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Jemena Starts Construction of Queensland Atlas Gas Pipeline

Written By pipeline-engineer.com on Thursday, July 11, 2019 | 12:16:00 AM


P&GJ– Australia's Jemena said it has commenced construction of the Atlas Gas Pipeline, a 38-mile (60-km) project that will deliver natural gas earmarked for domestic consumption from Queensland's first domestic-only gas supply. Located approximately 12 miles (20km) southwest of Wandoan in Queensland, the Atlas project will include an 8-inch, steel-coated, buried gas pipeline and a compressor station. It will connect gas from Senex Energy’s Atlas gas field to the East Coast gas market via the Wallumbilla Gas Hub.


Jemena’s executive general manager of Gas Markets, Antoon Boey, said construction and commissioning of the Atlas project is expected to be complete before the end of 2019. “We are currently in the early stages of construction, with around 90 people on site conducting clear and grade and stringing activities, and we expect this work to ramp up quickly over the coming weeks,” said Mr. Boey. “The Atlas pipeline and processing facility have been designed to enable further expansion once additional gas reserves become available from the Atlas production area.”



Jemena recently awarded Spiecapag Australia a $20 million contract to construct the Atlas Gas Pipeline, while Australian energy and infrastructure services group, Valmec, has been appointed to construct the Atlas Compressor Station. In total, Jemena will invest around $140 million to construct the Atlas Gas Pipeline Project, which is expected to create around 150 to 200 jobs in Queensland. More gas on its way Mr Boey said Jemena was working hard and in partnership with gas exploration companies to bring new gas to Australian homes and businesses.


“We are acutely aware that Australia faces a gas supply crisis, and Jemena is investing heavily in new gas transmission infrastructure to bring new gas supplies into the market. Moving gas from where it is produced to the markets where it is needed at the lowest possible cost and doing so safely and reliably is of utmost importance to Jemena,” said Mr Boey.

“As we transition to a low-carbon future gas will play an increasingly important role in complementing intermittent renewable technologies such as wind and solar generation that, currently, are unable to provide firming power. It will also continue to play an essential role for industries which rely on gas as a primary input into their production processes.”
12:16:00 AM | 0 comments

Pertamina Was Alarmed Rokan Block Production Continues to Decline Like the Mahakam Block

Written By pipeline-engineer.com on Wednesday, July 10, 2019 | 6:16:00 PM


This year's Rokan Block oil lifting is only 190 thousand BOPD, down 9.2% compared to 2018 which reached 209,478 BOPD.
Pertamina began to worry about the potential decline in Block Rokan production when it took over management from Chevron Pacific Indonesia in 2021.

Moreover, Chevron will reduce investment in the block. The company is also worried that the fate of the Rokan Block will be the same as the Mahakam Block. When managed by Pertamina, the Mahakam Block production continued to decline. "The decline in the production of the Mahakam Block is a lesson learned for us in managing the oil and gas blocks resulting from termination, especially the Rokan Block," said Pertamina's Managing Director, Nicke Widyawati, on Monday (18/7).


The Special Task Force for Upstream Oil and Gas Business Activities (SKK Migas) targets Block Rokan oil lifting this year to only amount to 190 thousand barrels of oil per day ((BOPD), down 9.2% compared to 2018 which reached 209,478 BOPD. Until the first semester of 2019, the realization of oil production ready for sale (lifting) of the Rokan Block only reached 194 thousand BOPD. This figure is lower than the first four months of this year which reached 195 thousand barrels per day (BOPD). While liffting gas in the Mahakam Block in the first semester of 2019 only reached 662 million cubic standards per day (MMscfd) or 60.18 percent of this year's target of 1100 MMscfd. This achievement is far lower than the realization of the Block's gas lifting when it was still managed by Indonesia's Total EP in 2017 which reached 1,286 MMscfd.




Therefore, Pertamina hopes that SKK Migas will help maintain the stable production of Rokan. Moreover, the block is one of the biggest contributors to national oil and gas lifting. SKK Migas also brought together Pertamina and Chevron to discuss the matter on Friday last week. But the Upstream Director of Pertamina Dharmawan Samsu has not been able to ascertain the investment scheme or model that will be carried out so that the production of Rokan Block will not decrease when managed by Pertamina in 2021. "Hopefully there is a way out of this problem," Dharmawan said. So far there have been three transition options discussed by Pertamina, Chevron, and SKK Migas. The first option is joint operation. The second option is to maximize the area around the Rokan Block which has not been managed and developed further. The last option, joint planning of the Rokan Block work plan.


