CONTENTS
6.
Summary of Monitoring Exceedance,
Complaints, Notification of Summons and Prosecutions.34
Appendix A Master Programme
Appendix B Overview of Desalination Plant in Tseung Kwan O
Appendix C Summary
of Implementation Status of Environmental Mitigation
Appendix D Impact
Monitoring Schedule of the Reporting Month
Appendix E Event/Action Plan for
Noise Exceedance
Appendix F Noise
Monitoring Equipment Calibration Certificate (Blank)
Appendix G Event/Action Plan for Water Quality Exceedance
Appendix H Waste
Flow Table
Appendix I Site
Inspection Proforma
Appendix J Complaint Log
Appendix K
Impact Monitoring Schedule of Next Reporting
Month
Appendix L
Water Quality and Landfill Gas
Monitoring Data
Appendix M
HOKLAS Laboratory Certificate
Appendix N
Water Quality and Landfill Gas
Equipment Calibration Certificate
Appendix O
Exceedance Report(s)
INTRODUCTION
A1. The
Project, Design, Build and Operate First Stage of Tseung Kwan O Desalination
Plant (TKODP), is a Designated
Project under the Environmental Impact Assessment Ordinance (Cap. 499) (EIAO) and is currently governed
by a Further Environmental Permit (EP No. FEP- 01/503/2015/A) for the construction and operation of the
Project.
A2. In
accordance with the Environmental Monitoring and Audit (EM&A) Manual for
the Project, EM&A works for
marine water quality, noise, waste management and ecology should be carried out by Environmental Team (ET),
Acuity Sustainability Consulting Limited (ASCL), during the construction phase of the Project.
A3. This is the
20th Monthly
EM&A Report, prepared by ASCL, for the Project summarizing the monitoring results and audit findings of the EM&A
programme at and around Tseung
Kwan O Area 137 (TKO 137) during the reporting period from 1 October 2021 to 31 October 2021.
A4. The EM&A
programme for this contract has covered environmental monitoring on construction noise level at selected NSRs and Contractor¡¦s environmental performance auditing
in the aspects of construction dust, construction noise, water quality,
waste management, Landscape and Visual and Ecology.
SUMMARY
OF MAIN
WORKS UNDERTAKEN & KEY MITIGATION MEASURES IMPLEMENTED
A5. Key activities carried
out in this reporting period for the Project included
the followings:
-
Land Survey;
-
Construction of ActiDAFF perimeter wall and water tank;
-
Construction of Reverse Osmosis
(RO) Building - column and wall from Basement to Roof, beams and slabs for Roof Floor; water
tank; Electrical Building
roof floor slab, columns and wall;
-
Construction of Product Water Storage Tank (PWST) perimeter
wall and Electrical Building¡¦s roof slab;
-
Construction of manholes no. 8
and no. 9 adjacent to PWST;
-
Construction of Post Treatment Building 1/F;
-
Construction of ground floor
slab and first floor columns
and beams of Administration Building;
-
Construction of reinforced concrete
(R.C) footing of Inspection Corridor;
-
Internal finishing
work in Main Electrical and Central Chiller Plant Building;
-
Outfall Shaft
‐ rockfill removal & dewatering;
-
Diver¡¦s work to touch up seabed
bottom for concrete
plug at Outfall Shaft;
-
Rockfill removal
from inside caisson
at Outfall Shaft;
-
Excavation &
Lateral Support (ELS) erection
at Intake Shaft;
-
Sheet piling
works at Intake Shaft;
-
Pipe jacking
at Combined Shaft for Intake & Outfall pipelines;
-
Cable drawpit
construction;
-
Glass Reinforced Plastic (GRP) pipe lamination and laying;
-
Construction of structural wall of Chemical Building;
-
Wan Po Road Sewage Works - Temporary Traffic Arrangement (TTA), excavation and laying High-Density Polyethylene (HDPE)
pipe;
-
Construction of On-Site Chlorine
Generation (OSCG) Building
footing;
-
Excavation and lateral support
(ELS) at Pump house
A6. The major environmental impacts brought by the above construction works include:
-
Construction dust and noise generation from marine construction works, excavation works, ELS installation works, breaking of concrete
surface and construction works and pipe piling driving works
-
Waste generation from the construction activities
-
Impact on water quality
from marine construction works and inland
construction works
A7. The key environmental mitigation measures implemented for the Project
in this reporting period associated with the above construction works include:
-
Dust suppression by regular wetting
and water spraying
for construction works
-
Reduction of noise from equipment and machinery on-site
and regular inspection to machinery and plants/vehicles
on-site to ensure proper functioning
-
Sorting and storage of general refuse
and construction waste
-
Deployment of temporary silt curtain in the area where marine construction works were conducted and deployment of water
sedimentation tanks for treatment of wastewater at inland areas before
discharge
SUMMARY OF
EXCEEDANCE & INVESTIGATION
& FOLLOW-UP
A8. No noise
monitoring was conducted during the reporting period since there are no
project- related construction
activities undertaken within a radius of 300m from the monitoring locations. No project-related exceedance of the Action Level was recorded during the reporting
period.
