelve unclosed NCR.
10
The main contents of the NCRs have not closed as follows:
- The material layer of slope is unsuitable at Disposal area No.1 & 2 and it is not in
accordance with SCL's method statement ;
- The D6 road to Surge Shaft Platform at EL 222.5 mm is formed on filled material. Much of
the excavated material has been tipped form the side of this Platform west into the valley.
Significant erosion has taken place following heavy rain undercutting the access road and
washing material into the valley ;
- Opposite from Adit No.1, domestic solid waste is mixing with construction waste has been
dumped on the riverside near the small batching plant beside the D5 road. This action
does not comply with the requirement of the approved EMP ;
- Waste water due to the process of crushing material is not collected thoroughly into the
sediment pond at small Crushing Plant in Snake Valley. It has discharged directly to the
river. This action does not comply with the requirement of the approved EMP;
- In the powerhoouse, there are much excrement in the supply air ventilation pit and in the
ventilation equipment room at EL104 of Powerhouse and in the both spiral cases and in
the drainage ditch behind switchyard. The excrements are not collected and it is bad smell.
Those action does't comply with the requirement of the approved Environmental
Management Plant;
- At the powerhouse area, two mobile toilets have not been used because their doors areas
always locked so that workers could not gone to the toilet in right place. This action does
not comply with the requirement of the approved Environmental Management Plant;
- Construction waste has been dumped on the riverside from Disposal No.4 to Substation
nearly powerhouse area and in front of small crushing plant in snake valley but SCL
Contractor has not implemented any measures at the ruver side to prevent soil erosion
and land slide. Constructor also did not been transported construction waste to Disposal
No.4 for burying. This action does not comply with the requirement of the approved
Environmental Management Plant;
- At the Camp No.45, there are much garbage in the drainage ditch beside the camp,
behind the camp and many other location. The garbage is not collected to dustbin or
temporary garbage pit beside D1 road nearby and that smell bad. There are many insect
here and the sanitation is not satisfied. Those action does not comply with the requirement
of the approved Environmental Management Plant;
-The toilet of the HESCO’s camp at the left bank has no cesspool or septic tank. The waste
from this toilet has been discharged directly into the enviroment.
11
4. MONITORING PROGRAM
4.1. Monitoring background
The Socio consultant as an independent monitoring agency conducts monitoring programs every 03 months. The monitoring aspects are following:
- Surface water quality - Waste water quality - Air quality - Underground water quality
The detail monitoring locations, parameters and results are described un the following sections:
4.2. Water quality monitoring
Two water samples were taken atupstreamand down stream of the construction site(Figure 2) to monitor the impact of construction activities on the water quality. The detail description ofsurfacewatersamplinglocations and parameters to be monitored are presented in Table 7
Table 7. Description of surface water sampling locations and monitoring parameters
Sample
mark Positions Description Parameters Methodology
pH
Temperature
Conductivity
Turbidity
TSS
BOD5
NM1
Upstream of
the
construction
site
The sample was taken at the upstream of the
construction site that is 50m from Khe Vinh to the
downstream. Water level was normal. Water was
relatively turbid and alluvial.
COD
DO
PO43-
-P
NO3
NH4
Total Nitrogen
Total Phosphorus
Total lubricant
NM2
Downstream of
the
construction
site
The sample was taken at the downstream of
construction site. Water level is normal. Water is
relatively turbid.
