ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited 7 SCREENING OF ANTICIPATED IMPACTS AND PROPOSED MITIGATIONS Potential impacts of establishment during the n TERM = Immediate, Short, Medium or construction and operation phases of the Long Term. dedicated LNG Terminal on the Physical, n EFFECT = Local (Project site only), Biological and Socio-economic environment Regional (beyond project area) or Strategic have been identified and assessed in the (related to other issues) following sections. Where required, mitigation measures for the The LNG Terminal at the proposed site in Port significant negative impacts have been Qasim area is expected to respond to the needs recommended. of natural gas and LPG through import of raw The operational phase will involve berthing of a bulk natural gas as an environmental friendly fuel LNG carrier, loading arm connection and pumping of for the industrial, commercial and domestic LNG to FSRU vessel parked alongside the berthing consumers in Pakistan. The activities related to facility. Subsequent processes are re-gasification and construction and operations of this facility are transporting of the RLNG to natural gas grid. Other expected to have some small order than these activities, power generation shall be made environmental impacts on the baseline as per demand on FSRU. Fugitive air emissions, conditions in Port Qasim area. operational leakages, venting of storage spheres etc. Unlike other liquid bulk products handled at may lead to air receptor loading. Port Qasim, the chemical and physical properties of LNG are such that physical 7.1- Environmental Mitigation conveyance is limited to the primary receptor. Goals The product is liquid which shall be re-gasified at the terminal for delivery to SSGC network The project is located in the Korangi Fish Harbour system. zone. As with other growing fishery and allied industries in such developing areas, negative impact A qualitative assessment of each impact has on the environment will not take place. Keeping in been made in the impact analysis. Each of the view the environment mitigation objective, Pakistan impacts has been reviewed for construction and GasPort Limited shall aim primarily to recognize the operation phases of the LNG Terminal. impacts and minimize or avoid such impacts on the Mitigation measures as appropriate have been environment. Mitigation measures have been identified for implementation. suggested here and Environment Management Plan The anticipated impacts are envisaged as has been proposed for implementation at each stage follows: of Project activity by having an organizational set up to closely monitor the performance. n NATURE = Positive (Improvement) or Negative (Degradation) 7.1.1- Short/Near Term Goals n MAGNITUDE = Low, Medium or High n Planning and design/fabrication of LNG n DURATION = Temporary or Permanent / handling facilities to control undesirable Cyclic (repetitive) impacts on the environment. 1of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited n Address the environmentally sensitive The location of LNG terminal as described in issues such as mangrove ecology, marine chapter 3 has been carefully selected to reduce water quality, air quality, etc. the impact on navigation and ecology. LNG berth at the proposed location seems to be well n Construction operation to ensure precautionary poised in the physical scenario. measures to avoid incidents such as spillages, inadequate dredge disposal, mangrove While siting of the LNG berth, the onshore area and cutting/grabbles. the pipeline alignment the following parameters were considered: 7.1.2- Long Term Goals n Safe distance from population. n Long term objectives form part of the n Proximity to berth Environmental Management Plan aimed at creating a general awareness among operational phase staff n Length of delivery lines to customer and carry out periodical monitoring of quality of air network and liquid effluents. n Infrastructure such as roads, utilities etc. Some of the key objectives are: n Tank foundation n Setting up of a Monitoring and Reporting n Earthquake System The selected site however offers more than minimum required distance between the LNG n Organizing a Supervisory and Monitoring berth and mangroves, thus minimising the Mechanism disturbance to mangrove ecology during the n Drawing out plans for emergency situation construction and laying of the sub-sea pipeline. and management 7.3- Physical impacts during n Training of personnel in safe environmental construction & operations practices n Regular meetings and sessions to review 7.3.1- Noise due to LNG Terminal, safety, environmental quality and Pipeline and Land Facilities emergency procedures. 