A9. The EM&A works for water
quality were conducted during the reporting period in accordance with the EM&A
Manual.
A10. Fifty-Seven (57) of the general water
quality monitoring results of suspended solids (SS) obtained had exceeded
the Action Level. Forty-seven (47) of the general water quality monitoring results of SS obtained during
the reporting period
had exceeded the Limit Level.
A11. Details of the exceedance are presented in Appendix O.
A12.Investigation
on the reason of exceedance has been carried out, where the exceedances of SS on 07/10, 14/10, 16/10, 18/10, 20/10,
23/10, 25/10, 27/10, and 29/10 were concluded to be unrelated to the project as detailed in the Incident Reports
on Action Level or Limit Level Non-compliance along with supporting materials in Appendix O.
A13. It was concluded that all exceedances recorded in October
were unrelated to the project.
A14.In this
reporting period, 44 times of landfill gas monitoring was recorded. No
exceedance of action and limit levels
for methane, oxygen
and carbon dioxide
was observed. Monitoring was conducted when excavations at 1m depth or more within the consultation zone were conducted
and workers entered
the excavation on the day.
A15.Joint site
inspections of the construction work by ET and IEC were carried out on 6, 15,
19, and 29 October 2021 to audit the
mitigation measures implementation status. Observations were recorded in the site inspection checklists and provided to the contractors together with the appropriate
follow-up actions where necessary.
COMPLAINT HANDLING AND PROSECUTION
A16.No
project-related environmental complaint was received during the reporting
period. A17.Neither notifications of summons nor prosecution was received for the Project.
REPORTING CHANGE
A18.There was no change to
be reported that may affect the on-going EM&A
programme.
SUMMARY OF UPCOMING KEY ISSUES AND KEY MITIGATION MEASURES
A19.Key activities anticipated in the next reporting
period for the Project will include the followings:
-
Land Survey;
-
Construction of ActiDAFF perimeter wall and water tank;
-
Construction of Reverse Osmosis
(RO) Building - Water tank, Electrical Building¡¦s Roof;
-
Construction of Product Water Storage Tank (PWST) perimeter
wall and Electrical Building¡¥s roof slab;
-
Construction of manholes no. 8
and no. 9 adjacent
to PWST;
-
Construction of Post Treatment Building 1/F;
-
Construction of first floor walls and columns of Administration Building;
-
Construction of reinforced concrete
(RC) footing of Inspection Corridor;
-
Internal finishing work in Main Electrical and Central Chiller
Plant Building;
-
Rockfill removal
and dewatering at Outfall Shaft;
-
Rock cutting
and excavations at Outfall Shaft;
-
Excavation & Lateral Support
(ELS) erection and commencement of marine dredging
and disposal at Intake
Shaft;
-
Pipe jacking
works at Combined Shaft for
Intake & Outfall pipelines;
-
Grouting works at outfall
tunnel after tunnel
boring machine (TBM) retrieval;
-
Cable drawpit
construction;
-
Glass Reinforced Plastic (GRP) pipe lamination and laying;
-
Construction of 1st floor structural wall of
Chemical Building;
-
Wan Po Road Sewage Works - Temporary Traffic Arrangement (TTA), excavation and laying of High-Density Polyethylene (HDPE pipes);
-
Construction of On-Site Chlorine Generation (OSCG)
Building footing;
-
Excavation and lateral support
(ELS) at Pump house;
-
Dismantling of tower crane
TC02
A20.The major environmental impacts brought by the above construction works will include:
-
Construction dust and noise generation from construction and ELS works, pipe piling
driven works and marine dredging and
construction works
-
Waste generation from construction activities
-
Impact on water quality
from marine construction works and inland
construction works
A21. The key environmental mitigation measures for the Project in the coming reporting
period associated with the
above construction works will include:
-
Dust suppression by regular wetting
and water spraying
for construction works
-
Reduction of noise
from equipment and machinery
on-site
-
Sorting and storage of general refuse
and construction waste
-
Deployment of temporary silt curtain in the area where marine construction works were conducted and deployment of water
sedimentation tanks for treatment of wastewater at inland areas before
discharge
1.1.
BACKGROUND
The Acciona Agua, S.A. Trading,
Jardine Engineering Corporation, Limited and China State Construction Engineering (Hong Kong)
Limited As AJC Joint Venture (AJCJV) is contracted to
carry out the Design, Build and
Operate First Stage of Tseung Kwan O Desalination Plant (DPTKO) under Contract
No. 13/WSD/17 (the Project).
Acuity Sustainability Consulting Limited (ASCL) is commissioned by AJCJV to undertake the Environmental
Team (ET) services as required and/or implied, both explicitly and implicitly,
in the Environmental Permit (EP),
Environmental Impact Assessment Report (EIA Report) (Register No. AEIAR-192/2015) and Environmental Monitoring and Audit Manual
(EM&A Manual) for the Project;
and to carry out the Environmental Monitoring and Audit (EM&A)
programme in fulfillment of the EIA Report¡¦s
EM&A requirements and Contract
No. 13/WSD/17 Specification requirements.
