{"id":29,"date":"2022-01-06T13:52:30","date_gmt":"2022-01-06T18:52:30","guid":{"rendered":"https:\/\/opentextbc.ca\/plumbing3e\/chapter\/natural-gas-supply-and-distribution-system\/"},"modified":"2022-08-16T14:14:23","modified_gmt":"2022-08-16T18:14:23","slug":"natural-gas-supply-and-distribution-system","status":"publish","type":"chapter","link":"https:\/\/opentextbc.ca\/plumbing3e\/chapter\/natural-gas-supply-and-distribution-system\/","title":{"raw":"Learning Task 1","rendered":"Learning Task 1"},"content":{"raw":"Natural gas either in a gaseous or liquid state can be transported between facilities or to consumers by ships\/vessels, special trucks, and pipelines.\n\nPipelines are an efficient and safe means of transporting natural gas. Some of the advantages of using a pipeline to transport gas are:\n<ul>\n \t<li>Continuous delivering of gas to consumers without disruption. The delivery is not affected by most environmental factors.<\/li>\n \t<li>Pipelines can be routed to take short cuts to its destination thereby reducing the time of transportation compared to other means of transportation.<\/li>\n \t<li>The large volume of gas that is transported<\/li>\n<\/ul>\nAccording to the Fraser Institute's 2015 study, pipeline transportation is the safest and most reliable means of transporting gas.\n<h1>Bringing Fuel Gas to the Consumer<\/h1>\nWith so many varieties of geological formations, Canada yields many types of natural gas. Exploration studies and seismographic surveys indicate likely sources of oil and natural gas in a particular area.\n\nOnce a productive well has been established, gas processing plants separate the oil and gas into different productive components. Transmission companies move both the natural gas and liquefied petroleum (LP) gases to markets thousands of miles from the wellhead.\n\nThe process of gas transmission, storage and distribution, from drill well head to consumers, is shown in Figure 1.\n\n[caption id=\"attachment_27\" align=\"aligncenter\" width=\"600\"]<img class=\"wp-image-22\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368.jpg\" alt=\"Flow diagram of distribution elements including in order: Gas wells, Christmas trees, Processing plant, Compressor stations, Base load underground storage, City gate station, Peak load LNG storage, Service piping to buildings\" width=\"600\" height=\"807\"> Figure 1. Process of gas transmission from drill site to utility company.[\/caption]\n<h2>Drilling<\/h2>\nDrill rigs are units composed of a complex arrangement of machines and instruments which bore through the porous sedimentary rocks to find a pocket containing trapped crude oil or natural gas. As the borehole is being drilled, the hole is sheathed in a steel casing at various depth intervals to support the well from collapsing and create a controlled return path for the pumped drilling fluid and removed material. The upper first depth interval casing string is cemented into place, then each consecutive depth interval is drilled to a smaller size and the subsequent casing slips inside the previous one, and they are all run to the surface (well head) were they are supported. Once the drilling rig has completed it is dismantled and relocated.\n\nIf it has been established that the well will produce sufficient oil or gas, then production tubing is run through the casing to transport the oil and gas to the surface. The production tubing is connected at the surface to an assortment of valves, pressure gauges, and flow line connections (Figure 2), often called a \u201cChristmas tree.\u201d\n\n[caption id=\"attachment_27\" align=\"aligncenter\" width=\"400\"]<img class=\"wp-image-23\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head.jpg\" alt=\"\" width=\"400\" height=\"335\"> Figure 2. Gas well head Christmas tree.[\/caption]\n<h2>Processing<\/h2>\nGas processing plants operate near the well fields and separate the components of natural gas that are used in different areas of the petrochemical industry (Figure 3). It is noteworthy that many processing plants obtain more revenue from the sale of gas by-products than from the sale of gas itself. Sulphur is one example of a major by-product.\n\n[caption id=\"attachment_27\" align=\"aligncenter\" width=\"400\"]<img class=\"wp-image-24\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped.jpg\" alt=\"\" width=\"400\" height=\"270\"> Figure 3. Natural gas processing plant.[\/caption]\n<h2>Transportation<\/h2>\nBecause of their different natures, natural gas and LP-gases are transported to consumers in different ways.