7.2- Impacts at Design Stage A- Impacts during Construction Phase LNG terminal construction and associated 7.2.1- Project Siting activities onshore and offshore may have possible impact on ambient noise levels. In particular, Pakistan GasPort Limited LNG terminal is spread works such as pile driving, dredging, drilling, onshore and offshore. The onshore storage area is earthworks, etc. as well as site plant such as connected to offshore development via a sub-sea compressors, would contribute to noise. The pipeline. The onshore area is located in an open area duration of the construction work is anticipated which is presently sporadically developed. The not to exceed over a years period. offshore jetty and sub-sea pipeline are primarily located in tidal waters and mangroves with no human Wind speed and direction data reveals that winds settlements in the vicinity. However the onshore are inclined to blow from southwest. Offshore facility has some human settlements in proximity (1.5 winds are also generated by convection changes as km away). the land warms during the day. It is considered 2of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited likely that there would be regular occasions when Therefore no special mitigation measures are the prevailing wind is such that noise is directed required. towards the land. B- Impacts due to Operation The acoustic effect of the creeks especially during low water would be to echo the noise, possibly As described earlier, there are several factors that causing a weak echo effect for sharp burst of noise would affect the potential noise from the terminal. such as those of pile driving. However, the open Such factors include the distance from terminal to land would help the dissipation of construction the residential areas, local acoustic, barriers to noise. There are no notable buildings or noise, and the tolerance of the local population. topographical features in proximity to However, distance of the residential area from the construction sites that would provide shielding or site would be the major provider of cushion damping effects. dampers for the noise and vibration generated due to construction activity. There are no developed residential areas close to the shore area. There is no school, hospital or The operation of LNG cargo unloading, storage library, however some human settlements mostly and re-gasification etc. are low impact activities. comprising earthen dwellings are scattered. The Noise emissions during project operation is source of major noise in the area is Korangi Fish expected to be much lower and generally derived Harbour which is not of major concern. It is from facility operations such as pumps, engines, expected that on site noise levels during other on-site machinery, and from marine vessel construction phase may not exceed the average unloading LNG at berth. noise of 85 dB(A) at 7.5m. Acceptable noise levels The shore facility is not particularly noisy as there for construction equipment may vary from 75-100 are is only pipeline juncttion and measurement dB(A) for which the workers will be provided ear facility. There are no continuously noisy conveyor plugs to be worn as protective measures. systems. The standby power generator would be housed in its own building, and occasional use is Mitigations: not considered a significant noise source. Dredging operations typically proceed for 24 The most intrusive noise source would be the hours a day. It is not necessary to restrict dredging terminal related traffic especially on the road times because there is no significant or densely outside the storage area. Traffic movements into populated residential area in the vicinity. and out of the storage area would continue over Other activities during construction that can be a day hours. However, vehicles could arrive and / source of noise and vibration would be the or depart at any time. movement and operation of heavy construction Sound emissions from the marine vessels would equipment, excavation and fill operation for mainly be generated by the operation of the grading, pipeline cutting, welding, installation etc. vessel's engines. The noise emissions from vessel The noise would be confined to the local engines are substantially dampened by their surrounding and the impact will be of temporary placement deep within the confines of the vessel. nature. The increase in noise emissions from marine The potential changes in sound quality on other vessels using the berth is not expected to result in local roads resulting from increased vehicle traffic significant increase in level <3dB(A). during construction are not expected to be Additionally, sound emissions from marine significant. The potential changes in ambient vessels will occur on an intermittent and sound pressure levels are expected to be low. infrequent basis. 3of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited Mitigations: due to dust and fugitive emissions. Regular occurrence of high-level airborne dust The sources of noise during operation of the emission is neither reported nor recorded for the project include vehicular movements, ships site. The climate is dry and the surrounding land is offloading operations, intermittent sounding of typical of arid zone. Windy conditions prevail horns by the ships etc. The noise emitting from during the monsoons. As the land mass begins to these sources will not be significantly higher than warm up during the day, the resulting convection the background noise level. currents generate offshore winds starting from the As an occupational health and safety standards the noon hour. Dust storms are known to occur. workers wherever necessary will be provided with However, it is unlikely that dust generated during earmuffs as per specifications to meet the World construction would cause a significant nuisance Bank guidelines. The World Bank guidelines for impact. ambient noise level within industrial sites During the levelling and grading operations in the recommend daytime and night time limits of 75dB storage area and handling of construction (A) and 70dB (A) respectively. The NEQ standard materials especially