Pursuant to the Environmental Impact
Assessment Ordinance (EIAO),
the Director of Environmental Protection granted the Environmental Permit (No. EP-01/503/2015) and Variation of Environmental Permit
(No. EP-01/503/2015/A) to Water Supplies
Department (WSD); and granted the Further Environmental Permit (No. FEP-01/503/2015/A) to AJCJV
for the Project.
1.2. THE REPORTING SCOPE
This is the 20th Monthly
EM&A Report for the Project which summarizes the key findings of the EM&A
programme during the reporting
period from 1 October to 31 October
2021.
1.3. PROJECT ORGANIZATION
The Project Organization structure for Construction Phase is presented
in Figure 1.1.
Contact details
of the key personnel are presented in Table 1.1 below:
Party |
Position |
Name |
Telephone no. |
Project Proponent |
SE/CM2 |
Benny Lam |
2634-3573 |
Supervising
Officer (Binnies Hong
Kong Limited) |
Project Manager |
Christina Ko |
2608-7302 |
Chief Resident Engineer |
Roger Wu |
6343-1002 |
|
The
Jardine Engineering Corporation, Limited,
China State Construction Engineering
(Hong Kong) Limited and Acciona Agua, S.A. Trading |
Project
Manager |
Stephen
Yeung |
2807-4665 |
Environmental Monitoring Manager |
Brian Kam |
9456-9541 |
|
Acuity Sustainability Consulting Limited |
Environmental Team Leader |
Jacky Leung |
2698-6833 |
ANewR Consulting Limited |
Independent Environmental Checker (IEC) |
Louis Kwan |
2618-2831 |
1.4. SUMMARY OF CONSTRUCTION WORKS
Details of the major construction activities undertaken in this
reporting period are shown as below. The construction programme is presented in Appendix A.
Key activities carried
out in this reporting period for the Project included
the followings:
-
Land survey
-
Construction of ActiDAFF perimeter wall and water tank;
-
Construction of Reverse Osmosis
(RO) Building - column and wall from Basement to Roof, beams and slabs for Roof Floor; water tank; Electrical Building roof floor slab, columns
and wall;
-
Construction of Product Water Storage Tank (PWST) perimeter
wall and Electrical Building¡¦s roof slab;
-
Construction of manholes no. 8
and no. 9 adjacent to PWST;
-
Construction of Post Treatment Building 1/F;
-
Construction of ground floor slab and first floor columns and beams of Administration Building;
-
Construction of reinforced concrete
(R.C) footing of Inspection Corridor;
-
Internal finishing work in Main Electrical and Central Chiller
Plant Building;
-
Outfall Shaft
‐ rockfill removal & dewatering;
-
Diver¡¦s work to touch up seabed
bottom for concrete
plug at Outfall
Shaft;
-
Rockfill removal
from inside caisson
at Outfall Shaft;
-
Excavation &
Lateral Support (ELS) erection
at Intake Shaft;
-
Sheet piling
works at Intake
Shaft;
-
Pipe jacking
at Combined Shaft for Intake & Outfall pipelines;
-
Cable drawpit
construction;
-
Glass Reinforced Plastic (GRP) pipe lamination and laying;
-
Construction of structural wall of Chemical
Building;
-
Wan Po Road Sewage Works - Temporary Traffic Arrangement (TTA), excavation and laying High-Density Polyethylene (HDPE)
pipe;
-
Construction of On-Site Chlorine
Generation (OSCG) Building
footing;
-
Excavation and lateral support
(ELS) at Pump house
1.5. SUMMARY OF ENVIRONMENTAL STATUS
A summary of the valid permits,
licences, and/or notifications on environmental protection
for this Project
is presented in Table
1.2.
Permit/ Licenses/ Notification |
Reference |
Validity
Period |
Remarks |
Environmental Permit |
FEP - 01/503/2015/A |
Throughout
the Contract |
|
Notification of Construction Works under
the Air Pollution Control
(Construction Dust) Regulation
(Form NA) |
Ref. No.: 451539 |
- |
|
Wastewater Discharge Licence (Land and Marine works) |
WT00035775-2020 |
24/07/2020 - 31/07/2025 |
|
Chemical
Waste Producer Registration |
5213-839-A2987-01 |
Throughout
the Contract |
|
Construction Noise Permit (24 hrs) - CNP for
general works, TBM at Combined Shaft and marine works |
GW-RE0419-21 |
01/05/2021 - 30/10/2021 |
|
Billing Account for Disposal of Construction Waste |
7036276 |
Throughout the Contract |
|
Dumping at Sea Ordinance (DASO) Permit
to dump materials (Category M) at sea |
470822 |
20/10/2021
- 19/11/2021 |
|
Dumping at Sea Ordinance (DASO) Permit
to dump materials (Category L) at sea |
EP/MD/22‐028 |
02/08/2021 - 01/02/2022 |
|
The status
for all environmental aspects is presented in Table 1.3.