Total Coliforms
The single water samples were individually taken
because: this section of the river is large, shallow and
the flow is strong. Therefore, it is not required to take
composed samples in depth according to the
regulations on continental surface water monitoring
because water in every position on the river has all
the same characteristics…
Analysis methodology is based on the standard
stipulated by MONRE
14
The analyzed results of water quality parameters are presented in Table 8 and Figure 3
Table 8. Surface water quality
Parameters pH DO TSS BOD5 COD N- NO3- N-NH4+ Total oil
Turbidity PO4 3- Coliforms
Upstream of construction area (NM1)
Quarter 1/2014 7,6 6,8 96 0,76 6 0,3 0,45 0 74 0,09 90
Quarter 2/2014 7,5 7,2 207 3 4 0,6 0,29 0 196 0,07 430
Downstream of construction area (NM2)
Quarter 1/2014 7,4 6,8 125 0,6 4 0,2 0,55 0 87 0,08 70
Quarter 2/2014 7,6 7,2 226 3 4 0,5 0,43 0 227 0,12 280
QCVN 08:2008/BTNMT
6-8.5 > 5 30 6 15 5 0.2 0.02 5000
Note: QCVN 08:2008/BTNMT is National technical regulation on surface water quality,columnA2(used for watersupplypurposes
butto applyappropriate treatment technologies; conservation of aquatic plants, or items use as B1 and B2
Figure 3. Flowchart of surface water quality
0
40
80
120
160
200
DO TSS BOD5 COD NO3- - NNH4+ - NTotal oilColiforms
%
Parameters
Surface water quality
Quarter1/2014 (NM1)Quarter 2/2014 (NM1)Quarter 1/2014 (NM2)Quarter 2/2014 (NM2)Average
16. These are the results from random samples at the monitoring period. The main issues of surface water quality are the Total suspended solid (TSS), nitrogen. The remaining parameters are under allowable limits. 17. Comparing water quality at upstream and downstream of construction site,showed that the project activitieshave impact on water quality regarding total suspended solid. Comparing water quality during first quarterand second quarter. showed that during the first quarter the water quality was seriously impacted than that in thesecond quarter. It can be explained that the at the first quarterthe construction activities were actively implemented. Mean time, during second quarter, the construction activies were much less intensive.
However, This water source is not used for domestic use in construction site and for local people in radius of 15 km downstream of the powerhouse. The site workers and local people use the upper streams for their domesticuse. Thus, the impact is negligible
18... Conclusion. Surface water of Bung river has been affected by the construction activities, especially the turbidity is very high. However, site workers and local people living around do not use this water source for domestic use. Hence, this will not impact on their health.
4.3. Wastewater quality monitoring
Three wastewater samples treated by septic tank were taken at worker camps’ areas (Figure 4) to monitor the wastewater quality generated by daily activities of workers before discharginginto the surrounding water bodies. The detail description of waste water samplingl ocations and parameters to be monitored are presented in Table 9
19. The sampling locations are at worker camps’ areas where domestic activities generate wastewater. All the wastewater has been treated by septic tank before discharging into environment.
16
Figure 4. Sampling station for wastewater quality
Note: NT1a: Main camps of contractor
NT2a: Camp No.13 (near Big Bear bridge) NT3c: Camp on the left abutment
Table 9. Description of wastewater sampling location and monitoring parameters
Sample
mark Position Description
Monitoring
parameters
pH
TSS NT1a The upper camp area of
SinoHydro
The sample was taken from the
sewer pipes before wastewater is
discharged into the environment.
The water was slightly smelly. BOD5
NO3
NT2a Camp 13
The sample was taken from the
sewer pipes before wastewater is
discharged into the environment.
The water was slightly smelly. NH4
PO43-
Total lubricant NT3c
The camp of Song Da 5 in the
quarry
The sample was taken from the
sewer pipes before waste water
is discharged into the
environment. The water was
slightly smelly and turbid. Coliforms
The analyzed results of wastewater quality parameters are presented in Table 9 and Figure 5.
Table 9. Wastewater quality monitoring results
Parameters pH TSS BOD5 N-NO3- N-NH4+ P-PO43- Total oil Coliform QCVN 14:2008/BTNMT, column B colum II 5-9 100 50 50 10 10 20 50000 Quarter 1/2014 NT1 7,4 21 23 0,6 0,53 0,08 1,6 90 NT2 7,1 17 26 0,8 0,9 0,08 1,2 93000 NT3 7 14 41 1 44,1 1,82 0,6 21000 Quarter 2/2014 NT1 7,3 110 21 0,4 4 0,6 1,2 2100 NT2 7,4 27 29 0,2 7,5 0,84 0,4 43000 NT3 7,2 20 44 0,6 2,1 0,16 0,2 430000
Note: QCVN 14:2008/BTNMT, column B colum II: Allowable limits of contaminants as a basis for calculation of the regulated maximum value
in the wastewater when being discharged into the water sources that are not used as domestic water supplies.
