Revision History
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B |
Revision based on AFCDs comment and updated Table 1.2 & 4.1, Section 4.3, 6.2.1, 6.4.1, 6.4.4, 7.2.1, 7.2.2, 7.5.4, Appendix P & Appendix K |
29 May 2019 |
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A |
First Submission |
14 May 2019 |
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Rev. |
Description of Modification |
Date |
Content
2. Marine Water Quality Monitoring
8. Summary of Monitoring Exceedance, Complaints, Notification of Summons and Prosecutions
11. Conclusion and Recommendations
Appendix A |
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Appendix B |
Summary of Implementation Status of Environmental Mitigation |
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Appendix C |
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Appendix D |
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Appendix E |
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Appendix F |
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Appendix G |
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Appendix H |
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Appendix I |
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Appendix J |
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Appendix K |
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Appendix L |
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Appendix M |
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Appendix N |
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Appendix O |
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Appendix P |
Executive Summary
Introduction
A1. The Project, Integrated Waste Management Facility (IWMF), is a Designated Project under the Environmental Impact Assessment Ordinance (Cap. 499) (EIAO) and is currently governed by a Further Environmental Permit (FEP No. FEP-01/429/2012/A) for the construction and operation of the Project.
A2. In accordance with the Updated 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 10th 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 Shek Kwu Chau (SKC) during the reporting period from 1 April 2019 to 30 April 2019.
Summary of Main Works Undertaken & Key Mitigation Measures Implemented
A4. Key activities carried out in this reporting period for the Project included the following:
· Marine Site Investigation Works
· Laying of Geotextile and Sand Blanket for DCM Injection Works
· DCM Installation Works
· Cone Penetration Test
· Dredging Works
A5. The major environmental impacts brought by the above construction activities include:
· Water quality impact from DCM installation, laying of sand blanket and dredging operation
· Disturbance and possible trapping of Finless Porpoise by silt curtains
A6. The key environmental mitigation measures implemented for the Project in this reporting period associated with the construction activities include:
· Reduction of noise from equipment and machinery on-site;
· Installation of silt curtains for DCM installation, sand blanket laying works, and dredging works;
· Sorting, recycling, storage and disposal of general refuse and construction waste;
· Management of chemicals and avoidance of oil spillage on-site; and
· Implementation of cluster MMEZ (Marine Mammal Exclusion Zone) and inspection of enclosed environment within silt curtains as per DMPFP (Detailed Monitoring Programme of Finless Porpoise)
· Regulation on rate and means for dredging works as stipulated in FEP Clause 2.17 2.21
· Daily site audit and monitoring by ET during dredging work as stipulated in FEP Clause 2.21A
· Storage, handling and disposal of dredged materials according to Dumping At Sea Ordinance (DASO)
Summary of Exceedance & Investigation & Follow-up
A7. The EM&A works for construction noise, water quality, construction waste, coral, marine mammal and White-Bellied Sea Eagle (WBSE) were conducted during the reporting period in accordance with the Updated EM&A Manual.
A8. No exceedance of the Action or Limit Levels in relation to the construction noise, construction waste, coral and WBSE monitoring was recorded in the reporting month.
A9. None of the General & Regular DCM water quality monitoring results obtained during the reporting period had exceeded the relevant Action and Limit Levels.
A10. No project-related Action Level & Limit Level exceedance was recorded.
A11. Weekly site inspections of the construction works by ET were carried out on 2, 9, 16 & 23 April 2019 to audit the mitigation measures implementation status. Monthly joint site inspection was carried out on 16 April 2019 by ET and IEC. Observations have been recorded in the site inspection checklists and provided to the contractors together with the appropriate follow-up actions where necessary.
Complaint Handling and Prosecution
A12. No project-related environmental complaint was received during the reporting period.
A13. Neither notifications of summons nor prosecution was received for the Project.
Reporting Change
A14. There were no changes to be reported that may affect the on-going EM&A programme.
Summary of Upcoming Key Issues and Key Mitigation Measures
A15. Key activities anticipated in the next reporting period for the Project will include the following:
· Laying of Geotextile and Sand Blanket for DCM Injection Works
· DCM Installation Works
· Coring of DCM samples
· Static Loading Test
· Cone Penetration Test
· Dredging Works and Sediment Disposal
· Silt Curtain Pilot Test
A16. The major environmental impacts brought by the above construction activities will include:
· Water quality impact form DCM installation, laying of sand blanket and dredging operation
· Disturbance and possible trapping of Finless Porpoise by silt curtains
A17. The key environmental mitigation measures for the Project in the coming reporting period associated with the construction activities will include:
· Reduction of noise from equipment and machinery on-site;
· Installation of silt curtains for DCM installation, sand blanket laying works and dredging works;
· Sorting, recycling, storage and disposal of general refuse and construction waste;
· Management of chemicals and avoidance of oil spillage on-site, especially under heavy rains and adverse weather; and
· Implementation of cluster MMEZ and inspection of enclosed environment within silt curtains as per DMPFP
· Regulation on rate and means for dredging works as stipulated in FEP Clause 2.17 2.21
· Daily site audit and monitoring by ET during dredging work as stipulated in FEP Clause 2.21A
· Storage, handling and disposal of dredged materials according to Dumping At Sea Ordinance (DASO)
· Ground Treatment works;
· Seawall and Breakwater construction;
· Non-dredged Reclamation;
· Other Marine works and Harbour and Port Facilities,
· Site formation,
· Municipal Solid Waste (MSW) Treatment Processes,
· Energy Recovery for Power Generation and Surplus Electricity export,
· Wastewater treatment process,
· Desalination and water treatment process,
· Civil works;
· Building and Structural works,
· Electrical and Mechanical works,
· Building Services,
· Architectural and Landscaping works, and
· All other design and works required for the operation and maintenance of the Facility according to the Contract requirements
1.1.4 The location of the IWMF near Shek Kwu Chau (SKC) and general layout of IWMF are shown in Figure 1.1 and Figure 1.2 respectively.