materials for concrete, some of the EPA for external noise levels is 85dB (A) at dust will be generated. The access to the site is over 7.5 m. The IUCN report (1993) on the an existing paved road. The movement of trucks Environmental Review of Port Qasim area bringing in construction materials is therefore not suggested noise level range from 35-45 dB (A) for expected to create significant dust emission. small offices and 75-85dB (A) for maintenance areas. Construction and transportation equipment (earth movers, graders, blasting, trucks, vessels, concrete 7.3.2- Project Impact on Air Quality batch plant, etc.) will likely generate dust and emit combustion gases, including greenhouse gases Construction and operation of the Project is (GHGs), primarily carbon dioxide. Fugitive dust expected to result in emissions into the atmosphere and particulate matter emissions from construction that may affect air quality. The effects on air activities (such as clearing, grubbing, blasting, and quality are likely to arise during construction from similar earth-moving activities) and operational dust generation by earthwork at onshore site and activities (such as vehicle travel) are transient in during operation from fugitive emissions of nature and are dependent on many factors such as natural gas, venting and accidental leakages in the the moisture in the soil, the level of activity at a components of the system particular location, and meteorological conditions at the time of the construction or operational A- Impacts during Construction Phase activities. These emissions are expected to be Fine particulates suspended in the air can be nominal, and are expected to occur intermittently. windblown from the site to adjacent windward Any potential for dust or particulate matter areas. The main impact regarding fugitive generation would likely occur during periods of emissions of dust is a nuisance effect. Certain high winds or extremely dry periods, and as such construction activities can become major sources of are expected to be of low frequency and short dust, for example earth-moving, drilling and duration. Given the expected low magnitude of handling of aggregates besides operation of these emission sources, the low frequency of construction equipment, which could generate occurrence, limited duration of occurrence, and the fugitive emissions. However, it is envisaged most mitigation that will be applied, dust and of the ditching and excavation would be done in particulate matter emissions from construction and wet phase thereby minimising the impact arising operation activities are not expected to be 4of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited substantive. emissions during project decommissioning may also occur, although these are expected to be low. Further, emissions from construction equipment are another source of pollution. The air As described above, under certain conditions contaminants emitted during construction may fugitive emissions could cause nuisance. The include nitrogen oxides and carbon monoxide (due prevailing wind data indicate that in some to operation of construction equipment and circumstance airborne dusts if any arising due to vehicular traffic at the site) besides the suspended activities associated with disturbance to soil could particulates in the form of dust. be windblown from the terminal and storage area to inlands. The predominant wind direction in the area is from the west that is from the sea to the land. The The operation of LPG Terminal and storage, airborne dust and emissions from the construction however, does not generate any dust. Another site would be blown towards the nearby land area. source of GHGs emissions would be the trucks and However, these would be limited to construction bowsers taking LPG supplies to consumers. As the period. As the site is located away from urban access to site is over paved roads and truck loading areas and human settlements which are not bays inside the LPG storage yard will also be developed yet, these will not create significant paved, dust is not likely to be a problem. The traffic adverse impacts. generated by the operation will be normal and within the design capacity of roads in the area. Mitigations: Mitigations: The construction contract will include requirements of dust control by frequent The normal dust on the site should be controlled sprinkling of water. Activities such as grading of by regular road sweeping. Dust suppression by aggregates which generate too much dust will not water sprinkling is considered appropriate. be allowed at site and will be carried out off site. During periods when the prevailing wind ii- Emissions from the Power direction is north-easterly and strong enough to Generators generate airborne dust naturally, consideration The proposed LPG Terminal would have natural should be given to either wetting or avoiding gas steam turbine generators as a principal works that would worsen such effects. It is not source of energy and diesel power as standby. In likely that dusty conditions would occur often case of natural gas fuel source emissions would enough to significantly disrupt the construction works. largely be of carbon dioxide; however diesel generators emit a number of substances into the B- Impacts due to Operation atmosphere including nitrogen oxides (NO ), X sulphur dioxide (SO), carbon monoxide (CO) 2 i- Dust and Fugitive Emissions