Figure 4. Flowchart of wastewater quality
0
20
40
60
80
100
120
140
TSS BOD5 N-NO3- N-NH4+ P-PO43- Total oil Coliform
%
Parameter
Wastewater quality
NT1(Quarter 1/2014)
NT2 (Quarter 1/2014)
NT3 (Quarter 1/2014)
NT1 (Quarter 2/2014)
NT2 (Quarter 2/2014)
NT3 (Quarter 2/2014)
Average
19
20. The monitoring results are compared with Vietnam standard for wastewater quality, named QCVN 14:2008/BTNMT, column B (pollution parameters as a basis for calculating the regulated maximum value in the wastewater when being discharge into the water that is not used for domestic water supply). 21. Conclusion: From the monitoring results, most of wastewater parameters before discharging into environment that have met requirements (under the allowable limits of QCVN 14:2008/BTNMT), coliform parameter is the main issue of the wastewater quality. The results have been informed to Contractors, Mott MacDonald& PECC4 to excavate the full septic tanks to ensure the treatment capacity for water before discharging into environment.
4.4. Air quality monitoring
Noise, dust, vibration, gas generate from: (i) Operation of rock crushing and screening stations and concrete mixing
stations cause concentrated dust.
(ii) Vehicles traveling on road, blasting cause distributed dust. Mitigation measures are spraying water onto the road, at least 4 times/ day; cover the trucks transporting materials.
(iii) In the first six-month of 2014, the source of pollution was generated from rock exploiting (aggregation, crushing plant) transporting material to dam construction. The main pollution parameters were dust and noise.
Five air samples were taken at different construction areas (Figure 6) to monitor the air quality regarding to dust, noise and emission gases. The detail description of air quality sampling locations and parameters to be monitored are presented in Table 10
Figure 6. Sampling locations for air quality
Note: KK1a: Main dam area KK2: Rock quarry area KK3c: Power house KK4: In Vinh village –Ta Poo commune KK5b: RCC concrete mixing plant
Table 10. Description of air sampling location and monitoring parameters
Sample
mark Positions Description
Parameters
KK1a
The left abutment
This sample was taken in
construction area in the left
abutment
KK2 Rock quarry –
crushing plant
This sample was taken in the
crushing plant – rock quarry
when the rock exploitation and
transportation were paused.
KK3c Powerhouse This sample was taken in the
turbine installation area.
CO, NO2,
SO2,Total
suspended
particle(TSP),
Noise (Leq, L90,
L50) and Vibration
KK4 Vinh Village –Ta
Poo Commune
Noise level was measured
nearby the community house
in Vinh Village – Ta Poo
Commune
KK5b Concrete mixing
plant
This sample was taken in the
concrete mixing plant when
concrete mixing was paused
and the plant was about
dismantled.
Noise (Leq, L90,
L50) and Vibration
The analyzed results of air quality parameters are presented in Table 11 and Figure 7
Table 11. Air monitoring results
Parameters
Noise L50 (dB)
Noise L90 (db)
Noise Leq (dB)
Vibration (m/s2)
TSP (mg/m3)
CO (mg/m3)
Nox (mg/m3)
SO2
(mg/m3)
Standard (QCVN 05:2009/BTNMT) 70 70 70 0,055 0,3 30 0,2 0,35
KK1a(Q1) 74,6 69,2 85,7 0,0118 0,14 2 0,03 0,007
KK2(Q1) 69,1 65,4 79,8 0,0107 0,72 1 0,03 0,007
KK3c(Q1) 71,2 64,7 87,8 0,0012 0,08 2 0,01 0,007
KK4(Q1) 58,7 51,5 61,4 0,0014 - - - -
Quarter 1/2014
KK5b(Q1) 59,1 49,7 70,4 0,0119 - - - -
KK1a(Q2) 65,4 64,2 75,6 0,0106 0,05 1 0,18 0,038
KK2(Q2) 43,2 40,5 51 0,0001 0,04 1 0,12 0,02
KK3c(Q2) 68,4 66,5 77,4 0,0009 0,04 1 0,09 0,016
KK4(Q2) 56,2 53,6 64,5 0,0016 - - - -
Quarter 2/2014
KK5b(Q2) 49,5 48,6 56,4 0,0086 - - - -
Figure 7. Flowchart of air quality
00
20
40
60
80
100
120
140
L50 L90 Leq Vibration TSP CO NOx SO2
%
Parameters
Air qualityKK1a(Q1)
KK2(Q1)
KK3c(Q1)
KK4(Q1)
KK5b(Q1)
KK1a(Q2)
KK2(Q2)
KK3c(Q2)
KK4(Q2)
KK5b(Q2)
Average
22
22. .The dust (TSP) and noise in some Project areas (crushing plan in rock quarry) were exceeded the allowable limits by a slight margin. However, value of these parameters at the village near by were lower than limits. Hence, the impacts were temporary and localized and would disappear once the construction is complete; the project-related construction activities area contributing factor.