The importance of EOR in the Rokan Block One of the things that should be a concern in the management of Rokan Block is the application of advanced enhanced oil recovery (EOR) technology. EOR technology is used by Chevron to maintain the production of the Rokan Block. The technology includes waterflooding and steamflood. In addition, Chevron also tested chemical injection technology at Minas Field, Rokan Block. But according to SKK Migas Deputy Operation Fatar Yani Abdurahman, Chevron no longer applies EOR technology before the contract expires in 2021. Even though the rate of decline in natural production (decline) in the Rokan Block has reached 4-5%.



"The EOR is not a one-two-year project. So it is impossible for Chevron to do that when the contract will end," Fatar said when contacted by Katadata.co.id last weekend. With this condition, Pertamina wants to immediately apply EOR technology to increase the production of the Rokan Block by 2021. "Pertamina plans this in order to boost Rokan production when it is officially managed by Pertamina. However, we still continue to discuss with Chevron for preparation and other opportunities," said Pertamina VP of Corporate Communication Fajriyah Usman to Katadata.co.id yesterday. The EOR technology is predicted to boost oil production. Chevron has tested the technology by injecting chemicals into oil wells in Minas Field. As a result, there is potential for oil production of up to 100,000 barrels per day. With this assumption, Rokan Block's production is projected to reach 500 thousand barrels per day by 2024 in accordance with Pertamina's proposal to the government.
6:16:00 PM | 0 comments

Australia’s gas transmission pipeline system

Written By pipeline-engineer.com on Saturday, July 6, 2019 | 10:38:00 PM


Based on https://www.apga.org.au/ Australia has more than 39,000 kilometres of natural gas transmission pipelines that efficiently transport gas under high pressure from where it is produced to the outskirts of cities both large and small. Every molecule of gas used in Australia travels at least part of the way to its destination in a transmission pipeline.


History of pipelines

Australia’s first pipeline was commissioned in the late 1800s to transport water to the Coolgardie gold fields. This set a worldwide precedent by being more than 10 times longer than any other existing pipeline.The Moonie to Brisbane pipeline was the first Australian pipeline built for oil transportation. It was completed in 1964 and was 306 kilometres long. At that time, it was the longest high-pressure pipeline in Australia. The 440km Roma to Brisbane pipeline came into operation in March 1969 and is Australia’s oldest natural gas pipeline.Today, pipelines are also used to transport different forms of gas and other liquids such as oil, slurry and water.



Safety first

Natural gas transmission pipelines in Australia have a good safety record that is longstanding. In addition, there has never been a major gas outage caused by a pipeline incident.The design, construction, testing, operations and maintenance of high-pressure gas transmission pipelines made of steel are underpinned by Australian Standard 2885. The Standard was developed by a working group of industry and government members, and APGA members continue to actively participate in its design, review and development. AS 2885 is written from a safety perspective and requires extensive investigation to identify, document and control any threats to the pipeline along its entire length. It also requires regular review to ensure that any threats identified continue to require consideration and that the controls applied are effective.


The national adoption of AS 2885 by all State and Territory technical regulators and their involvement in its continued development and maintenance has enabled the pipeline industry to achieve a level of regulatory consistency not typical to every industry with state-based regulation. A key safety principle of risk assessment when designing pipelines for all environments is the ‘ALARP’ approach that all risks to the pipeline are to be kept as low as reasonably practicable (ALARP).


Each pipeline is designed to take account of the known and proposed land use and the likely risks in the range of environments through which it passes. The issues that a rural environment poses to a pipeline are very different from those encountered in urban environments. APGA members also invest in research to improve pipeline safety. The Research and Standards Committee is a partner in the Energy Pipelines Cooperative Research Centre which is undertaking research in four program areas: more efficient use of materials, extension of safe operating life of new and existing pipelines, advanced design and construction, and public safety and security of supply.


East Coast gas grid

The transmission pipeline system is an interconnected grid covering Queensland, New South Wales, Victoria, South Australia, Tasmania and the ACT. The network enables natural gas from Bass Strait to be transported to suburban Sydney and industrial users in south-east Queensland. Gas from the Cooper and Eromanga basins also travels eastwards to Sydney and Brisbane as well as south to Adelaide. Natural gas from Bass Strait goes to Tasmania, Victoria and South Australia, and in Queensland gas is transported from the Bowen, Surat, Galilee, Cooper and Eromanga basins across the south of the State. In recent years, most transmission pipelines in the East Coast grid have been made bi-directional which means that gas produced in Queensland can be used in Tasmania and gas from Bass Strait can be sent to as far north as Gladstone where it could be exported and eventually used somewhere in Asia. This interconnectedness has enabled more flexible arrangements for trading in gas and it means gas can be sent where it is needed.