\n<h3>Natural gas<\/h3>\nLarge pipeline transmission companies gather the gas from the plants and channel the fuel to local and distant markets. The natural gas is compressed from 5500 \u2013 8000 kPa (800 to 1,200 psi) so that it can be pushed though the transmission pipelines at speeds of 11\u201332 kilometers per hour.\n\nAs natural gas moves through a pipeline, distance, friction, and elevation differences slow the movement of the gas, and reduce its pressure. To ensure that gas continues to flow optimally the pressure must be periodically boosted, so additional compressor stations are placed, typically 80 \u2013 100 kilometers apart, along the pipeline.\n\nThe transmission companies take care of maintenance of pipelines which includes checking cathodic protection levels for the proper range, and surveillance for construction, land erosion, or leaks.\n<h3>LP-gas<\/h3>\nLP-gases are not transported in their gaseous state, since they were condensed into the liquid state upon extraction from natural gas or petroleum oil. After they leave the refinery, they are stored in a liquid state under pressure.\n<h2>Distribution<\/h2>\nWhen the transmission company has delivered it, and before the local utility can use the gas, it must have its pressure reduced. To do this, the gas passes through a regulating station, called a <em>city gate<\/em> or <em>town gate<\/em>. Distribution city gate branches may be installed at points along the transmission line.\n\nThe city gate station controls metering, pressure limiting, and odourization of the gas before it is finally distributed by the utility company to the individual consumers. Since natural gas is colourless and odourless specific chemicals, called mercaptan, are added, to give natural gas a distinct odor before it is distributed to the highly populated areas. That rotten egg odour is used as a safety measure to ensure that natural gas leaks do not go undetected. The transmission pipeline pressures are reduced to below 690 kPA (100 psi) at the gate stations then transported to the consumers through the distribution mains.\n<h2>Storage<\/h2>\nThe natural gas storage infrastructure can be utilized to accommodate sudden rises or falls in demand. Storage acts as a buffer between transportation and distribution, to ensure adequate supplies of natural gas are in place for seasonal demand shifts (base load), and unexpected demand surges (peak load).\n\nBase load gas is usually stored underground, in large storage reservoirs. There are three main types of underground storage: depleted gas reservoirs, aquifers, and salt caverns. In addition to underground storage, natural gas can be stored as liquefied natural gas (LNG) in large insulated above-ground tanks (Figure 4) for peak load periods. As a liquid at \u2212161 \u00b0C (\u2212258 \u00b0F), it occupies about 600 times less space than gas stored underground. The LNG storage facilities are generally located close to market, giving them the ability to provide high deliverability at very short notice, by releasing and returning the liquid to its gaseous state when it is needed.\n\nThe release of gas from the liquid storage is also used to maintain the remaining stored liquid at low temperature, this is known as auto-refrigeration.\n\n[caption id=\"attachment_27\" align=\"aligncenter\" width=\"400\"]<img class=\"wp-image-25\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank.jpg\" alt=\"\" width=\"400\" height=\"266\"> Figure 4. LNG storage tank.[\/caption]\n\n<div>\n\nLP-gases in refineries are also stored in above-ground storage tanks similar to natural gas storage facilities. They range in capacity from 2 kg tanks to tanks which hold thousands of liters.\n\n<\/div>\n<h2>Service Piping<\/h2>\nThe gas utility installs and maintains the gas service, which includes the service line, service riser, service stop (valve), service regulator, and meter (Figure 5).\n\n[caption id=\"attachment_27\" align=\"aligncenter\" width=\"804\"]<img class=\"wp-image-26 size-full\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654.jpg\" alt=\"Underground gas service pipeline rising above ground to a shut-off valve, regulator and meter before entering the building.\" width=\"804\" height=\"496\"> Figure 5. Consumer gas service.[\/caption]\n\nThe Natural Gas and Propane Installation Code specifies the maximum gas pressures allowed inside different classes of buildings. The service regulator will need to reduce the utility distribution pressure accordingly, for example a single-family dwellings is limited to a maximum of 14 kPa (2 psig), whereas pressures in industrial and commercial applications range from 35 to 140 kPa (5 to 20 psig).