Conclusion: Air environment in the construction site is not polluted by toxic emission. The
main issue of air quality is the dust in the rock quarry. Contractors have been reminded to water the road during transporting materials, cover the trucks and keep spraying water at the rock crushing plant.
4.5. Underground water quality
23. Construction workers have not used the underground water for domestic use. Some households in some villages (in Ta Poo commune, Chaval commune) that might be impacted by Project construction. Hence, six underground water samples at different communes (figure 8 and figure 9) are taken to evaluate the underground water quality. The sampling stations for underground water and parameters to be monitored are presented in Table 12.
Figure 8. Sampling stations for underground water in Ta Poo Commune
Figure 9. Sampling stations for underground water in Chaval Commune
Note: - NG1a, NG2, NG3a: monitoring positions in Vinh village, Ta Poo commune, Nam Giang District
- NG4a, NG5b, NG6a: monitoring position in Chaval commune, Nam Giang District
Table 12. Description of underground water sampling location
Sample
mark Positions Description
Monitored
parameter
pH NG1a
Water from well of Mr. Nguyen Xuan
Thieu, Vinh Village, Ta Poo Commune
This sample was taken from a
7m-deep well. Turbidity
Cl-
Hardness
(as CaCO3) NG2
Water from well of Nguyen Van Hoa,
Vinh Village, Ta Poo Commune
This sample was taken from a
6m-deep well, 100m far from
the access road to the quarry.
TDS
TSS NG3
Water from well of Mr. Phan Tan, Vinh
Village, Ta Poo Commune
This sample was taken from a
6m-deep well COD
NH4+ - N
NG4a Water from well in the military and civilian
health center in ChaVal Commune
This sample was taken from a
8m-deep well NO2- - N
PO43- - P
NG5b Water from well of ChaVal forest
protection station
This sample was taken from a
7m-deep well Fe
SO42-
NG6a Water from well of Mr. Le Trong Tuyen,
ChaValCommune
This sample was taken from a
8m-deep well Coliforms
Table 13. Monitoring results of underground water quality
Parameters pH Turbidity CL- Hardness TDS TSS COD N-NH4+ N-NO2 P-PO4 Fe SO4 Coliform
Standard (QCVN 09:2008/BTNMT)
5,5-8,5
5 500 1500 4 0,1 1 1 400 150
NG1a (Q1) 7,1 4,9 48,0 135,0 313,0 7 4 0,06 0,004 0,17 0,04 11 23 NG2 (Q1) 6,7 5,8 24,0 95,0 139,0 5 4 0,06 0,003 0,1 0,07 2,2 0
NG3a (Q1) 7,3 4,4 26,0 92,0 221,0 5 4 0,06 0,002 0,1 0,06 2,2 43
NG4a (Q1) 7,1 5,6 52,0 85,0 189,0 6 4 0,06 0,003 0,1 0,1 5 40
NG5b (Q1) 6,7 4,6 45,0 65,0 160,0 3 4 0 0,002 0,08 0,18 2,2 0
Quarter 1/2014
NG6a (Q1) 7,1 4,3 70,0 77,0 141,0 5 4 0,06 0,002 0,17 0,06 2,2 0 NG1a (Q2) 6,9 3 42,0 133,0 153,4 2 4 0,06 0,005 0,26 0,06 13 15 NG2 (Q2) 6,8 4 26 70 85,5 6 4 0,06 0,003 0,16 0,06 2,2 9
NG3a (Q2) 7 5 20 26 43 2 4 0,06 0,003 0,13 0,05 2,2 4
NG4a (Q2) 6,9 6 37 122 140 3 4 0,009 0,003 0,25 0,26 7 9
NG5b (Q2) 7 7 22 57 79,8 2 4 0,1 0,025 0,24 0,12 2,2 15
Quarter 2/2014
NG6a (Q2) 6,8 1 21 75 75,9 2 4 0,06 0,003 0,24 0,09 2,2 0
Figure 10. Flowchart of underground water quality
00
20
40
60
80
100
120
140
%
parameters
Quality of underground water
NG1a (Q1)
NG2 (Q1)
NG3a (Q1)
NG4a (Q1)
NG5b (Q1)
NG6a (Q1)
NG1a (Q2)
NG2 (Q2)
NG3a (Q2)
NG4a (Q2)
NG5b (Q2)
NG6a (Q2)
Average
25
24. Conclusion: Quality of underground water meets the QCVN 09:2008/BTNMT standard but it needs to be treated when use as clean water for domestic use.