Parameters |
Status |
Water Quality |
|
Baseline Monitoring under EM&A Manual |
The baseline water quality monitoring was
conducted between 12 May 2020 to 6 Jun 2020 |
Impact Monitoring |
On-going |
Noise |
|
Baseline Monitoring |
The baseline noise monitoring result has
been reported in Baseline Monitoring Report and submitted to EPD under EP Condition 3.4 |
Impact Monitoring |
On-going |
Waste Management |
|
Mitigation Measures in Waste Monitoring Plan |
On-going |
Landfill
Gas |
|
Regular Monitoring when Construction Works
are within the 250m Consultation Zone |
On-going |
Environmental Audit |
|
Site Inspection covering Measures of Air Quality, Noise Impact, Water Quality, Waste,
Ecological Quality, Fisheries, Landscape and Visual |
On-going |
Other than the EM&A work by ET,
environmental briefings, trainings and regular environmental management meetings were conducted, in
order to enhance environmental awareness and closely monitor the
environmental performance of the
contractors.
The EM&A programme has been implemented
in accordance with the recommendations presented in the approved EIA Report and the EM&A Manual. A summary of
implementation status of the environmental
mitigation measures for the construction phase of the Project during the
reporting period is provided in Appendix
C.
2.1. MONITORING REQUIREMENTS
To ensure no adverse noise impact, noise monitoring is recommended to be carried
out within 300m radius from the nearby noise sensitive receivers
(NSRs), during construction phase. The NSRs selected as monitoring station are (i)
NSR4 - Creative Secondary School, (ii) NSR24 - PLK Laws Foundation College, and (iii) NSR31 - School of Continuing and Professional Studies
- CUHK respectively.
In accordance with the EM&A Manual,
baseline noise level at the noise monitoring stations were established as presented in the Baseline
Monitoring Report. Impact noise monitoring will be conducted
once per week in the form of 30-minutes measurements Leq, L10 and L90 levels
recorded at each monitoring station between 0700 and 1900 on normal weekdays.
Referring
to EM&A manual
Section 4.1.2, the impact noise monitoring should be carried
out at all the designated monitoring stations when there
are project-related construction activities undertaken within a radius
of 300m from the monitoring stations.
No impact monitoring for noise impact was
conducted in the reporting month due to the overly distant monitoring station from the works location, where they
were farther than 1 km from the closest monitoring station NSR4 to the
works location.
Impact noise monitoring will be conducted
weekly in the reporting period between 0700-1900 on normal weekdays. Construction works would follow stipulations of
the valid Construction Noise Permits if works had to be conducted during restricted hours or public holidays.
Construction noise level were measured in
terms of the A-weighted equivalent continuous sound pressure
level (LAeq). Leq 30min was used as the
monitoring parameter for the time period between 0700 and 1900 on normal weekdays. Table 2.1 summarizes the monitoring parameters, frequency and duration of the
impact noise monitoring.
Time |
Duration |
Interval |
Parameters |
Daytime:
0700-1900 |
Day time: 0700-1900 (during normal weekdays) |
Continuously in Leq 5min/Leq 30min (average of 6 consecutive Leq 5min) |
Leq 30min L10 30min & L90 30min |
2.2. MONITORING LOCATIONS
The monitoring locations should normally be
made at a point 1m from the exterior of the NSRs building façade and be at a position
1.2m above the ground. A correction of +3dB(A) should be made to the free-field measurements.
According to the environmental findings detailed in the EIA report and Baseline Monitoring Report, the designated locations for the construction noise monitoring
are listed in Table 2.2 below.
NSR ID |
Noise Sensitive Receivers |
Monitoring Location |
Position |
NSR 4 |
Creative
Secondary School |
Roof Floor |
1 m from facade |
NSR 24 |
PLK Laws Foundation College |
Pedestrian Road on Ground Floor |
Free-field |
NSR 31 |
School of Continuing and Professional Studies - CUHK |
Roof Floor |
1 m from facade |
Three noise
monitoring locations for impact monitoring at the nearby sensitive receivers
are shown in Figure 2.1-2.3.
|
|
|
|
Figure 2.1
NSR4 Creative Secondary School |
|
|
Figure 2.2 NSR24
PLK Laws Foundation College |
|
Figure 2.3 NSR31 School of Continuing and Professional Studies
- CUHK |
2.3. IMPACT MONITORING METHODOLOGY
Integrated sound level meter shall be used for the noise monitoring. The meter shall
be in compliance with the International Electrotechnical Commission
Publications 651: 1979 (Type 1) and 804: 1985
(Type 1) specifications. Immediately prior to and following
each noise measurement the accuracy of the
sound level meter shall be checked using an acoustic calibrator generating a
known sound pressure level at a known
frequency. Measurements may be accepted as valid only if the calibration levels before and after the noise
measurements agree to within 1.0 dB(A). Calibration certificates of the instruments used to
be shown at Appendix F are intentionally left blank since no impact
monitoring equipment was used in
the reporting month.