\n<h1>Consumer Gas Piping System<\/h1>\nThe consumer gas piping system conveys the fuel gas from the point of supply to the gas burning appliances. It may be black iron pipe, CSST, copper tubing or polyethylene (PE) plastic (underground only). The point of supply for natural gas is usually a gas utility companies\u2019 meter and, for propane, a propane storage tank. The gas fitter is responsible for designing a piping system, capable of supplying the required volume of gas to each gas-fired appliance, following good piping practices and the requirements of the B149.1 National Gas Code. Figure 6 shows the typical parts of a consumer fuel gas piping system.\n\n[caption id=\"attachment_27\" align=\"aligncenter\" width=\"890\"]<img class=\"wp-image-27 size-full\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665.jpg\" alt=\"Building gas piping system feeding a furnace and water heater\" width=\"890\" height=\"454\"> Figure 6. Building gas piping system.[\/caption]\n\n<div>\n\n<img class=\"wp-image-28 alignleft\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756.png\" alt=\"\" width=\"50\" height=\"50\">Now complete E-1 LT1 Self-Test and check your answers.\n\n&nbsp;\n\n<\/div>\n<h1>Self-Test 1<\/h1>\n<div class=\"textbox textbox--exercises\"><header class=\"textbox__header\">\n<p class=\"textbox__title\"><span style=\"color: #ffffff;\">Self-Test 1<\/span><\/p>\n\n<\/header>\n<div class=\"textbox__content\">\n<ol>\n \t<li>What is the safest and most reliable method of transporting natural gas?\n<ol type=\"a\">\n \t<li>Trucking<\/li>\n \t<li>Railway<\/li>\n \t<li>Pipeline<\/li>\n \t<li>Aircraft<\/li>\n<\/ol>\n<\/li>\n \t<li>Transmission lines are the pipes that move the gas from the city gate station to the customers.\n<ol type=\"a\">\n \t<li>True<\/li>\n \t<li>False<\/li>\n<\/ol>\n<\/li>\n \t<li>What is the maximum pressure of natural gas in city distribution mains?\n<ol type=\"a\">\n \t<li>35 kPa<\/li>\n \t<li>140 kPa<\/li>\n \t<li>680 kPa<\/li>\n \t<li>8000 kPa<\/li>\n<\/ol>\n<\/li>\n \t<li>The release of gas from the liquid storage will reduce the temperature of the remain liquid.\n<ol type=\"a\">\n \t<li>True<\/li>\n \t<li>False<\/li>\n<\/ol>\n<\/li>\n \t<li>What is the maximum Natural gas supply pressure to a single-family dwelling?\n<ol type=\"a\">\n \t<li>14 kPa<\/li>\n \t<li>35 kPa<\/li>\n \t<li>140 kPa<\/li>\n \t<li>450 kPa<\/li>\n<\/ol>\n<\/li>\n<\/ol>\nCheck your answers using the <a href=\"https:\/\/opentextbc.ca\/plumbing3e\/back-matter\/self-test-answer-keys\/\">Self-Test Answer Keys<\/a> in Appendix 1.\n\n<\/div>\n<\/div>\n<h3>Media Attributions<\/h3>\n<ul>\n \t<li>Figure 1 \"Gas transmission from drill site to utility company\" by Camosun College is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n \t<li>Figure 2 \"<a href=\"https:\/\/commons.wikimedia.org\/wiki\/File:Gas_wells_(5910123732).jpg\">Gas wells<\/a>\" by <a href=\"https:\/\/www.flickr.com\/people\/11629603@N04\">Gerry Dincher<\/a> is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by-sa\/2.0\/deed.en\">CC BY-SA 2.0 licence<\/a>.<\/li>\n \t<li>Figure 3 \"<a href=\"https:\/\/commons.wikimedia.org\/wiki\/File:Solohiv_natural_gas_plant_-_fragment.jpg\">Solohiv natural gas plant<\/a>\" by <a href=\"https:\/\/commons.wikimedia.org\/wiki\/User:ReAl\">ReAl<\/a> is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by-sa\/3.0\/deed.en\">CC BY-SA 3.0 licence<\/a>.<\/li>\n \t<li>Figure 4 \"National Grid LNG Tank\" by <a href=\"https:\/\/commons.wikimedia.org\/wiki\/User:Fletcher6\">Fletcher6<\/a>\u00a0is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by-sa\/3.0\/deed.en\">CC BY-SA 3.0 licence<\/a>.<\/li>\n \t<li>Figure 5 \"Consumer gas service\" by Camosun College is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n \t<li>Figure 6 \"Building gas piping system\" by Camosun College is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n \t<li>\"<a href=\"https:\/\/thenounproject.com\/icon\/check-702756\/\">Check<\/a>\" by <a href=\"https:\/\/thenounproject.com\/KimmiStudio\/\">Kimmi Studio<\/a> is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n<\/ul>","rendered":"<p>Natural gas either in a gaseous or liquid state can be transported between facilities or to consumers by ships\/vessels, special trucks, and pipelines.<\/p>\n<p>Pipelines are an efficient and safe means of transporting natural gas. Some of the advantages of using a pipeline to transport gas are:<\/p>\n<ul>\n<li>Continuous delivering of gas to consumers without disruption. The delivery is not affected by most environmental factors.<\/li>\n<li>Pipelines can be routed to take short cuts to its destination thereby reducing the time of transportation compared to other means of transportation.<\/li>\n<li>The large volume of gas that is transported<\/li>\n<\/ul>\n<p>According to the Fraser Institute&#8217;s 2015 study, pipeline transportation is the safest and most reliable means of transporting gas.