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Figure 1.1 Location of the IWMF at the Artificial Island near SKC |
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Figure 1.2 General Layout of the IWMF at the Artificial Island near SKC |
_files/image004.png)
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Figure 1.3 Project Organization Chart |
Table 1.1 Contact Details of Key Personnel
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Party |
Position |
Name |
Telephone no. |
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Keppel Seghers Zhen Hua Joint Venture |
Project Manager |
Kenny Yu |
2192-0606 |
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Acuity Sustainability Consulting Limited |
Environmental Team Leader |
Robin Ho |
2698-6833 |
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ERM-Hong Kong, Limited |
Independent Environmental Checker |
Mandy To |
2271-3000 |
Table 1.2 Summary of the Construction Activities Undertaken during the Reporting Month
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Location of works |
Construction activities undertaken |
Remarks on progress |
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Seawall and breakwater locations |
· Marine site investigation works |
· Completed |
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Location of DCM Site Trial |
· Coring of DCM samples |
· Completed |
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Seawall locations |
· Collecting of Marine Sediment Samples |
· Completed |
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Location of DCM Static Loading Test |
· DCM installation |
· Completed |
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Seawall and berth area |
· Laying of Geotextile and Sand Blanket |
· 73 out of 95 geotextiles were laid · Completed for sand blanket laying |
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Breakwater locations |
· Laying of Geotextile and Sand Blanket |
· 82 out of 101 geotextiles were laid · On-going for sand blanket laying |
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· DCM installation · Dredging operation |
· On-going · 4,841.247 m3 of dredged sediment in bulk quantity was dumped |
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_files/image007.png)
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Figure 1.4 Location of Major Construction Activities Undertaken during the Reporting Month |
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Table 1.3 Summary of the Status of Valid Environmental Licence, Notification, Permit and Documentations
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Permit/ Licences/ Notification |
Reference |
Validity Period |
Remarks |
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Variation of Environmental Permit |
EP-429/2012/A |
Throughout the Contract |
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Further Environmental Permit |
FEP-01/429/2012/A |
Throughout the Contract |
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Notification of Construction Works under the Air Pollution Control (Construction Dust) Regulation (Form NA) |
Ref No.: 428778 |
15/12/2017-22/09/2024 |
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Wastewater Discharge Licence |
- |
- |
Under Application |
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- |
- |
Under Application |
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Chemical Waste Producer Registration |
WPN0017-933-K3301-01 |
Throughout the Contract |
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WPN5213-961-K3301-02 |
Throughout the Contract |
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Construction Noise Permit (24 hours) |
GW-RS0018-19 |
15/01/2019 10/04/2019 |
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Construction Noise Permit (24 hours) |
GW-RS0251-19 |
27/03/2019 25/09/2019 |
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Billing Account for Disposal of Construction Waste |
A/C No.:7029768 |
Throughout the Contract |
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Marine Dumping Permit |
EP/MD/19-094 |
20/02/2019 19/8/2019 |
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Table 1.4 Summary of Status for Key Environmental Aspects under the Updated EM&A Manual
1.6.3 Other than the EM&A works 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. 1.6.4 The EM&A programme has been implemented in accordance with the recommendations presented in the approved EIA Report and the Updated 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 B.Table 2.1 Water Quality Monitoring Parameters, Frequency and Duration
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Parameter, unit |
Frequency |
No. of Depths |
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· Water Depth(m) · Temperature(oC) · Salinity(ppt) · pH (pH unit) · Dissolved Oxygen (DO)(mg/L and % of saturation) · Turbidity(NTU) · Suspended Solids (SS), mg/L · Total alkalinity · Current velocity · Direction |
General water quality monitoring and Regular DCM monitoring: 3 days per week, at mid-flood and mid-ebb tides |
3 water depths: 1m below sea surface, mid-depth and 1m above sea bed. If the water depth is less than 3m, mid-depth sampling only. If water depth less than 6m, mid-depth may be omitted.
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Figure 2.1 Water monitoring locations at Artificial Island near SKC |
Table 2.2 - Locations of Marine Water Quality Stations
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Monitoring station |
Description |
Easting |
Northing |
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B1 |
Beach - Cheung Sha Lower |
813342 |
810316 |
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B2 |
Beach - Pui O |
815340 |
811025 |
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B3 |
Beach - Yi Long Wan |
817210 |
808395 |
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B4 |
Beach - Tai Long Wan |
817784 |
808682 |
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H1 |
Horseshoe Crab - Shek Kwu Chau |
816477 |
806953 |
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C1 |
Control Station |
810850 |
806288 |
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C1A |
Relocated Control Station |
812823 |
806300 |
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C2 |
Control Station |
819421 |
808053 |
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C2A |
Relocated Control Station |
818869 |
806808 |
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F1 |
Cheung Sha Wan Fish Culture Zone |
818631 |
810966 |
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F1A |
Cheung Sha Wan Fish Culture Zone |
819109 |
810924 |
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S1 |
Submarine Cable Landing Site |
814245 |
810335 |
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S2 |
Submarine Cable |
815076 |
807747 |
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S2A |
Submarine Cable |
814808 |
808515 |
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S3 |
Submarine Cable Landing Site |
816420 |
805621 |
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CR1 |
Coral |
817144 |
805597 |
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CR2 |
Coral |
816512 |
805882 |
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M1 |
Tung Wan |
821572 |
807799 |
In-situ Measurement
2.4.4 Levels of DO, pH, temperature, turbidity and salinity would be measured in-situ by portable and weatherproof measuring instrument, e.g. YSI ProDSS and Horiba U-53 Multiparameter complete with cable and sensor. (Refer to http://www.ysi.com/ProDSS for YSI ProDSS technical specification and http://www.horiba.com/process-environmental/products/water-treatment-environment/details/u-50-multiparameter-water-quality-checker-368/ for Horiba U-53 technical specification ). Water current velocity and Water Current direction would be measured by portable and weatherproof current meter, e.g. SonTek Hydrosurveyor (Refer to https://www.sontek.com/media/pdfs/riversurveyor-s5-m9-brochure.pdf for SonTek Hydrosurveyor M9 technical specification). Parameters measured by in-situ measurement is tabulated in Table 2.3Table 2.3 - Parameters Measured by In-situ Measurement
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Parameter |
Resolution |
Range |
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Temperature |
0.1 oC |
-5-70 oC |
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Dissolved Oxygen (DO) |
0.01 mg/L |
0-50.0 mg/L |
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Turbidity |
0.1 NTU |
0-1000 NTU |
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pH |
0.01 pH |
pH 0-14 |
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Salinity |
0.01 ppt |
0-40 ppt |
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Water Current Velocity |
0.001m/s |
±20m/s |
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Water Current Direction |
±1o |
±2o |
Laboratory Analysis
2.4.5 Analysis of Total Alkalinity and SS should be carried out in a HOKLAS accredited laboratory, as shown in Appendix E. Sufficient water samples shall be collected at the monitoring stations for carrying out the laboratory determinations. The determination work should be started within 24 hours after collection of the water samples. Analytical methods and detection limits for SS and total alkalinity are present in Table 2.4.Table 2.4 - Analytical Methods Applied to Water Quality Samples
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Parameter |
Analytical method |
Detection Level |
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Suspended Solids, SS |
APHA 2540 Di |
1 mg/L |
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Total Alkalinity |
APHA 2320 |
0.01 mg/L |
i. "APHA 2540 D" stands for American Public Health Association Standard Methods for the Examination of Water and Wastewater, 23rd Edition.
Field Log
2.4.6 Other relevant data was recorded, such as: monitoring location / position, time, water depth, weather conditions and any special phenomena underway near the monitoring station. 2.5 Monitoring Equipment 2.5.1 Equipment used in the impact water quality monitoring programme is summarized in Table 2.5 below. Calibration certificates for the water quality monitoring equipment are attached in Appendix F.Table 2.5 Impact Water Quality Monitoring Equipment
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Monitored Parameter |
Equipment |
Brand and Model |
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DO, Temperature, Salinity, pH and Turbidity |
Multi-functional Meter |
YSI ProDSS |
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Coordinates |
Positioning Equipment |
Garmin GPSMAP 78s |
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Water depth |
Water Depth Detector |
Hummingbird 160 Portable |
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SS |
Water Sampler |
Wildco 2 L Water Sampler with messenger |
The instrument was a portable and weatherproof DO probe mounted on the multi-functional meter complete with cable and sensor, and use a DC power source. The equipment was capable of measuring:
l A DO level in the range of 0 ‑ 50 mg/L; and
l Temperature of -5 ‑ 70 degree Celsius.
2.5.3 Turbidity Measurement InstrumentThe instrument was a portable and weatherproof turbidity-measuring probe mounted on the multi-functional meter using a DC power source. It had a photoelectric sensor capable of measuring turbidity between 0 - 1000 NTU.
2.5.4 pH Measurement InstrumentThe probe was consisted of a potentiometer, a glass electrode, a reference electrode and a temperature-compensating device mounted on the multi-functional meter. It was readable to 0.1 pH in a range of 0 to 14. Standard buffer solutions of at least pH 7 and pH 10 were used for calibration of the instrument before and after use.