Noise measurements shall not be made in the
presence of fog, rain, wind with a steady speed exceeding 5 m/s or wind with gusts exceeding 10 m/s. The wind
speed shall be checked with a portable wind speed meter capable of measuring the wind speed in
m/s.
Equipment |
Brand and Model |
Detection Limit |
Sound Level Meter |
Nti XL2 |
30-130 dB(A) |
Sound Level Meter Calibrator |
Rion NC-74 |
Nil |
Pocket Wind Meter Anemometer |
Kestrel 1000 Wind Meter |
Nil |
2.4. ACTION AND LIMIT LEVELS
The Action/Limit
Levels are in line with the criteria of Practice Note for
Professional Persons (ProPECC PN 2/93) ¡§Noise from Construction
Activities - Non-statutory Controls¡¨ and Technical Memorandum on Environmental Impact Assessment Process
issued by HKSAR Environmental Protection Department [¡§EPD¡¨] under the Environmental Impact Assessment Ordinance,
Cap 499,
S.16 are presented in Table 2.4.
Time Period |
Action |
Limit (dB(A)) |
0700-1900 on normal weekdays |
When one documented complaint is received from any one of the noise sensitive receivers |
-
70 dB(A)
for school and -
65 dB(A) during examination period |
Notes: Limits specified in the GW-TM
and IND-TM for construction and operation noise,
respectively.
If exceedances were found during noise
monitoring, the actions in accordance with the Event and Action Plan shall be carried
out according to Appendix
E.
2.5. MONITORING RESULTS AND OBSERVATIONS
Referring to EM&A manual Section 4.1.2,
the impact noise monitoring should be carried out when there are
project-related construction activities
undertaken within a radius of 300m from the monitoring stations. No monitoring
station was located within a radius of 300m of
the Project site as
shown in Figure 2.4, no impact monitoring
for noise impact was conducted in the reporting period.
In accordance with the recommendations of the EIA, water quality EM&A
is required during
dredging for the submarine pipelines
and, during operation
phase. In addition,
baseline water quality
monitoring will be required prior to the commencement of marine construction
activities. The following Section
provides details of the water quality monitoring to be undertaken by the Environmental Team (ET) to verify the
distance of sediment and brine plume dispersion and to identify whether the potential exists
for any indirect impacts to occur to ecological sensitive receivers. The water quality
monitoring programme
will be carried
out to allow any deteriorating water quality to be readily detected and timely action
taken to rectify the situation. The status and locations of water quality sensitive receivers and the
marine works location may change after issuing
this Document. If required,
the ET in consultation with IEC will propose updated monitoring locations and seek approval
from EPD.
Water quality monitoring for the Project
can be divided into the following stages:
-
Dredging activities during construction phase;
-
Discharge of effluent from main disinfection during construction phase;
-
Operation phase
- first year upon commissioning; and,
-
Continuous monitoring of effluent quality.
In addition, the marine works contractor is
required to complete a silt curtain efficiency test for the combined use of floating silt curtain type
and cage type silt curtain for dredging at seawater intake to confirm the silt curtain reduction
efficiency assumptions of the assessment. The details of testing plan together with the silt curtain
deployment plan shall be submitted by the ET to seek approval from the IEC and EPD.
With the onset of marine
dredging activities in late April at Outfall
Shaft Area, a silt curtain
efficiency test has been conducted at the Outfall
Shaft Area on 16th April 2021 at 6 monitoring intervals
(08:00, 10:00, 12:00, 14:00,
16:00, 18:00). The baseline monitoring event has been conducted on 10th April 2021
at 5 monitoring locations. Testing protocols and methodologies had followed the
guidelines as presented in the EM&A
Manual Annex C. Detailed
analysis of in-situ
and laboratory data was presented in a separate report which has
been submitted to EPD after approval by IEC on 31 May 2021. The overall Silt Removal Effectiveness at Outfall Shaft
Area for the combined used of cage and floating
type silt curtains was 95.28%.
3.1.1.
WATER QUALITY PARAMETERS
The parameters that have been selected for measurement in situ and in the laboratory are those that were either determined in the EIA to be those with the most potential to be affected
by the construction works or are a standard check
on water quality
conditions. Parameters to be measured
in the baseline monitoring are listed in Table 3.1.
Parameters |
Unit |
Abbreviation |
In-situ measurements |
||
Dissolved
oxygen |
mg/L |
DO |
Temperature |
oC |
- |
pH |
- |
- |
Turbidity |
NTU |
- |
Salinity |
0/00 |
- |
Total Residual Chlorine
NOTE1 |
mg/L |
TRC |
Laboratory measurements |
||
Suspended
Solids |
mg/L |
SS |
Iron-Soluble NOTE2 |
mg/L |
Fe |
Anti-scalant as Reactive Phosphorus NOTE2 |
mg/L |
PO4 as P- |
NOTE 1: Monitoring of TRC will be conducted when cleaning and
sterilization of the new freshwater main is carried
out.