<\/p>\n<h1>Bringing Fuel Gas to the Consumer<\/h1>\n<p>With so many varieties of geological formations, Canada yields many types of natural gas. Exploration studies and seismographic surveys indicate likely sources of oil and natural gas in a particular area.<\/p>\n<p>Once a productive well has been established, gas processing plants separate the oil and gas into different productive components. Transmission companies move both the natural gas and liquefied petroleum (LP) gases to markets thousands of miles from the wellhead.<\/p>\n<p>The process of gas transmission, storage and distribution, from drill well head to consumers, is shown in Figure 1.<\/p>\n<figure id=\"attachment_27\" aria-describedby=\"caption-attachment-27\" style=\"width: 600px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-22\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368.jpg\" alt=\"Flow diagram of distribution elements including in order: Gas wells, Christmas trees, Processing plant, Compressor stations, Base load underground storage, City gate station, Peak load LNG storage, Service piping to buildings\" width=\"600\" height=\"807\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368.jpg 800w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368-223x300.jpg 223w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368-761x1024.jpg 761w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368-768x1033.jpg 768w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368-65x87.jpg 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368-225x303.jpg 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/01\/E1-LT1-Figure-1_Process-of-gas-transmission-from-drill-site-to-utility-company-1-e1646786395368-350x471.jpg 350w\" sizes=\"auto, (max-width: 600px) 100vw, 600px\" \/><figcaption id=\"caption-attachment-27\" class=\"wp-caption-text\">Figure 1. Process of gas transmission from drill site to utility company.<\/figcaption><\/figure>\n<h2>Drilling<\/h2>\n<p>Drill rigs are units composed of a complex arrangement of machines and instruments which bore through the porous sedimentary rocks to find a pocket containing trapped crude oil or natural gas. As the borehole is being drilled, the hole is sheathed in a steel casing at various depth intervals to support the well from collapsing and create a controlled return path for the pumped drilling fluid and removed material. The upper first depth interval casing string is cemented into place, then each consecutive depth interval is drilled to a smaller size and the subsequent casing slips inside the previous one, and they are all run to the surface (well head) were they are supported. Once the drilling rig has completed it is dismantled and relocated.<\/p>\n<p>If it has been established that the well will produce sufficient oil or gas, then production tubing is run through the casing to transport the oil and gas to the surface. The production tubing is connected at the surface to an assortment of valves, pressure gauges, and flow line connections (Figure 2), often called a \u201cChristmas tree.\u201d<\/p>\n<figure id=\"attachment_27\" aria-describedby=\"caption-attachment-27\" style=\"width: 400px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-23\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head.jpg\" alt=\"\" width=\"400\" height=\"335\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head.jpg 1415w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head-300x251.jpg 300w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head-1024x858.jpg 1024w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head-768x643.jpg 768w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head-65x54.jpg 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head-225x188.jpg 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2-Gas-well-head-350x293.jpg 350w\" sizes=\"auto, (max-width: 400px) 100vw, 400px\" \/><figcaption id=\"caption-attachment-27\" class=\"wp-caption-text\">Figure 2. Gas well head Christmas tree.<\/figcaption><\/figure>\n<h2>Processing<\/h2>\n<p>Gas processing plants operate near the well fields and separate the components of natural gas that are used in different areas of the petrochemical industry (Figure 3). It is noteworthy that many processing plants obtain more revenue from the sale of gas by-products than from the sale of gas itself. Sulphur is one example of a major by-product.