2.5.5 Salinity Measurement InstrumentA portable salinometer mounted on the multi-functional meter capable of measuring salinity in the range of 0-40 parts per thousand (ppt) was provided for measuring salinity of the water at each monitoring location.
2.5.6 SamplerThe water sampler comprised a transparent PVC cylinder, with a capacity of not less than 2 litres, which can be effectively sealed with latex cups at both ends. The sampler has 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.
2.5.7 Sample Containers and StorageWater samples for SS were stored in high density polythene bottles with no preservative added, packed in ice (cooled to 4°C without being frozen) and delivered to the laboratory and analysed as soon as possible after collection. Sufficient volume of samples was collected to achieve the detection limit stated in Table 2.4.
2.5.8 Water Depth DetectorA portable, battery-operated echo sounder was used for the determination of water depth at each designated monitoring station. This unit could either be hand held or affixed to the bottom of the work boat, if the same vessel is to be used throughout the monitoring programme.
2.5.9 Monitoring Position EquipmentHand-held digital Differential Global Positioning System (DGPS) with way point bearing indication and Radio Technical Commission for maritime (RTCM) Type 16 error message screen pop-up facilities (for real-time auto-display of error messages and DGPS corrections from the Hong Kong Hydrographic Office) was provided and used to ensure that the water sampling locations were correct during the water quality monitoring work.
2.6 Maintenance and Calibration 2.6.1 The multi-functional meters were checked and calibrated before use. Multi-functional meters were certified by a laboratory accredited under HOKLAS or any other international accreditation scheme, and subsequently re-calibrated at three monthly intervals throughout all stages of the water quality monitoring. Responses of sensors and electrodes were checked with certified standard solutions before each use. Wet bulb calibration for a DO meter was carried out before commencement of monitoring and after completion of all measurements each day. Calibration was not conducted at each monitoring location as daily calibration is adequate for the type of DO meter employed. 2.6.2 Sufficient stocks of spare parts were provided and maintained for replacements when necessary. Backup monitoring equipment was prepared for uninterrupted monitoring during equipment maintenance or calibration during monitoring.Table 2.6 Criteria of Action and Limit Levels for Water Quality
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Parameters |
Action |
Limit |
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Construction Phase Impact Monitoring |
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DO in mg/L |
≤ 5 %-ile of baseline data |
≤ 4 |
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SS in mg/L |
≥ 95 %-ile of baseline data or 120% of control stations SS at the same tide of the same day of measurement, whichever is higher |
≥ 99 %-ile of baseline data or 130% of control station's SS at the same tide of the same day of measurement, whichever is higher |
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Turbidity in NTU |
≥ 95 %-ile of baseline data or 120% of control stations turbidity at the same tide of the same day of measurement, whichever is higher |
≥ 99 %-ile of baseline data or 130% of control station's turbidity at the same tide of the same day of measurement, whichever is higher |
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Temperature in°C |
1.8°C above the temperature recorded at representative control station at the same tide of the same day |
2°C above the temperature recorded at representative control station at the same tide of the same day |
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Total Alkalinity in mg/L |
≥ 95 %-ile of baseline data or 120% of representative control station at the same tide of the same day, whichever is higher |
≥ 99 %-ile of baseline data or 130% of representative control station at the same tide of the same day, whichever is higher |
Table 2.7 Derived Action and Limit Levels for Water Quality Monitoring (Dry Season)
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Parameters |
Action |
Limit |
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Construction Phase Impact Monitoring |
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DO in mg/L |
≤ 7.13 |
≤ 4 |
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SS in mg/L |
≥ 8 or 120% of control stations SS at the same tide of the same day of measurement, whichever is higher |
≥ 10 or 130% of control station's SS at the same tide of the same day of measurement, whichever is higher |
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Turbidity in NTU |
≥ 5.6 or 120% of control stations turbidity at the same tide of the same day of measurement, whichever is higher |
≥ 12.8 or 130% of control station's turbidity at the same tide of the same day of measurement, whichever is higher |
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Temperature in°C |
1.8°C above the temperature recorded at representative control station at the same tide of the same day |
2°C above the temperature recorded at representative control station at the same tide of the same day |
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Total Alkalinity in mg/L |
≥116 or 120% of control stations Total Alkalinity at the same tide of the same day of measurement, whichever is higher |
≥ 118 or 130% of control stations Total Alkalinity at the same tide of the same day of measurement, whichever is higher |
Notes:
i. "Depth-averaged" is calculated by taking the arithmetic means of reading of all three depths.
ii. For DO, non-compliance of the water quality limits occurs when monitoring result is lower than the limits.
iii. For turbidity, SS and Salinity, non-compliance of the water quality limits occurs when monitoring result is higher than the limits.
Table 2.8 Derived Action and Limit Levels for Water Quality (Wet Season)
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Parameters |
Action |
Limit |
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Construction Phase Impact Monitoring |
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DO in mg/L |
≤ 5.28 |
≤ 4 |
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SS in mg/L |
≥ 12 or 120% of control stations SS at the same tide of the same day of measurement, whichever is higher |
≥ 14 or 130% of control station's SS at the same tide of the same day of measurement, whichever is higher |
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Turbidity in NTU |
≥ 4.0 or 120% of control stations turbidity at the same tide of the same day of measurement, whichever is higher |
≥ 4.3 or 130% of control station's turbidity at the same tide of the same day of measurement, whichever is higher |
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Temperature in°C |
1.8°C above the temperature recorded at representative control station at the same tide of the same day |
2°C above the temperature recorded at representative control station at the same tide of the same day |
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Total Alkalinity in mg/L
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≥ 116 mg/L or 120% of representative control station at the same tide of the same day, whichever is higher |
≥ 118 mg/L or 130% of representative control station at the same tide of the same day, whichever is higher
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Notes:
i. "Depth-averaged" is calculated by taking the arithmetic means of reading of all three depths.
ii. For DO, non-compliance of the water quality limits occurs when monitoring result is lower than the limits.
iii. For turbidity, SS and Salinity, non-compliance of the water quality limits occurs when monitoring result is higher than the limits.
2.7.3 If exceedances were found during water quality monitoring, the actions in accordance with the Event and Action Plan shall be carried out according to Appendix G. 2.8 Monitoring Results and Observations 2.8.1 During the reporting period, general water quality monitoring at all the eleven monitoring stations and regular DCM monitoring including monitoring stations S1, S2 and S3 were conducted on 1, 3, 6, 8, 10, 12, 14, 16, 18, 23, 25, 27 & 29 April 2019. Monitoring results of 7 key parameters: Salinity, DO, turbidity, SS, pH, temperature and total alkalinity in this reporting month, are summarized in Table 2.9, and details results are presented in Appendix D.