NOTE 2: The testing methods
shall be submitted to EPD for approval prior to the commencement of monitoring
programme
In addition to the water quality parameters,
other relevant data will also be measured and recorded in Water Quality Monitoring Logs, including the location of the
sampling stations, water depth, time, weather
conditions, sea conditions, tidal stage, current direction and velocity,
special phenomena and work activities
undertaken around the monitoring and works area that may influence the monitoring results.
3.1.2.
MONITORING EQUIPMENT
For water quality
monitoring, the following equipment will be used:
Dissolved
Oxygen and Temperature Measuring Equipment - The
instrument will be a portable, weatherproof
dissolved oxygen measuring instrument complete with cable, sensor, comprehensive operation manuals, and will be operable
from a DC power source. It will be capable of measuring: dissolved oxygen
levels in the range of 0 - 20 mg/L and 0 - 200% saturation; and a temperature of 0
- 45 degrees Celsius. It shall have a membrane
electrode with automatic temperature compensation complete with a cable of not less than 35 m in length. Sufficient stocks of spare electrodes and cables
shall be available
for replacement where necessary (e.g. YSI model 59 DO meter, YSI 5739 probe,
YSI 5795A submersible stirrer with reel and
cable or an approved
similar instrument).
Turbidity
Measurement Equipment - The instrument will be a portable,
weatherproof turbidity- measuring
unit complete with cable, sensor and comprehensive operation manuals. The
equipment will be operated from a DC
power source, it will have a photoelectric sensor capable of measuring turbidity between 0 - 1000 NTU and will be
complete with a cable with at least 35 m in length (for example Hach 2100P
or an approved similar instrument).
Salinity
Measurement Instrument - A portable salinometer capable of measuring
salinity in the range of 0 - 40 ppt will be provided for measuring salinity
of the water at each monitoring
location.
Water Depth
Gauge - A portable, battery-operated echo sounder (for example Seafarer
700 or a similar approved instrument)
will be used for the determination of water depth at each designated monitoring station. This unit will
preferably be affixed to the bottom of the work boat if the same vessel is to be used throughout the
monitoring programme. The echo sounder should be suitably calibrated. The ET shall seek approval
for their proposed
equipment with the client prior to deployment.
Current Velocity and Direction - No specific
equipment is recommended for measuring the current velocity
and direction. The environmental contractor shall seek approval
of their proposed
equipment with the client
prior to deployment.
Positioning
Device - A Global Positioning System (GPS) shall be used during
monitoring to allow accurate recording
of the position of the monitoring vessel before taking measurements. The Differential
GPS, or equivalent instrument, should be suitably calibrated at appropriate
checkpoint (e.g. Quarry Bay Survey Nail) to verify that the monitoring station is at the correct
position before the water quality
monitoring commence.
Water Sampling
Equipment - A water sampler,
consisting of a PVC or glass cylinder
of not less than two litres, which can be effectively
sealed with cups at both ends, will be used (e.g. Kahlsico Water Sampler 13SWB203 or an approved similar
instrument). The water sampler will have a positive latching system to keep it open and prevent premature closure
until released by a messenger when the sampler
is at the selected water depth.
Total Residual Chlorine
for Discharge of Sterilization Water - Total residual
chlorine (TRC) shall be measured in-situ using a handheld colorimeter with its testing toolkits.
3.1.3.
SAMPLING / TESTING PROTOCOLS
All in situ monitoring instruments will be checked,
calibrated and certified by a laboratory accredited under
HOKLAS or any other international accreditation scheme before use, and
subsequently re- calibrated at
monthly intervals throughout the stages of the water quality monitoring.
Responses of sensors and electrodes will be checked
with certified standard
solutions before each use.
On-site calibration of field equipment shall follow the ¡§Guide to On-Site Test Methods for the Analysis
of Waters¡¨, BS 1427: 2009. Sufficient stocks of spare parts shall be maintained for replacements when necessary. Backup monitoring equipment
shall also be made available
so that monitoring can proceed
uninterrupted even when equipment is under
maintenance, calibration etc.
3.1.4.
LABORATORY MEASUREMENT AND ANALYSIS
All laboratory work shall be carried out in a HOKLAS accredited laboratory. Sufficient volume
of each water sample shall be collected at the monitoring stations for
carrying out the laboratory analyses. Using
chain of custody forms, collected water samples will be transferred to an HOKLAS
accredited laboratory for immediate
processing. The determination work shall start within the next working day after collection of the water samples.
The laboratory measurements shall be provided to the client within 5 working days of the sampling event. Analytical methodology and sample preservation of other parameters will be based on the latest edition of
Standard Methods for the Examination of Waste
and Wastewater published by APHA, AWWA and WPCF and methods by USEPA, or
suitable method in accordance with
requirements of HOKLAS or another internationally accredited scheme. The submitted information should include pre-treatment procedures, instrument use, Quality Assurance/Quality Control (QA/QC) details
(such as blank, spike recovery, number of duplicate samples per-batch etc), detection limits
and accuracy. The QA/QC details
shall be in accordance with requirements
of HOKLAS or another internationally accredited scheme.