5. BIODIVERSITY OFFSET PROGRAMS
5.1. Capacity building program
Objective
25. Inundating reservoir and building road for flood avoidance of the Song Bung 4 project will increase access to the Song Thanh Nature Reserve. This would increase activities such as illegal timber logging and hunting, water quality decrease, excessive forest products exploitation and change of forest use as well as decrease of water quality.
26. As a result of the inundation, the access by water to Tra Vinh (Vinh stream), Dak Pring and Bung Rivers will be created at Ta Bhing and Zuoih communes. Since access into the forests will be easier by boat, hunters and loggers in the area may be tempted to gain access to the forest products of both Song Thanh Nature Reserve and watershed areas (Dak Pring river, forest near the dam site). The forest products may be removed from the forests first by using the waterway then transported by road. Hence, the capacity program for Song Thanh NR with supplying equipment and building guards post is useful and necessary.
27. The construction of guard post is finished and put in use at the end of 2013 ; the boat has been ordered and brought to STNR. The boat will be launched when the reservoir is inundated, probably in August 2014. 28. The capacity building has been implemented. At the project site, there are 02 guards post to ensure the security at site; One is at the entrance of the construction site of main civil works, SB4 built a guard post (construction finished in June 2011) for Police of Nam Giang District to patrol at the construction site. The other is the above mentioned guard post for STNR that has just been built to control the illegal access to forest by water way.
5.2. Rehabilitation program
Objective
29. The implementation of rehabilitation plan will enhance forest quality and soil conservation through plant and enriching forests, and thus increase watershed protection. 30. The rehabilitation plan for STNR is a part of the afforestation and rehabilitation for areas that are affected by Song Bung 4 HPP. Some of these total areas will be planted as production forest by affected communities in the Community based forest management. So that they can have benefits from forest (non-timber forest products such as rattan, bamboos). 31. The decisions/ actions related to the reforestation activities are as follows:
(i) Decision No. 2334 of Quang Nam PPC dated 26 July 2010 on Approval of
Afforestation Plan replacement for Forest areas to be transferred by purpose serving for Song Bung 4 hydropower project. According to thí decision, the affected areas includes: 128.5ha of special –use forest (these are of STNR, 141.5 ha of protection forest and 182.9 ha of productive forest areas.
(ii) Decision 2464/QD-UBND of Quang Nam PPC dated 09 August 2013 on 03 types of forest planning. According to this Decision, the affected special-use forest has changed from 128.5ha to 65.05 ha, the affected productive forest areas changed
26
from 182.9ha to 49.8ha. Hence, the Afforestation Plan will be submitted to Quang Nam PPC for approval due to the chage of the affected areas.
(iii) Only the protection forest area has not been changed and this forest areas has been reforested. The taking care activities are going on from 2014 to 2020.