Two systems set to be joined

The Northern Territory has the Amadeus pipeline which takes gas from fields in the Amadeus Basin near Alice Springs to Darwin. Darwin is also an LNG hub, with multiple offshore gas fields delivering gas to the two LNG facilities there. A new gas transmission pipeline, the Northern Gas Pipeline, has just been completed in the Northern Territory and this will connect its gas fields to the East Coast network, linking the Amadeus pipeline to the Carpentaria pipeline near Mt Isa in Queensland.



Western Australia

The onshore gas transmission pipeline system in Western Australia covers significant distances with the Dampier to Bunbury Pipeline at 1539km and the Goldfields Gas Pipeline at 1590km. These bring gas from offshore fields near Dampier to population centres to the south. Other transmission pipelines in WA service mines and mining towns in the Pilbara. Efficient transport


Transmission pipelines have diameters, typically 300mm or more, and they operate under high pressure. These two factors mean that the amount of gas that can be transported is optimised. Pipelines also act as storage vessels which can assist in delivering gas in response to peaks and troughs in demand. Transmission charges amount to 3–8 per cent of household delivered gas costs, and 15–20 per cent of wholesale delivered gas costs.

10:38:00 PM | 0 comments

Pertamina first exports 4,000 Barrels SF-05 to Algeria, North Africa.

Written By pipeline-engineer.com on Thursday, July 4, 2019 | 8:12:00 AM

Balikpapan,- PT Pertamina (Persero) for the first time exported Smooth Fluid-05 (SF-05) to 4,000 barrels to Algeria in Northern Africa. The release of 27 Isotank initial exports of SF 05 was carried out in Balikpapan, East Kalimantan, Thursday (4/7). SF 05 is a liquid base oil used to support oil drilling activities in the operating field.

SF-05 products have good performance so that they can be used for a variety of drilling operations. According to Pertamina's Corporate Marketing Director, Basuki Trikora Putra, the total value of exported SF 05 reached more than Rp 10 billion. Export cargo loading is carried out from July 3 to July 6, 2019, from the Balikpapan Refinery which has a production capacity of 1.8 million barrels per year. "This initial export is the beginning of a milestone for SF-05 to be accepted in the global market. This is one of the efforts to synergize Pertamina Group, namely PT Pertamina Lubricants and the Petrochemical Trading team that collaborate in selling overseas through the Export of Prime SF-05 to Algeria. Hopefully SF-05 products can be accepted, not only by customers in Algeria, but also by customers around the world, "said Basuki.


He also conveyed that the SF-05 product had gone through environmentally friendly tests which included biodegradability, LC50 (the effect of SF-05 on marine biota), skin irritation, and eye irritation with better results than those required under US-EPA and OECD international standards.
"SF-05 meets international standards because it is more environmentally friendly than what is currently used, namely diesel oil," said Basuki who is familiarly called Tiko.
According to him, the quality of SF 05 products has been adjusted to the needs of oil fields in Algeria which have drilling mud characteristics with Specific Gravity (SG) between 1.26 - 2.06. SF 05 will be used in the production field of Pertamina Algeria EP (PAEP), which is a subsidiary of Pertamina Internasional EP with Repsol and Sonatrach (Algerian oil and gas BUMN). At present, PAEP operates as many as 67 oil wells in Algeria. This SF-05 product will be used for development wells in 2019-2020. The initial export of the SF-05 will be used at Blok Menzel Lejmet North (MLN), Algeria

8:12:00 AM | 0 comments

The Latest API 5L 46th Edition.

Written By pipeline-engineer.com on Sunday, June 30, 2019 | 5:23:00 PM


We are pleased to announce the publication of the 46th edition of Specification 5L, Line Pipe. This new edition provides technical updates that have reached consensus within API’s Subcommittee on Tubular Goods and will now give industry consistent practices in these respective areas of the standard.  These updates are reflective of API’s standards program mission to provide a forum for development of consensus-based industry standards, and technical cooperation to improve the industry’s safety performance and competitiveness.


Key Changes
  • Updated and expanded requirements for mill jointers (differentiate between double-jointers and mill jointers; avoid welding consumables environmental contamination; require qualification standards; new process testing requirements; clarify offset and undercut requirements; standardize marking requirements; reference weld repair annex);
  • Updated requirements for pipe end squareness;
  • Updated requirements for hardness testing on PSL 2 pipe for sour service and PSL 2 pipe for offshore service;
  • New annex for strain-based design requirements (PSL 2 pipe for applications requiring longitudinal plastic strain capacity)
Effective Date and Program Implications
The Monogram Program effective date will be November 1, 2018.
Current licensees shall ensure that products manufactured on and after November 1st, 2018 meet the requirements of API 5L 46thedition in order to be monogrammed.
Also, effective November 1st, 2018, API 5L audits will be conducted to the 46th edition of the document.

5:23:00 PM | 0 comments

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