and and particulate matter only during emergencies. The power generating plant will Project operations, including LNG storage tanks, follow World Bank and EPA emission standards. vaporisers used in regasification, demethanizer World Bank Environmental Guidelines for preheaters, marine vessels and vehicle traffic, will atmospheric emission of SO and NO from also generate fugitive emissions of natural gas, 2 X methane, particulate matter, combustion gases and stationary combustion sources are required to be GHGs (primarily carbon dioxide), and possibly followed. Limits given in the guidelines are as small releases of natural gas (non-quantifiable). Air follows: 5of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited SO:Maximum allowable increase in ground level Regionally and nationally the impact of LNG 2 concentration = 50 µg/m3(one year average). import will provide a cleaner fuel substituting for heavy oils and will be positive, large, permanent, NO :86 x 10-9 g/Joule heat input (fuel gas), 130 x X direct and long term. It will go a long way in 10-9 g/Joule heat input (when liquid fuelled) reducing the pollution with increased substitution Dust: When background levels of dust are high, of natural gas for other fuels.The 3.13 million tons dust emissions from the stack should not be of imported LNG will replace 3.94 million tons of greater than 100 mg/m3. High sulfur Furnace oil. The annual reduction in CO will be 3.5 millions tons (29 %),NO by 26 It is ensured that the power generation plants meet 2 X thousand tons (79 %), SO by 83 thousand tons the standards for emissions and manufacturer's X (99.9 %) and Particulate Matter by 6 thousand tons specifications comply with the same. (92 %).Additionally 25,000 tons import of diesel Mitigations: consumed in transporting HSFO will be saved and consequential emissions and road congestion will No mitigation measure is required as natural gas be eased. fired steam turbine power generators will be used. Mitigation iii- Fugitive Emissions of Natural Gas Adequate and proper maintenance of all pumps, and LPG valves and pipelines must be ensured to limit any The pipeline transportation and storage system fugitive natural gas and LPG emissions within for the natural gas and LPG is to be rated for acceptable limits. zero leakage and designed as a closed system. Therefore, during operation of the facility there C- Air Pollution Dispersion Modelling will be no leakages or spills of natural gas and The project is associated with a risk due to LPG as the latest equipment provides for suction handling, storage and transport of LNG and LPG. of disconnected volume. Hence, with the Hence it was appropriate to carry out air proposed safety equipment, the quantity of these dispersion modelling to investigate into the impact releases will be very small, within the NFPA and on the ambient air quality. US EPA specified limits and will quickly disperse with the wind. Thus the impact of Modelling Methodology operational releases of LPG to atmosphere is The TANK4.0 software is employed for evaluation considered insignificant and will not be an issue. of emission from Liquefied Natural Gas (LNG) Experiments made in several countries show that storage tanks. The TANK software calculates introduction of LPG and natural gas into the emissions based on the equations developed by energy matrix has contributed to a considerable American Petroleum Institute (API) using the reduction in pollution rates. A major positive background information available from different impact of national and strategic dimension is that sources (literature survey and electronic sources). the project, by facilitating the import of LNG and The physical information of Floating Storage Unit replacement of oil, wood and coal with gas as fuel (FSU) and physical and chemical properties of the will help reduce the air pollution and save scarce Liquefied Natural Gas (LNG) were used for forest resources. Therefore the impact of operation evaluation emissions for various scenarios of the LNG terminal on the local air quality would enlisted for various normal and emergency be negative. but low in magnitude and within conditions. acceptable limits. 6of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited Modelling Scenarios Gaussian dispersion model AerMod software has been used for evaluating the Ground Level Following modelling a number of scenarios are taken Concentrations (GLC) i.e. quantitative amount of into consideration based upon various emissions from the storage tanks of Liquefied environmental, storage and decking condition: Natural Gas (LNG) affecting the ambient air quality has been determined. Monthly i- Normal Scenario Meteorological Data of Karachi Airport has been used for the Dispersion Modelling. The Emission of liquefied natural gas (LNG) vapours dispersions of emissions of vapours and hazardous (Loss of containment) at normal atmospheric chemical as per given scenarios have been conditions. evaluated at distances of 100, 200, 300, 400, 500, ii- Emergency Scenario 600, 700, 800, 900, 1000, 2000, 3000 meters from the source towards 16 direction racially keeping north Following emergency scenarios were considered in at 0 Degree. the dispersion modelling: Normal Scenario n Scenario-1: Emission of liquefied natural gas (LNG) vapours (Loss of containment) due to Emission of liquefied natural gas (LNG) vapours (Loss failure of temperature control