(iv) Fund/ source Total cost for the rehabilitation plan is 15.6 billion VND (based on Decision No.2334). SB4 has transferred 5.2 billion VND from budget for protection forest replantation to nam Giang Reforestation management Board (RMB) to conduct the reforestation at sites. The money transferred to RMB is based on the implementation progress.
32. Conclusion: The afforestation design for productive forest and special-use forest and geeting approval form Quang Nam PPC have taken much time. This will cause the whole afforestation slower than schedule.
5.3. Reservoir clearance
33. The project will create a reservoir with an area of about 16 km2 and store a total volume of water of 493 million m3 at the Normal Water Level (NWL) of El. 222.5 m. Thus, the vegetation cover will be inundated by the reservoir. Before reservoir inundation, the reservoir must be cleared trees must be cut down in order to mitigate eutrophication and water pollution.
34. The reservoir clearance plan was reviewed by MONRE and DONRE. Also, these agencies have sent the comments to SB4 in January 2013 to revise the plan. Based on the calculation in EIA, 60% of biomass volume must be removed from the reservoir to ensure the concentration of Dissolved oxygen (DO) in the reservoir > 6 mg/L in accordance with Vietnam standard QCVN 08:2008/BTNMT of the surface water.
35. The reservoir plan was submitted to EVN and got approval in July 2013. The plan show that the DO in water course after reservoir inundation is 6.324 mg/L. (>6mg/L). Volume of components cleared in the reservoir are shown in Table 14..
Table 14. Volume of components cleared in the reservoir
No. Content Unit Volume Implementation progress (%)
Note
1 Biomass removal ton 42 789 100 2 Graves unit 1 574 100 Loading, moving to
cemetery 3 Residential areas Houses, crops, cattle
housing, public house in inundated villages
- Areas of local people
m2 62 426 100
- Public areas m2 15 156 100
36. At the beginning of July 2014, the reservoir clearance activities were finished at site. Currently, SB4 PMB has prepared all the necessary documents to invite the MONRE, Quang Nam DONRE, local agencies to conduct site inspection and accept the reservoir clearance results in accordance with requirements in EIA before impounding the reservoir.
27
6. FUND FOR ENVIRONMENTAL PROGRAMS
The budget disburment for environmental management activities is presented in Table 15.
Table 15. Fund for environmental management activities
No Content Total Fund (VND)
Disbursement until end of June 2014
(VND)
Note
1 Biodiversity off-set program 15,677,381,647 5,200,000,000 (~31%)
2 Environmental monitoring (IMA)
1,500,000,000 1,055,000,000 (~ 71%)
Implement from August 2009 to 2014
3 Capacity building for STNR 1,104,000,000 1,104,000,000 (100%)
4 Reservoir clearance 4.1 Consultant package prepare
the plan 412,000,000 412,000,000
(100%)
4.2 Conduct the reservoir clearance
18,397,796,000 16,397,796,000 (90%)
7. CONCLUSION AND RECOMMENDATION
7.1 Conclusion
37. Environmental programs being conducted in the first six –month of 2014 have been compliance with plan schedule basically, only the conservation off-set program are implemented slower than schedule. In general, SB4 PMB have been trying to implement all the committed environmental programs catching up with the Prject construction, in accordance with EMP and EIA. 38. The biodiversity off-set program is a little late than the general schedule. Because the change 03 types of forest planning of Quang Nam PPC.
7.2. Recommendation
39. SB4 PMB will cooperate closely with RMB, STNR, related agencies to get approval for the afforestation design of special-use forest, productive forest so that the replanting at site can be conducted in September 2014 ( rainy season).
28 Annex
Annex 1. Pictures on environmental compliance at site
1. Mitigate dust at the rock quarry
Cover crushing chutes Watering material at crushing plant 2. Settling tanks
Settling tank in RCC concrete plant Settling tank at the rock quarry 4. Storage area for oil, fuel at site
30 Annex
7. Biomass removal in reservoir bed
Biomass clearance in reservoir at normal level 222.5 m
Biomass clearance before dam site Cutting trees in reservoir area
Annex 31
Annex 2. List of Non-conformance Reports
(The unclosed NCRs are highlighted with green color)