Parameters for laboratory measurements, their
standard methods and their detection limits are presented in Table 3.2.
Parameters |
Standard Methods |
Detection Limit |
Reporting Limit |
Precision |
Dissolved oxygen (mg/L) |
Instrumental, CTD |
0.1 |
- |
+-25% |
Temperature (oC) |
Instrumental, CTD |
0.1 |
- |
+-25% |
pH |
Instrumental, CTD |
0.1 |
- |
+-25% |
Turbidity
(NTU) |
Instrumental, CTD |
0.1 |
- |
+-25% |
Salinity (0/00) |
Instrumental, CTD |
0.1 |
- |
+-25% |
Suspended Solids (mg/L) |
APHA 17th Ed 2540D |
1.0 |
2.0 |
+-17% |
Total Residual Chlorine (mg/L) |
APHA 21st Ed 4500 - Cl G NOTE1 |
0.1NOTE1 |
0.2NOTE1 |
+-10% NOTE1 |
Iron-soluble |
USEPA 6010C NOTE 1 |
0.2NOTE1 |
0.2NOTE1 |
+-25%NOTE1 |
Anti-scalant as Reactive
phosphorus |
APHA 4500P: B&F NOTE1 |
0.01NOTE1 |
0.01NOTE1 |
+-25%NOTE1 |
NOTE1: The testing
methods, Quality Assurance/Quality Control (QA/QC) details,
detection limits and accuracy shall be submitted to EPD
for approval prior to the commencement of monitoring programme.
If exceedances were found during water monitoring,
the actions in accordance with the Event and
Action Plan shall be carried
out according to Appendix
G.
3.1.5.
MONITORING LOCATION
The water quality monitoring locations for
baseline are in accordance with the EM&A Manual and detailed in Table 3.3 below. A schedule for water quality
monitoring shall be prepared by the ET and approved
by IEC and EPD prior to the commencement of the monitoring.
Station |
Easting |
Northing |
Description |
CE |
843550 |
815243 |
Upstream control station at ebb tide |
CF |
846843 |
810193 |
Upstream control station at flood tide |
WSR1 |
846864 |
812014 |
Ecological sensitive receiver at Tung Lung Chau |
WSR2 |
847645 |
812993 |
Fisheries sensitive receiver at Tung Lung Chau |
WSR3 |
848023 |
813262 |
Ecological sensitive receiver at Tung Lung Chau |
WSR4 |
847886 |
814154 |
Ecological sensitive receiver at Tai Miu Wan |
WSR16 |
845039 |
815287 |
Ecological sensitive receiver at Fat Tong Chau |
WSR33 |
847159 |
814488 |
Ecological sensitive receiver at Tai Miu Wan |
WSR36 |
846878 |
814081 |
Ecological sensitive receiver at Kwun Tsai |
WSR37 |
846655 |
813810 |
Ecological sensitive receiver at Tit Cham Chau |
NF1 |
846542 |
813614 |
Edge of mixing zone, ~ 200m west of outfall diffuser |
NF2 |
846942 |
813614 |
Edge of mixing zone, ~ 200m east of outfall diffuser |
NF3 |
846742 |
813414 |
Edge of mixing zone, ~ 200m south of outfall diffuser |
WSR1 to WSR37 were identified in accordance with Annex 14 of the EIAO-TM as well as Clause 3.4.4.2
of the Environmental Impact Assessment Study Brief for Desalination
Plant at Tseung Kwan O (No. ESB-266/2013).
WSR1 to WSR3 are sited near the Tung Lung Chau Fish Culture Zone; WSR16 and WSR36 are sited near the coral assemblages
along the coastlines of Fat Tong Chau and Kwun Tsai respectively; WSR 4 and WSR33 are sited near the Coastal
Protection Area and coral assemblages in waters
of Tai Miu Wan; WSR37 is sited near the fisheries resource including spawning
and nursery grounds at the coastal water of Tit Cham Chau.
3.1.6.
SAMPLING FREQUENCY
During periods when there are dredging works,
impact monitoring should be undertaken at the
monitoring stations as shown in Figure 3.1 and
Table 3.3 three days per week during the construction
phase after the commencement of marine construction works and dredging
activities. Monitoring at each
station would be undertaken at both mid-ebb and mid-flood tides on the same day. The tidal range selected
for the baseline monitoring will be at least 0.5 m for both flood and ebb tides
as far as practicable. The interval between two sets of monitoring would not be
less than 36 hours. The monitoring
frequency would be increased in the case of exceedances of Action/Limit Levels if considered necessary by ET. Monitoring frequency
would be maintained as far as practicable.
The monitoring location/position, time, water depth, water temperature, salinity, weather conditions, sea conditions, tidal stage,
special phenomena and work underway at the marine works site will be recorded.