system as a of containment) at normal atmospheric conditions. result of collision, Tsunami or other freak Contour map shows in Figures 7.1 & 7.2 is one weather incidence. such case for normal scenario (please refer to n Scenario-2: Emission of incomplete Annexure-VII for full detailed report on combustion products of LNG (Loss of modelling). The 24-hourly average ground level containment) in fire condition concentration of CH vapours increases from the 4 minimum level of 63.65 µg/m3 in May to Equation maximum level of 214.11 µg/m3in December and 2CH + 3O ----> 2CO +4HO 4 2 2 it decreases from the maximum level of 214,011 µg/m3in December to the minimum level of 63.65 n Scenario-3: Emission of combustion products µg/m3 in May with little increase in April. of LNG (Loss of containment) in explosion condition (100%) Average monthly ground level concentration of CH vapours increases from minimum level of Equation 4 31.26µg/m3 in February to level of 47.12µg/m3 in CH + 5O + 3(3.76)N ----> 4NO + NO + CO + 4 2 2 X 2 2 June. Then it starts increasing and reaches the 2HO 2 maximum level of 13.51µg/m3 in the November. From November, it again decreases to the Modelling Applications minimum level of 31.26µg/m3 in February. Also the direction of dispersion is SW from Nov-Feb The TANKS 4.0 software was used for estimating and NE from Mar-Oct. In the month of February the emissions. The emissions were calculated direction of dispersion is both in SE and SW. according to EPA's AP-42. The information requisite for the use of software was provided and Emergency Scenario 1 emissions for the storage tank containing liquid LNG calculated. The software has evaluated the Emission of liquefied natural gas (LNG) vapours (Loss emission related the above scenarios assumed for of containment) due to failure of temperature control modelling. These emissions are summarized in the system in result of some collision, Tsunami or other following table: freak weather incidence. 7of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited The colour contour graphical and spatial Equation representation of one such case of the dispersion of 2CH + 3O ---> 2CO + 4HO 4 2 2 gaseous pollutants emitted for emergency scenarios of failure of temperature control system The colour contour graphical and spatial representations of the dispersion of gaseous due to collision, Tsunami or other freak weather pollutants emitted emergency scenarios at incidence are shown in Figure-7.3 and 7.4 (refer to incomplete combustion are shown in Figures 7.5 & Annexure-VII for extensive details). 7.6 (please refer to Annexure-VII for full details). Above contour maps show that for emergency Table 7.1: Nature of Emissions in Scenarios Scenario Emission in gm/sec Contents Table 7.2: 24-hourly Conc. of CH in Normal 4 Scenario Normal 2.0636289 CH4 Vapors Emergency-1 1196.316494 CH4 Vapors Months Concentration (µ/m3) Emergency-2 67.03 CO Vapors Jan 139.04 Feb 120.13 Emergency-3 198.10739 NOX Vapors Mar 101.22 Apr 107.73 May 63.65 Above contour map shows on such emergency Jun 80.51 scenario, failure of temperature control system due Jul 107.62 Aug 121.01 to collision, Tsunami or other freak weather Sep 124.81 incidence, the 24-hourly average ground level Oct 123.60 concentration of CH vapours increases from the Nov 200.72 4 Dec 214.11 minimum level of 38,066.87 µg/m3 in May to maximum level of 128,038.92 µg/m3 in December Table 7.3: Monthly Conc. of CH in Normal 4 and it decreases from the maximum level of Scenario 128,038.92 µg/m3 in December to the minimum Months Concentration (µ/m3) level of 38,066.87 µg/m3 May with exceptional Jan 42.87 little increase in April. Feb 31.26 Mar 59.33 Average monthly ground level concentration of Apr 55.75 May 50.94 CH vapours decreases from maximum level of 4 Jun 47.12 67,880.64µg/m3in November to minimum level of Jul 49.57 18,696.45µg/m3in February. With little increase to Aug 57.84 Sep 72.16 a level of 35,483.22µg/m3, average monthly Oct 63.69 concentration decreases to the level of Nov 113.51 28,181.20µg/m3 in June. From July it again Dec 96.38 increases to the maximum level of 67,880.64µg/m3 in November. scenario (incomplete combustion), the 24-hourly average ground level concentration of CO Also the direction of dispersion is SW from Nov- increases from the minimum level of 2,132.50 Feb and NE from Mar-Oct. In the month of µg/m3in May to maximum level of 7,172.74 µg/m3 February direction of dispersion is both in SE and in December and it decreases from the maximum SW. level of 7,172.74 µg/m3 in December to the minimum level of 2,132.50 µg/m3in May with little Emergency Scenarios 2 and 3 increase in April. Emission of incomplete combustion products of LNG Average monthly ground level concentration of (Loss of containment) at fire condition 8of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited o) ri a n e c S al m r o N y ( r a u n a of J h nt o m e h r t o e f n a h et M of n o ati r nt e c n o C g. v A H 4- 2 g n wi o h s p a M r u o nt o C 1: 7. e- r u g Fi 9of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD ESIA of LNG Terminal, Jetty & Extraction Facility - Pakistan Gasport Limited o) ri a n e c S al m r o N y ( r a u n a of J h nt o m e h r t o e f n a h et M of n o ati r nt e c n o C y hl nt o m g n wi o h s p a M r u o nt o C 2: 7. e- r u g Fi 10of 39 Chapter 7 Environmental Management Consultants Ref: Y8LGOEIAPD
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