<\/p>\n<figure id=\"attachment_27\" aria-describedby=\"caption-attachment-27\" style=\"width: 400px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-24\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped.jpg\" alt=\"\" width=\"400\" height=\"270\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped.jpg 1876w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-300x202.jpg 300w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-1024x691.jpg 1024w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-768x518.jpg 768w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-1536x1037.jpg 1536w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-65x44.jpg 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-225x152.jpg 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/Solohiv_natural_gas_plant_-_fragment-cropped-350x236.jpg 350w\" sizes=\"auto, (max-width: 400px) 100vw, 400px\" \/><figcaption id=\"caption-attachment-27\" class=\"wp-caption-text\">Figure 3. Natural gas processing plant.<\/figcaption><\/figure>\n<h2>Transportation<\/h2>\n<p>Because of their different natures, natural gas and LP-gases are transported to consumers in different ways.<\/p>\n<h3>Natural gas<\/h3>\n<p>Large pipeline transmission companies gather the gas from the plants and channel the fuel to local and distant markets. The natural gas is compressed from 5500 \u2013 8000 kPa (800 to 1,200 psi) so that it can be pushed though the transmission pipelines at speeds of 11\u201332 kilometers per hour.<\/p>\n<p>As natural gas moves through a pipeline, distance, friction, and elevation differences slow the movement of the gas, and reduce its pressure. To ensure that gas continues to flow optimally the pressure must be periodically boosted, so additional compressor stations are placed, typically 80 \u2013 100 kilometers apart, along the pipeline.<\/p>\n<p>The transmission companies take care of maintenance of pipelines which includes checking cathodic protection levels for the proper range, and surveillance for construction, land erosion, or leaks.<\/p>\n<h3>LP-gas<\/h3>\n<p>LP-gases are not transported in their gaseous state, since they were condensed into the liquid state upon extraction from natural gas or petroleum oil. After they leave the refinery, they are stored in a liquid state under pressure.<\/p>\n<h2>Distribution<\/h2>\n<p>When the transmission company has delivered it, and before the local utility can use the gas, it must have its pressure reduced. To do this, the gas passes through a regulating station, called a <em>city gate<\/em> or <em>town gate<\/em>. Distribution city gate branches may be installed at points along the transmission line.<\/p>\n<p>The city gate station controls metering, pressure limiting, and odourization of the gas before it is finally distributed by the utility company to the individual consumers. Since natural gas is colourless and odourless specific chemicals, called mercaptan, are added, to give natural gas a distinct odor before it is distributed to the highly populated areas. That rotten egg odour is used as a safety measure to ensure that natural gas leaks do not go undetected. The transmission pipeline pressures are reduced to below 690 kPA (100 psi) at the gate stations then transported to the consumers through the distribution mains.<\/p>\n<h2>Storage<\/h2>\n<p>The natural gas storage infrastructure can be utilized to accommodate sudden rises or falls in demand. Storage acts as a buffer between transportation and distribution, to ensure adequate supplies of natural gas are in place for seasonal demand shifts (base load), and unexpected demand surges (peak load).<\/p>\n<p>Base load gas is usually stored underground, in large storage reservoirs. There are three main types of underground storage: depleted gas reservoirs, aquifers, and salt caverns. In addition to underground storage, natural gas can be stored as liquefied natural gas (LNG) in large insulated above-ground tanks (Figure 4) for peak load periods. As a liquid at \u2212161 \u00b0C (\u2212258 \u00b0F), it occupies about 600 times less space than gas stored underground. The LNG storage facilities are generally located close to market, giving them the ability to provide high deliverability at very short notice, by releasing and returning the liquid to its gaseous state when it is needed.<\/p>\n<p>The release of gas from the liquid storage is also used to maintain the remaining stored liquid at low temperature, this is known as auto-refrigeration.<\/p>\n<figure id=\"attachment_27\" aria-describedby=\"caption-attachment-27\" style=\"width: 400px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-25\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank.jpg\" alt=\"\" width=\"400\" height=\"266\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank.jpg 1280w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank-300x199.jpg 300w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank-1024x681.jpg 1024w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank-768x511.jpg 768w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank-65x43.jpg 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank-225x150.jpg 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/National_Grid_LNG_Tank-350x233.jpg 350w\" sizes=\"auto, (max-width: 400px) 100vw, 400px\" \/><figcaption id=\"caption-attachment-27\" class=\"wp-caption-text\">Figure 4. LNG storage tank.