Table 2.9 Summary of Impact Water Quality Monitoring Results
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Locations |
Parameters |
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Salinity (ppt) |
Dissolved Oxygen (mg/L) |
pH |
Turbidity (NTU) |
Suspended Solids (mg/L) |
Temp. (oC) |
Total Alkalinity (mg/L) note ii |
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Surface & Middle |
Bottom |
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B1 |
Avg. |
30.31 |
10.97 |
10.98 |
8.70 |
2.6 |
5.25 |
23.6 |
109.1 |
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Min. |
27.32 |
8.59 |
8.83 |
8.34 |
1.3 |
2.00 |
19.6 |
101.0 |
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Max. |
33.34 |
13.43 |
13.55 |
9.13 |
3.6 |
12.00 |
28.3 |
115.0 |
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B2 |
Avg. |
30.71 |
11.17 |
11.27 |
8.70 |
2.6 |
4.92 |
23.6 |
109.2 |
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Min. |
27.49 |
9.22 |
9.28 |
8.30 |
1.3 |
2.00 |
19.6 |
101.0 |
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Max. |
33.44 |
13.13 |
13.86 |
9.14 |
4.0 |
12.00 |
28.2 |
115.0 |
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B3 |
Avg. |
30.41 |
11.16 |
11.14 |
8.64 |
2.7 |
4.71 |
23.6 |
109.2 |
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Min. |
27.42 |
9.24 |
9.20 |
8.31 |
1.6 |
2.00 |
19.6 |
101.0 |
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Max. |
33.40 |
13.75 |
13.59 |
9.10 |
3.8 |
9.00 |
28.3 |
116.0 |
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B4 |
Avg. |
30.54 |
11.62 |
11.54 |
8.67 |
2.7 |
4.96 |
23.6 |
109.3 |
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Min. |
27.39 |
9.67 |
9.62 |
8.30 |
0.9 |
2.00 |
19.6 |
100.0 |
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|
Max. |
33.44 |
14.64 |
13.91 |
9.12 |
3.7 |
11.00 |
28.2 |
116.0 |
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C1/C1A |
Avg. |
30.48 |
11.41 |
11.37 |
8.69 |
2.8 |
5.16 |
23.6 |
109.1 |
|
Min. |
27.33 |
9.64 |
10.04 |
8.30 |
1.5 |
2.00 |
19.7 |
101.0 |
|
|
Max. |
33.43 |
13.77 |
13.85 |
9.14 |
4.0 |
11.00 |
28.3 |
116.0 |
|
|
C2/C2A |
Avg. |
30.52 |
11.36 |
11.36 |
8.69 |
2.6 |
5.20 |
23.6 |
109.2 |
|
Min. |
27.30 |
9.11 |
9.71 |
8.31 |
1.0 |
2.00 |
19.7 |
102.0 |
|
|
Max. |
33.66 |
13.80 |
13.58 |
9.14 |
4.0 |
9.00 |
28.3 |
116.0 |
|
|
CR1 |
Avg. |
30.51 |
11.20 |
11.34 |
8.66 |
2.7 |
4.85 |
23.6 |
109.2 |
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Min. |
27.30 |
8.54 |
9.16 |
8.30 |
1.2 |
2.00 |
19.6 |
93.0 |
|
|
Max. |
33.62 |
13.74 |
13.79 |
9.14 |
4.1 |
10.00 |
28.2 |
116.0 |
|
|
CR2 |
Avg. |
30.30 |
11.60 |
11.62 |
8.72 |
2.3 |
4.73 |
23.6 |
109.2 |
|
Min. |
27.33 |
8.70 |
9.56 |
8.30 |
0.7 |
2.00 |
19.7 |
101.0 |
|
|
Max. |
33.45 |
14.22 |
13.77 |
9.11 |
4.0 |
12.00 |
28.3 |
116.0 |
|
|
F1/F1A |
Avg. |
30.38 |
11.37 |
11.29 |
8.71 |
2.6 |
5.17 |
23.6 |
109.3 |
|
Min. |
27.31 |
8.89 |
9.24 |
8.31 |
1.4 |
2.00 |
19.6 |
102.0 |
|
|
Max. |
33.34 |
13.71 |
13.63 |
9.09 |
3.9 |
9.00 |
28.3 |
116.0 |
|
|
H1 |
Avg. |
30.32 |
11.30 |
11.28 |
8.67 |
2.7 |
5.18 |
23.6 |
109.2 |
|
Min. |
27.31 |
8.69 |
9.21 |
8.30 |
1.0 |
2.00 |
19.7 |
101.0 |
|
|
Max. |
33.34 |
13.87 |
13.71 |
9.14 |
3.8 |
11.00 |
28.3 |
116.0 |
|
|
M1 |
Avg. |
30.35 |
11.49 |
11.60 |
8.71 |
2.6 |
4.94 |
23.6 |
109.3 |
|
Min. |
27.31 |
8.07 |
9.44 |
8.30 |
1.2 |
2.00 |
19.6 |
102.0 |
|
|
Max. |
33.41 |
13.33 |
13.75 |
11.29 |
3.8 |
9.00 |
28.2 |
116.0 |
|
|
S1
|
Avg. |
30.32 |
11.41 |
11.40 |
8.67 |
2.4 |
4.71 |
23.6 |
109.5 |
|
Min. |
27.27 |
8.37 |
8.68 |
8.30 |
0.8 |
2.00 |
19.7 |
101.0 |
|
|
Max. |
33.23 |
14.47 |
13.68 |
9.14 |
4.1 |
12.00 |
28.3 |
116.0 |
|
|
S2/S2A
|
Avg. |
30.41 |
11.49 |
11.55 |
8.67 |
2.7 |
4.96 |
23.6 |
109.3 |
|
Min. |
27.31 |
8.96 |
9.58 |
8.30 |
1.3 |
2.00 |
19.6 |
101.0 |
|
|
Max. |
33.43 |
14.06 |
13.44 |
9.06 |
3.8 |
9.00 |
28.3 |
116.0 |
|
|
S3
|
Avg. |
30.21 |
11.43 |
11.40 |
8.69 |
2.4 |
4.97 |
23.6 |
109.2 |
|
Min. |
27.35 |
9.15 |
9.47 |
8.30 |
0.8 |
2.00 |
19.6 |
101.0 |
|
|
Max. |
33.44 |
13.88 |
13.26 |
9.14 |
4.0 |
10.00 |
28.3 |
116.0 |
|
Notes:
i. "Avg", Min and Max is the average, minimum and maximum respectively of the data from measurements conducted under mid-flood and mid-ebb tides at three water depths, except that of DO where the data for Surface & Middle and Bottom are calculated separately.
ii. Total alkalinity test only conducted on DCM working day with referring master programme in Appendix A.
iii. Monitoring at S1, S2/S2A and S3 shall only be conducted during DCM work period referring to master programme in Appendix A.
Table 3.1 Noise Monitoring Parameters, Time, Frequency and Duration
|
Monitoring Station |
Time |
Duration |
Parameters |
|
M1/ N_S1, M2/ N_S2, M3/ N_S3 |
Day time: 0700-1900 hrs (during normal weekdays) |
Once per week Leq 5min/Leq 30min (average of 6 consecutive Leq 5min) |
Leq, L10 & L90 |
|
M1/ N_S1, M2/ N_S2, M3/ N_S3 |
Evening time: 1900-2300 hrs (including normal weekdays, also public holidays and Sundays) |
Once per week Leq 5min (3 sets of Leq 5min) |
Leq, L10 & L90 |
|
M1/ N_S1, M2/ N_S2, M3/ N_S3 |
Night time: 2300-0700 hrs (including normal weekdays, also public holidays and Sundays) |
Once per week Leq 5min (3 sets of Leq 5min) |
Leq, L10 & L90 |
3.3
Noise Monitoring Locations
3.3.1
Three noise monitoring
locations for impact monitoring and additional impact monitoring at the
nearby sensitive receivers are shown in Figure 3.1. _files/image009.jpg)
|
|
Figure 3.1 Noise monitoring locations at SKC |
Table 3.2 Noise Monitoring Location
|
Station |
NSR ID in EIA Report |
Noise Monitoring Location |
Type of sensitive receiver(s) |
Measurement Type |
|
M1 |
N_S1 |
Shek Kwu Chau Treatment & Rehabilitation Centre Hostel 1 |
Residential |
Façade |
|
M2 |
N_S2 |
Shek Kwu Chau Treatment & Rehabilitation Centre Hostel 2 |
Residential |
Façade |
|
M3 |
N_S3 |
Shek Kwu Chau Treatment & Rehabilitation Centre Hostel 3 |
Residential |
Façade |
l The microphone head of the lead level meter was normally positioned 1m exterior of the noise sensitive façade and lowered sufficiently so that the buildings external wall acts as a reflecting surface.