3.1.7.
SAMPLING
DEPTHS
& REPLICATION
For baseline monitoring, each station will be
sampled and measurements/ water samples will be taken at three depths, 1 m below the sea surface, mid-depth and
1 m above the seabed. For stations that
are less than 3 m in depth, only the mid depth sample shall be taken. For
stations that are less than 6 m in
depth, only the surface and seabed sample shall be taken. For in situ
measurements, duplicate readings
shall be made at each water depth at each station. Duplicate water samples
shall be collected at each water
depth at each station. All observations and results were recorded in the data record
sheets in Appendix L.
3.1.8.
ACTION AND LIMIT LEVELS
The Action and Limit Levels have been set
based on the derivation criteria specified in the EM&A Manual, as shown in Table 3.4 below. Based on the baseline water quality monitoring
data and the derivation criteria
specified in Table 3.4,
the Action/Limit Levels have been derived and are presented
in Table 3.5.
3.2. MONITORING PROGRAMME
The ET of the Project had conducted the
baseline water monitoring between 12 May 2020 to 6 Jun 2020 at the thirteen designated monitoring stations
and the six designated monitoring at waters near TKO
in accordance with the EM&A Manual and Contract Specification respectively.
The monitoring results was presented
in Baseline Water Quality
Monitoring Report separately.
The commencement of marine construction and dredging activities for the Project
have been conducted
in March and April 2021 respectively.
Parameters |
Action |
Limit |
Construction Phase
Impact Monitoring |
||
DO in mg/L |
Surface and Middle 5%-ile of baseline data for surface and middle
layer Bottom 5%-ile of baseline data for bottom layers Tung Lung Chau Fish Culture Zone 5.1 mgL-1
or level at control
station (whichever the lower) |
Surface and Middle 4 mg L-1 Bottom 2 mg L-1 Tung Lung Chau Fish Culture
Zone 5.0 mgL-1
or level at control station (whichever the lower) |
SS in mg/L (Depth- averaged) |
≥ 95 %-ile of baseline data or 20% exceedance of value at any impact station compared with corresponding data from control station |
≥ 99 %-ile of baseline data or 30% exceedance of value at any impact station compared with corresponding data from control station |
Turbidity in NTU (Depth-averaged) |
≥ 95 %-ile of baseline data or 20% exceedance of value at any impact station compared with corresponding data from control station |
≥ 99 %-ile of baseline data or 30% exceedance of value at any impact station compared with corresponding data from control station |
First-year Operation Phase Monitoring |
||
DO in mg/L |
Surface and Middle 5%-ile of baseline data for surface and middle
layer Bottom 5%-ile of baseline data for bottom layers Tung Lung Chau Fish Culture Zone 5.1 mgL-1 or level at control station
(whichever the lower) |
Surface and Middle 4 mg L-1 Bottom 2 mg L-1 Tung Lung Chau Fish Culture
Zone 5.0 mgL-1 or level at control station
(whichever the lower) |
SS in mg/L (Depth- averaged) |
≥ 95 %-ile of baseline data or 20% exceedance of value at any impact station compared with corresponding data from control station |
≥ 99 %-ile of baseline data or 30% exceedance of value at any impact station compared with corresponding data from control station |
Turbidity in NTU (Depth-averaged) |
≥ 95 %-ile of baseline data or 20% exceedance of value at any impact station compared with corresponding data from control station |
≥ 99 %-ile of baseline data or 30% exceedance of value at any impact station compared with corresponding data from control station |
Salinity in PSU (Depth-averaged) |
109% of baseline level or 9% exceedance of value at any impact station compared with corresponding data from control station |
110% of baseline level or 10% exceedance of value at any impact station compared with corresponding data from control station |
Iron in mg/L (Depth-averaged) |
0.3 mgL-1 |
0.3 mgL-1 |
Parameters |
Action |
Limit |
Construction Phase
Impact Monitoring |
||
DO in mg/L |
Surface and Middle |
Surface and Middle |
|
7.30 mg L-1 |
4 mg
L-1 |
|
Bottom |
Bottom |
|
7.31 mg
L-1 |
2 mg
L-1 |
|
Tung Lung Chau Fish Culture
Zone |
Tung Lung Chau Fish Culture
Zone |
|
5.1 mgL-1
or level at control
station |
5.0 mgL-1
or level at control
station |
|
(whichever
the lower) |
(whichever
the lower) |
SS in mg/L |
5.00 mg L-1
or 20% exceedance of |
6.00 mg L-1
or 30% exceedance of |
(Depth-averaged) |
value at any impact station |
value at any impact station |
|
compared
with corresponding data |
compared with corresponding data |
|
from control station |
from control station |
Turbidity in NTU |
2.41 NTU or 20% exceedance of |
2.84 NTU or 30%
exceedance of |
(Depth-averaged) |
value at any impact station |
value at any impact station |
|
compared
with corresponding data |
compared with corresponding data |
|
from control station |
from control station |
First-year Operation Phase Monitoring iv |