<\/figcaption><\/figure>\n<div>\n<p>LP-gases in refineries are also stored in above-ground storage tanks similar to natural gas storage facilities. They range in capacity from 2 kg tanks to tanks which hold thousands of liters.<\/p>\n<\/div>\n<h2>Service Piping<\/h2>\n<p>The gas utility installs and maintains the gas service, which includes the service line, service riser, service stop (valve), service regulator, and meter (Figure 5).<\/p>\n<figure id=\"attachment_27\" aria-describedby=\"caption-attachment-27\" style=\"width: 804px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-26 size-full\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654.jpg\" alt=\"Underground gas service pipeline rising above ground to a shut-off valve, regulator and meter before entering the building.\" width=\"804\" height=\"496\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654.jpg 804w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654-300x185.jpg 300w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654-768x474.jpg 768w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654-65x40.jpg 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654-225x139.jpg 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-2_Consumer-gas-service-e1641501522654-350x216.jpg 350w\" sizes=\"auto, (max-width: 804px) 100vw, 804px\" \/><figcaption id=\"caption-attachment-27\" class=\"wp-caption-text\">Figure 5. Consumer gas service.<\/figcaption><\/figure>\n<p>The Natural Gas and Propane Installation Code specifies the maximum gas pressures allowed inside different classes of buildings. The service regulator will need to reduce the utility distribution pressure accordingly, for example a single-family dwellings is limited to a maximum of 14 kPa (2 psig), whereas pressures in industrial and commercial applications range from 35 to 140 kPa (5 to 20 psig).<\/p>\n<h1>Consumer Gas Piping System<\/h1>\n<p>The consumer gas piping system conveys the fuel gas from the point of supply to the gas burning appliances. It may be black iron pipe, CSST, copper tubing or polyethylene (PE) plastic (underground only). The point of supply for natural gas is usually a gas utility companies\u2019 meter and, for propane, a propane storage tank. The gas fitter is responsible for designing a piping system, capable of supplying the required volume of gas to each gas-fired appliance, following good piping practices and the requirements of the B149.1 National Gas Code. Figure 6 shows the typical parts of a consumer fuel gas piping system.<\/p>\n<figure id=\"attachment_27\" aria-describedby=\"caption-attachment-27\" style=\"width: 890px\" class=\"wp-caption aligncenter\"><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-27 size-full\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665.jpg\" alt=\"Building gas piping system feeding a furnace and water heater\" width=\"890\" height=\"454\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665.jpg 890w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665-300x153.jpg 300w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665-768x392.jpg 768w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665-65x33.jpg 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665-225x115.jpg 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/E1-LT1-Figure-3_Building-gas-piping-system-e1646786430665-350x179.jpg 350w\" sizes=\"auto, (max-width: 890px) 100vw, 890px\" \/><figcaption id=\"caption-attachment-27\" class=\"wp-caption-text\">Figure 6. Building gas piping system.<\/figcaption><\/figure>\n<div>\n<p><img loading=\"lazy\" decoding=\"async\" class=\"wp-image-28 alignleft\" src=\"https:\/\/opentextbc.ca\/technicalwritingh5p\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756.png\" alt=\"\" width=\"50\" height=\"50\" srcset=\"https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756.png 485w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756-300x300.png 300w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756-150x150.png 150w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756-65x65.png 65w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756-225x225.png 225w, https:\/\/opentextbc.ca\/plumbing3e\/wp-content\/uploads\/sites\/406\/2022\/08\/noun-check-702756-350x350.png 350w\" sizes=\"auto, (max-width: 50px) 100vw, 50px\" \/>Now complete E-1 LT1 Self-Test and check your answers.