l The battery condition was checked to ensure good functioning of the meter.
l Parameters such as frequency weighting, the time weighting and the measurement time were set as follows:
- Frequency weight: A
- Time weighting: Fast
- Measurement time: 5 minutes
l Prior to and after noise measurement, the meter was calibrated using the calibrator for 94.0 dB at 1000Hz. If the difference in the calibration level before and after measurement is more than 1.0 dB, the measurement was considered invalid and repeat of noise measurement was required after re-calibration or repair of the equipment.
l For Noise monitoring was carried out for 30 mins by sound level meter. At the end of the monitoring period, noise levels in terms of Leq, L10 and L90 were recorded. In addition, site conditions and noise sources were recorded when the equipment were checked and inspected.
l All the monitoring data within the sound level meter system was downloaded through the computer software.
3.5 Monitoring Equipment 3.5.1 Integrated sound level meter was 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. 3.5.2 Equipment used in the impact noise monitoring programme is summarized in Table 3.3 below. Calibration certificates for the noise monitoring equipment are attached in Appendix H.Table 3.3 Impact Noise Monitoring Equipment
|
Equipment |
Brand and Model |
|
Sound Level Meter |
NTi XL2 SVAN 958A |
|
Sound Level Meter Calibrator |
Rion NC-74 |
l The microphone head of the sound level meter and calibrator were cleaned with a soft cloth at quarterly intervals.
l The sound level meter and calibrator were checked and calibrated at yearly intervals
l 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 from before and after the noise measurement agree to within 1.0dB.
3.7 Action and Limit Levels 3.7.1 The Action/Limit Levels 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 is presented in Table 3.4.Table 3.4 Action and Limit Levels for Noise per Updated EM&A Manual
|
Time Period |
Action |
Limit (dB(A)) |
|
0700-1900 hrs on normal weekdays |
When one documented complaint is received |
75 dB(A) |
Notes: If works are to be carried out during restricted hours, the conditions stipulated in the Construction Noise Permit (CNP) issued by the Noise Control Authority have to be followed.
3.7.2 If exceedances were found during noise monitoring. The actions in accordance with the Event and Action Plan shall be carried out according to Appendix I. 3.8 Monitoring Results and Observations 3.8.1 Impact monitoring for noise impact for daytime was carried out on 2, 8, 17, 25, 29 April 2019. Impact monitoring for noise impact for evening time and night time was carried out on 2&3, 8&9, 17&18, 25&26, 29&30 April 2019. The impact noise levels at Noise Monitoring Stations at SKC (i.e. M1/ N_S1 to M3/ N_S3) are summarized in Table 3.6, Table 3.7 and Table 3.8 respectively. Details of noise monitoring results are presented in Appendix J. 3.8.2 Major construction activity, major noise source and extreme weather which might affect the results were recorded during the impact monitoring. 3.8.3 According to our field observations, the major noise source identified at the designated noise monitoring station in the reporting month are summarised in Table 3.5:Table 3.5 Summary of Field Observation
|
Monitoring Station |
Major Noise Source |
|
M1 |
Nil |
|
M2 |
Nil |
|
M3 |
Air-conditioning units nearby |
3.8.4 No data from impact monitoring during daytime has exceeded the stipulated limit level at 75 dB(A).
Table 3.6 Summary of Impact Noise Monitoring Results during Daytime
|
Location |
Measured Noise Level in dB(A) |
||
|
Range of Leq 30min |
Range of L10 5min |
Range of L90 5min |
|
|
M1 |
52.6 54.9 |
49.7 60.8 |
48.3 54.9 |
|
M2 |
55.1 57.8 |
54.7 62.2 |
48.2 54.4 |
|
M3 |
53.3 59.5 |
51.8 63.9 |
49.8 55.7 |
3.8.5 Applicable mitigation measures for construction works are fully implemented as shown in Appendix B, where double-glazed windows and air conditioning system were also installed and confirmed operable for the NSRs (N_S1, N_S2 & N_S3).
3.8.6 During the noise monitoring event, frontline staffs of ET have inquired the treatment centre users on any noise disturbance from the construction activities at evening and night time, where no complaint and adverse opinions was received.
3.8.7 Data from impact monitoring during evening time and night time were compared with the NCO criteria. Where site inspection and auditing on Contractors record have shown that the conditions stipulated in the Construction Noise Permit (CNP) issued by the Noise Control Authority for construction works during restricted hours were followed. No inappropriate practice were spotted during evening time and night time construction works, thus the stipulated requirement on noise impact control during night time and evening time was achieved.
Table 3.7 Summary of Additional Impact Noise Monitoring Results during Evening Time
|
Location |
Measured Noise Level in dB(A) |
||
|
Range of Leq 5min |
Range of L10 5min |
Range of L90 5min |
|
|
M1 |
47.5 58.8 |
48.9 60.5 |
45.3 53.9 |
|
M2 |
47.4 58.9 |
48.1 62.0 |
45.9 53.7 |
|
M3 |
48.4 55.4 |
50.6 57.1 |
46.3 54.1 |
Table 3.8 Summary of Additional Impact Noise Monitoring Results during Night Time
|
Location |
Measured Noise Level in dB(A) |
||
|
Range of Leq 5min |
Range of L10 5min |
Range of L90 5min |
|
|
M1 |
41.0 57.9 |
42.4 57.8 |
39.7 52.6 |
|
M2 |
44.5 55.0 |
45.3 57.3 |
43.2 52.9 |
|
M3 |
45.9 55.0 |
46.5 56.8 |
45.2 53.0 |
Table 4.1 Quantities of Waste Generated from the Project
|
Reporting Month |
Actual Quantities of Inert C&D Materials Generated Monthly |
Actual Quantities of C&D Wastes Generated Monthly |
||||||||||||
|
Total Quantity Generated |
Hard Rock and Large Broken Concrete (see Note 1) |
Reused in the Contract |
Reused in other Projects |
Disposed as Public Fill |
Imported Fill |
Metals |
Paper / cardboard packaging |
Plastics (see Note 2) |
Chemical Waste |
Others, e.g. general refuse (see Note 3) |
||||
|
Sand |
Public Fill |
Rock |
||||||||||||
|
(in ,000m3) |
(in ,000m3) |
(in ,000m3) |
(in ,000m3) |
(in ,000m3) |
(in ,000m3) |
(in ,000kg) |
(in ,000kg) |
(in ,000kg) |
(in ,000kg) |
(in ,000L) |
(in ,000m3) |
|||
|
April 2019 |
0 |
0 |
0 |
0 |
0 |
58.0413 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
Notes:
1. Broken concrete for recycling into aggregates.
2. Plastic refer to plastic bottles / containers, plastic sheets / foam from packaging materials.
3. Use the conversion factor: 1 full load of dumping truck being equivalent to 6.5m3 by volume.
4.6 Although there is not much waste generation anticipated in the coming month from the Project, the Contractor is advised to sort and store any solid and liquid waste on-site properly prior to disposal.Table 5.1 Tagged Coral Monitoring Locations, Time and Frequency
|
Monitoring Location |
Monitoring Month/Year |
Frequency |
No. of Monitoring Survey |
|
10 selected hard coral colonies at control site / indirect impact site |
1st Month |
Weekly Survey |
4 |
|
2nd to 3th Months |
Monthly Survey |
2 |
|
|
4th Month (postponed to 5th month due to diver accident in Shek Kwu Chau in October 2018) |
Re-tagging of Coral Colonies in Indirect Impact Site after Typhoon Mangkhut |
||
|
4th Month (postponed to 5th month due to diver accident in Shek Kwu Chau in October 2018 and further postpone to 6th month due to adverse weather) |
Re-tagging of Coral Colonies in Control Site after Typhoon Mangkhut |
||
|
5th Month (postponed to 6th month due to diver accident in Shek Kwu Chau and further postponed to 7th month due to delay of re-tagging activities at both Indirect Impact Site and Control Site) |
Post Re-tagging Monthly Survey |
1 |
|
|
7th to 76th Months (postponed to 8th to 76th month due to diver accident in Shek Kwu Chau in October 2018) |
Quarterly Survey |
23 |
|
|
16 translocated hard coral colonies and 10 selected natural hard coral colonies at recipient site R3 |
1st Year |
Quarterly Survey |
4 |
|
|
|
Figure 5.1 Tagged Natural Corals at Indirect Impact Site Near SKC for re-tagging after typhoon Mangkhut |
|
|
|
Figure 5.2 Tagged Natural Corals at Control Site Near Yuen Kong Chau for re-tagging after typhoon Mangkhut |
|
|
|
Figure 5.3 Tagged Translocation Corals at Recipient Site R3 near SKC |
Table 5.2 Tagged Natural Corals during Baseline and Re-tagged Natural Corals after Typhoon Manghkut at Control Site near Yuen Long Chau
|
Coral # |
GPS Coordinates |
|
|
1 |
N22°0945.96 |
E113°5457.81 |
|
2R |
N22°1129.12 |
E113°5909.01 |
|
3 |
N22°0945.81 |
E113°5457.78 |
|
4 |
N22°0945.70 |
E113°5457.95 |
|
5R |
N22°1129.10 |
E113°5909.18 |
|
6 |
N22°0945.75 |
E113°5458.02 |
|
7R |
N22°1129.17 |
E113°5908.86 |
|
7 |
N22°0945.65 |
E113°5457.94 |
|
8 |
N22°0945.53 |
E113°5457.90 |
|
9 |
N22°0946.23 |
E113°5454.70 |
|
10R |
N22°1129.18 |
E113°5908.91 |
Notes:
i. The re-tagged corals were marked as ##R.
Table 5.3 Re-tagged Natural Corals after Typhoon Manghkut at Indirect Impact Site near SKC
|
Coral # note i |
GPS Coordinates |
|
|
11R |
N22°1129.14 |
E113°5908.92 |
|
12R |
N22°1129.12 |
E113°5909.01 |
|
13R |
N22°1129.11 |
E113°5909.07 |
|
14R |
N22°1129.13 |
E113°5909.12 |
|
15R |
N22°1129.10 |
E113°5909.18 |
|
16R |
N22°1129.07 |
E113°5909.23 |
|
17R |
N22°1129.17 |
E113°5908.86 |
|
18R |
N22°1129.14 |
E113°5908.94 |
|
19R |
N22°1129.20 |
E113°5908.81 |
|
20R |
N22°1129.18 |
E113°5908.91 |
Notes:
i. The re-tagged corals were marked as ##R.
Table 5.4 GPS Coordinates of Recipient Site R3
|
Site |
GPS Coordinates |
|
|
R3 |
N22°1143.69 |
E113°28.99 |
5.4 Impact Monitoring Methodology 5.4.1 Health status of coral was assessed by the following criteria:
· Hard coral: Percentage of surface area exhibiting partial mortality and blanched/bleached area of each coral colony and degree of sedimentation.
5.5 Action and Limit Levels 5.5.1 Monitoring result was reviewed and compared against the below Action Level and Limit Level (AL/LL) as set with the below Table 5.5 and Table 5.6.
Table 5.5 Action and Limit Levels for Construction Phase Coral Monitoring
|
Parameter |
Action Level |
Limit Level |
|
Mortality |
If during Impact Monitoring a 15% increase in the percentage of partial mortality on the corals occurs at more than 20% of the tagged indirect impact site coral colonies that is not recorded on the tagged corals at the control site, then the Action Level is exceeded. |
If during Impact Monitoring a 25% increase in the percentage of partial mortality on the corals occurs at more than 20% of the tagged indirect impact site coral colonies that is not recorded on the tagged corals at the control site, then the Limit Level is exceeded. |
Table 5.6 Action and Limit Levels for Post-Translocation Coral Monitoring
|
Parameter |
Action Level |
Limit Level |
|
Mortality |
If during Post-Translocation Monitoring a 15% increase in the percentage of partial mortality on the corals occurs at more than 20% of the translocated coral colonies that is not recorded on the original corals in the recipient site, then the Action Level is exceeded. |
If during Post-Translocation Monitoring a 25% increase in the percentage of partial mortality on the corals occurs at more than 20% of the translocated coral colonies that is not recorded on the original corals in the recipient site, then the Limit Level is exceeded. |
· Vessel-based Line-transect Survey to monitor the occurrence of Finless Porpoises (and Chinese White Dolphins) in the study area during construction works, by comparing with the findings of the pre-construction marine mammal monitoring;
· Passive Acoustic Monitoring to study the usage of the Project Area and two control sites in South Lantau Waters by Finless Porpoise during construction works, in reference with the baseline findings of the pre-construction marine mammal monitoring; and
· Land-based Theodolite Tracking to study the movement and behavioral pattern of Finless Porpoise within and around the Project Area during construction works.
6.1.5 The marine mammal observation works of Marine Mammal Exclusion Zone (MMEZ) and Marine Mammal Watching as two of the specific mitigation measures recommended in the approved EIA report shall be fully and properly implemented for the Project to minimize disturbance on Finless Porpoise during construction and operational phases. 6.2 Survey Methods 6.2.1 Vessel-based Line-transect Survey For the vessel-based marine mammal surveys, the monitoring team adopted the standard line-transect method (Buckland et al. 2001) as same as that adopted during the EIA study and pre-construction phase monitoring to allow fair comparison of marine mammal monitoring results. Eight transect lines are set at Southeast Lantau survey area, including Shek Kwu Chau, waters between Shek Kwu Chau and the Soko Islands, inshore waters of Lantau Island (e.g. Pui O Wan) as well as southwest corner of Cheung Chau as shown in Figure 6.1 below:
|
|
Figure 6.1 Line Transects for Marine Mammal Surveys |
Table 6.1 Vessel-based Line-transect Survey Frequency
|
Season |
Months |
Frequency |
|
Peak Season |
December, January, February, March, April & May |
Twice per month |
|
Non-peak Season |
June, July, August, September, October & November |
Once per month |
SPSE = ((S / E) x 100) / SA%
DPSE = ((D / E) x 100) / SA%
where S = total number of on-effort sightings
D = total number of dolphins/porpoises from on-effort sightings
E = total number of units of survey effort
SA% = percentage of sea area
6.2.2 Passive Acoustic Monitoring (PAM) The PAM aims to study the usage of an area by Finless Porpoise by using an array of automated static porpoise detectors (e.g. C-POD) which would be deployed at different locations to detect the unique ultra-high frequency sounds produced by Finless Porpoise. During the construction period, the PAM survey will be conducted including placement of two passive porpoise detectors outside the Project Area as control site (i.e. within Pui O Wan and to the south of Tai A Chau) and one porpoise detector within the Project Area (i.e. near Shek Kwu Chau) as shown in Figure 6.2 below.
|
Table 6.2 PAM Deployment Period
|
Season |
Months |
Deployment Period |
|
Peak Season |
December, January, February, March, April or May |
At least 30 days during the peak months of porpoise occurrence in South Lantau waters |
|
|
|
Figure 6.3 Locations of Land-based Theodolite Tracking |
Table 6.3 Land-based Theodolite Tracking Survey Period
|
Season |
Months |
Survey Period |
|
Peak Season |
December, January, February, March, April or May |
30 days during the peak months of porpoise occurrence in South Lantau waters |
|
|
|
|
Figure 6.4 Illustration of Typical MMEZ |
Table 6.4 Summary of Vessel-based Line-transect Survey Effort
|
Date |
Area* |
Beaufort |
Effort (km) |
Season |
Vessel |
Effort Type** |
|
02-04-2019 |
SEL |
2 |
18.6 |
SPRING |
SMRUHK |
P |
|
02-04-2019 |
SEL |
3 |
13.8 |
SPRING |
SMRUHK |
P |
|
02-04-2019 |
SEL |
4 |
7.8 |
SPRING |
SMRUHK |
P |
|
23-04-2019 |
SEL |
1 |
41.6 |
SPRING |
SMRUHK |
P |
* As shown in Figure. 6.1
** P (from AFCD) denotes the ON EFFORT survey on the transect line, not the adjoining passages
Table 6.5 Sightings recorded during April 2019 Vessel-based Line-transect Survey
|
Date |
Species |
Sighting No. |
Time |
Group Size |
PSD |
Behaviour |
Lat. |
Long. |
Area |
Effort |
Season |
|
02-04-19 |
Finless Porpoise |
24 |
11:51 |
2 |
8 |
Travelling |
22.18128 |
113.9728 |
SEL |
ON |
SPRING |
|
23-04-19 |
Finless Porpoise |
25 |
10:09 |
2 |
105 |
Travelling |
22.18044 |
114.0128 |
SEL |
ON |
SPRING |
_files/image017.jpg)
Figure 6.5 Location of sightings recorded during April 2019 Vessel-based Line-transect Survey
A review of the long term AFCD marine mammal monitoring programme, the EIA and the pre-construction baseline monitoring report for this project was conducted. Both the EIA and the pre-construction baseline monitoring were conducted during the peak porpoise months (Dec 2008 to May 2009 and Feb-April 2018, respectively). The AFCD long term monitoring data, the EIA and baseline information could be compared directly to the April 2019 Impact Survey results. A review of the Beaufort Sea state April survey conditions between 2009 and 2018 (only data available from AFCD at time of writing; (AFCD 20181; 20172; 20163; 20154; 20145; 20136; 20127; 20118; 20109)) show that between 27.5% and 100% of survey effort has been conducted at Beaufort Sea State 2 or better in the past. During the EIA, 77.8% of the survey was conducted at Beaufort Sea State 2 or better. For this project in April 2019, 73.6% of the survey was conducted at Beaufort Sea State 2 or better and, as such, survey conditions in April 2019 were within the % limits of previous AFCD and the baseline surveys, and much better than surveys conducted during the EIA. A review of the porpoise sightings in the survey area for April between 2009-2018 indicate that there are fluctuations between the number of sightings usually recorded. For all weather conditions, and for the nine years data available, 1 years recorded two (2) sightings (AFCD 2009), 1 year recorded three (3) sightings (2015), 1 year recorded four (4) sightings (2010), 3 years recorded seven (7) sightings (EIA 2009; 2011; 2012), 2 years recorded nine (9) sightings (2013; 2014), one year recorded ten (10) sightings (2016), one year recorded thirteen (13) sightings (Baseline 2018) and one year recorded fourteen (14) sightings (2017). Effort varied considerably between years and the average number of sightings (per km) varied between 0.06 and 0.28 km-1. There is no trend in encounter rates recorded by the AFCD long term monitoring programme, i.e., the highest encounter rate was recorded once; in 2013 (9 sightings). The lowest encounter rate was recorded in 2009 and 2015 (AFCD surveys). For the baseline survey, the encounter rate for April 2018 was 0.10 sightings km-1. For April 2019, an encounter rate of 0.02 sightings km-1 is calculated, which is low when compared to other years and other survey types. It is noted that the peak season of finless porpoise is coming to an end and that works at IWMF are increasing, both of which may account for the decrease in porpoise sightings during April 2019. It is also noted that the impact survey focuses on a relatively small populations of highly mobile individuals and the survey area conducted for this monitoring is very small. It is difficult to draw conclusions with regards to impacts on marine mammals as predicted in the EIA and the effectiveness of project mitigation measures during the initial phase of construction activities when porpoise sightings are relatively low. It is noted that the encounter rate for April 2019 is lower than previously recoded in the baseline survey and the last ten years of surveys conducted in April under the long term monitoring programme. As surveys continue for this project, data shall be constantly re-evaluated across survey months to discern trends, if any. It is noted that with such an extremely low encounter rate in such a small part of the finless porpoise habitat, significant differences in sightings may be impossible to calculate. 6.4.2 PAM and Land-based Theodolite Tracking The three PAM systems are to be deployed for a minimum of thirty (30) days during peak porpoise season. The purpose of the deployment is to gain an insight of habitat use by finless porpoise. An autonomous acoustic recorder (archival data), using both inbuilt and PAM Guard software, records and analyses the distinctive high frequency sounds produced by finless porpoise. PAM systems were deployed at two areas outside the IMWF as controls site at 21 April 2019 which shown in Appendix C (i.e. within Pui O Wan and to the south of Tai A Chau) and another system was deployed within the Project Area at 30 April 2019 which shown in Appendix C (i.e. near Shek Kwu Chau). Multiple PAM systems were deployed at each site to minimise risk from PAM units being lost/malfunctioning as additional data sets were independently gathered. PAM data shall be analysed at the end of the survey period, as per the format and analyse procedures presented in the baseline report for the Project. Theodolite surveys were conducted 1, 3, 4, 8, 9, 10, 11, 12, 15, 18, 24, 25, 26 & 29 April 2019. Five to six hours of monitoring were conducted each day. As anticipated, site barges obstructed much of the immediate view. Theodolite data shall be analysed at the end of the survey period, as per the format and analyses procedures presented in the baseline report for this project. 6.4.3 Specific Mitigation Measures Silt curtains were deployed for sand blanket laying works, dredging works and DCM during the reporting period. Teams of two MMO were on duty for continuous monitoring of the Marine Mammal Exclusion Zone (MMEZ) for DCM works, cluster MMEZ installation/re-installation/relocation process of silt curtains, and the marine mammal trapping checking and silt curtains inspection in accordance with the Detailed Monitoring Programme of Finless Porpoise and Marine Mammal Watching Plan respectively. Trainings for the MMO were provided by the ET prior to the aforementioned works, with a cumulative total of 98 individuals being trained and the training records kept by the ET. From the Marine Mammal Watching observation records and MMEZ monitoring log records, no Finless Porpoise or other marine mammals were observed within or around the MMEZ and silt curtains in the reporting month. 6.4.4 References1. Agriculture, Fisheries and Conservation Department (AFCD) 2018. Annual Marne Mammal Monitoring Programme April 2017-March 2018) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
2. Agriculture, Fisheries and Conservation Department (AFCD) 2017. Annual Marne Mammal Monitoring Programme April 2016-March 2017) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
3. Agriculture, Fisheries and Conservation Department (AFCD) 2016. Annual Marne Mammal Monitoring Programme April 2015-March 2016) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
4. Agriculture, Fisheries and Conservation Department (AFCD) 2015. Annual Marne Mammal Monitoring Programme April 2014-March 2015) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
5. Agriculture, Fisheries and Conservation Department (AFCD) 2014. Annual Marne Mammal Monitoring Programme April 2013-March 2014) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
6. Agriculture, Fisheries and Conservation Department (AFCD) 2013. Annual Marne Mammal Monitoring Programme April 2012-March 2013) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
7. Agriculture, Fisheries and Conservation Department (AFCD) 2012. Annual Marne Mammal Monitoring Programme April 2011-March 2012) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
8. Agriculture, Fisheries and Conservation Department (AFCD) 2011. Annual Marne Mammal Monitoring Programme April 2010-March 2011) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
9. Agriculture, Fisheries and Conservation Department (AFCD) 2010. Annual Marne Mammal Monitoring Programme April 2009-March 2010) The Agriculture, Fisheries and Conservation Department, Government of the Hong Kong SAR.