<\/p>\n<p>&nbsp;<\/p>\n<\/div>\n<h1>Self-Test 1<\/h1>\n<div class=\"textbox textbox--exercises\">\n<header class=\"textbox__header\">\n<p class=\"textbox__title\"><span style=\"color: #ffffff;\">Self-Test 1<\/span><\/p>\n<\/header>\n<div class=\"textbox__content\">\n<ol>\n<li>What is the safest and most reliable method of transporting natural gas?\n<ol type=\"a\">\n<li>Trucking<\/li>\n<li>Railway<\/li>\n<li>Pipeline<\/li>\n<li>Aircraft<\/li>\n<\/ol>\n<\/li>\n<li>Transmission lines are the pipes that move the gas from the city gate station to the customers.\n<ol type=\"a\">\n<li>True<\/li>\n<li>False<\/li>\n<\/ol>\n<\/li>\n<li>What is the maximum pressure of natural gas in city distribution mains?\n<ol type=\"a\">\n<li>35 kPa<\/li>\n<li>140 kPa<\/li>\n<li>680 kPa<\/li>\n<li>8000 kPa<\/li>\n<\/ol>\n<\/li>\n<li>The release of gas from the liquid storage will reduce the temperature of the remain liquid.\n<ol type=\"a\">\n<li>True<\/li>\n<li>False<\/li>\n<\/ol>\n<\/li>\n<li>What is the maximum Natural gas supply pressure to a single-family dwelling?\n<ol type=\"a\">\n<li>14 kPa<\/li>\n<li>35 kPa<\/li>\n<li>140 kPa<\/li>\n<li>450 kPa<\/li>\n<\/ol>\n<\/li>\n<\/ol>\n<p>Check your answers using the <a href=\"https:\/\/opentextbc.ca\/plumbing3e\/back-matter\/self-test-answer-keys\/\">Self-Test Answer Keys<\/a> in Appendix 1.<\/p>\n<\/div>\n<\/div>\n<h3>Media Attributions<\/h3>\n<ul>\n<li>Figure 1 &#8220;Gas transmission from drill site to utility company&#8221; by Camosun College is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n<li>Figure 2 &#8220;<a href=\"https:\/\/commons.wikimedia.org\/wiki\/File:Gas_wells_(5910123732).jpg\">Gas wells<\/a>&#8221; by <a href=\"https:\/\/www.flickr.com\/people\/11629603@N04\">Gerry Dincher<\/a> is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by-sa\/2.0\/deed.en\">CC BY-SA 2.0 licence<\/a>.<\/li>\n<li>Figure 3 &#8220;<a href=\"https:\/\/commons.wikimedia.org\/wiki\/File:Solohiv_natural_gas_plant_-_fragment.jpg\">Solohiv natural gas plant<\/a>&#8221; by <a href=\"https:\/\/commons.wikimedia.org\/wiki\/User:ReAl\">ReAl<\/a> is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by-sa\/3.0\/deed.en\">CC BY-SA 3.0 licence<\/a>.<\/li>\n<li>Figure 4 &#8220;National Grid LNG Tank&#8221; by <a href=\"https:\/\/commons.wikimedia.org\/wiki\/User:Fletcher6\">Fletcher6<\/a>\u00a0is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by-sa\/3.0\/deed.en\">CC BY-SA 3.0 licence<\/a>.<\/li>\n<li>Figure 5 &#8220;Consumer gas service&#8221; by Camosun College is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n<li>Figure 6 &#8220;Building gas piping system&#8221; by Camosun College is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n<li>&#8220;<a href=\"https:\/\/thenounproject.com\/icon\/check-702756\/\">Check<\/a>&#8221; by <a href=\"https:\/\/thenounproject.com\/KimmiStudio\/\">Kimmi Studio<\/a> is licensed under a <a href=\"https:\/\/creativecommons.org\/licenses\/by\/4.0\/\">CC BY 4.0 licence<\/a>.<\/li>\n<\/ul>\n","protected":false},"author":123,"menu_order":1,"template":"","meta":{"pb_show_title":"on","pb_short_title":"","pb_subtitle":"Describe the Natural Gas Supply and Distribution System","pb_authors":[],"pb_section_license":""},"chapter-type":[49],"contributor":[],"license":[],"class_list":["post-29","chapter","type-chapter","status-publish","hentry","chapter-type-standard"],"part":21,"_links":{"self":[{"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/chapters\/29","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/chapters"}],"about":[{"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/wp\/v2\/types\/chapter"}],"author":[{"embeddable":true,"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/wp\/v2\/users\/123"}],"version-history":[{"count":1,"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/chapters\/29\/revisions"}],"predecessor-version":[{"id":30,"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/chapters\/29\/revisions\/30"}],"part":[{"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/parts\/21"}],"metadata":[{"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/chapters\/29\/metadata\/"}],"wp:attachment":[{"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/wp\/v2\/media?parent=29"}],"wp:term":[{"taxonomy":"chapter-type","embeddable":true,"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/pressbooks\/v2\/chapter-type?post=29"},{"taxonomy":"contributor","embeddable":true,"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/wp\/v2\/contributor?post=29"},{"taxonomy":"license","embeddable":true,"href":"https:\/\/opentextbc.ca\/plumbing3e\/wp-json\/wp\/v2\/license?post=29"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}