http://www.afcd.gov.hk/english/conservation/con_mar/con_mar_chi/con_mar_chi_chi/con_mar_chi_chi.html
Table 7.1 List of Equipment Used during Construction Phase Monitoring
|
Equipment |
Quantity |
|
Swarovski EL 8.5 x 42 Binocular |
1 |
|
Swarovski EL Range 8 x 42 Binocular |
1 |
|
Swarovski ATX 25-60 x 85 Spotting Scope |
1 |
|
Canon 1Dx Mark II Camera |
1 |
|
Canon EF300mm F2.8 Lens with Canon 2x Teleconverter |
1 |
|
Canon PowerShot G7X Camera |
1 |
|
Garmin GPSMAP 64S |
1 |
Table 7.2 Weather Conditions during the WBSE Monitoring
|
Date |
Condition |
Temperature (℃) |
|
11 April 2019 |
- East force 3 to 4 - Sunny |
27 |
|
25 April 2019 |
- East force 4 - Sunny |
30 |
|
|
Figure 7.1 Location of WBSE Nest on SKC |
|
|
|
WBSE Chick Staying in the Nest |
|
|
|
Adult WBSE Staying at the Area next to its Nest |
|
Figure 7.2 Photo Record of WBSE on SKC During the Reporting Period |
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Figure 8.1 Environmental Complaint Handling Procedures
8.2 No exceedance of the Action and Limit Levels of the regular construction noise, general and regular DCM water quality monitoring, coral and WBSE monitoring was recorded during the reporting period. 8.3 No project-related Action Level & Limit Level exceedance was recorded as shown in Appendix N, however, environmental deficiencies of the Contractor on the implementation of silt curtain deployment system were spotted. 8.4 The Contractor has been reminded that all measures recommended in the deposited Silt Curtain Deployment Plan shall be fully and properly implemented for the Project as per Clause 2.6A of the FEP. 8.5 No notification of summons and prosecution was received in the reporting period. 8.6 Statistics on complaints, notifications of summons and successful prosecutions are summarized in Appendix O.9. EM&A Site Inspection 9.1 Site inspections were carried out on a weekly basis to monitor the implementation of proper environmental pollution control and mitigation measures under the Contract. In the reporting period, site inspections were carried out on 2, 9, 16 & 23 April 2019 at the site portions list in Table 9.1 below.
Table 9.1 Site Inspection Record
|
Date |
Inspected Site Portion |
Time |
|
2 April 2019 |
Portion 1, 1A & 1B (near SKC) |
10:30 11:25 |
|
9 April 2019 |
Portion 1, 1A & 1B (near SKC) |
10:15 11:30 |
|
16 April 2019 |
Portion 1, 1A & 1B (near SKC) |
10:35 11:40 |
|
23 April 2019 |
Portion 1, 1A & 1B (near SKC) |
10:20 11:30 |
Table 9.2 Site Observations
|
Date |
Environmental Observations |
Follow-up Status |
|
2 April 2019 (Site inspection) |
Observation(s) and Recommendation(s) 1. On ESC-61, lube oil drums should be put on drip tray or properly stored at storage area.
|
1. On ESC-61, lube oil drums have been removed. |
|
9 April 2019 (Site inspection) |
Observation(s) and Recommendation(s) 1. On Penstone 1, chemical waste chamber should be properly locked. 2. On Penstone 1, housekeeping was found unsatisfactory, The Contractor should ensure all garbage to be collected at designated collection point / bin.
|
1. On Penstone 1, proper lock was provided on chemical waste cabinet. 2. On Penstone 1, all garbage has been collected at designated collection point / bin. |
|
16 April 2019 (Site inspection) |
Observation(s) and Recommendation(s) 1. On Penstone 1, runoff on barge surface should be prevented from flowing directly to the sea. 2. On Penstone 1, before start operation, the Contractor should confirm the specification of silt curtain using to meet the requirement specified in the silt curtain deployment plan, and the silt curtain should be in right position and good condition. 3. On ESC-62, oily water was found on a drip tray and nearly overflow. 4. On ESC-62, silt curtain was found broken. |
1. On Penstone 1, bunding was provided around the barge to prevent runoff directly to the sea. 2. On Penstone 1, the silt curtain has been maintained to ensure in right position and good condition. 3. On ESC-62, oily water was removed from drip tray. 4. On ESC-62, silt curtain was maintained. |
|
23 April 2019 (Site inspection) |
Observation(s) and Recommendation(s) 1. On ESC-61, broken part of silt curtain was observed. 2. On Eun Sung 750, the hole on the bunding for release water was not plugged.
|
1. On ESC-61, silt curtain was maintained. 2. On Eun Sung 750, the hole on the bunding was closed. |
· Laying of Geotextile and Sand Blanket for DCM Injection Works
· DCM Installation Works
· Coring of DCM samples
· Static Loading Test
· Cone Penetration Test
· Dredging Works and Sediment Disposal
10.2 Potential environmental impacts arising from the above construction activities are mainly associated with water quality, construction noise, waste management and ecology. 10.3 The key environmental mitigation measures for the Project in the coming reporting period expected to be associated with the construction activities include:
· Reduction of noise from equipment and machinery on-site;
· Installation of silt curtains for DCM installation, sand blanket laying works and dredging works;
· Sorting, recycling, storage and disposal of general refuse and construction waste;
· Management of chemicals and avoidance of oil spillage on-site, especially under heavy rains and adverse weather; and
· Implementation of cluster MMEZ and inspection of enclosed environment within silt curtains as per DMPFP
· Regulation on rate and means for dredging works as stipulated in FEP Clause 2.17 2.21
· Daily site audit and monitoring by ET during dredging work as stipulated in FEP Clause 2.21A
· Storage, handling and disposal of dredged materials according to Dumping At Sea Ordinance (DASO)
10.4 The tentative schedule of regular construction noise, water quality and ecology monitoring in the next reporting period is presented in Appendix P. The regular construction noise, water quality and ecology monitoring will be conducted at the same monitoring locations in the next reporting period._files/image001.png)
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