- Cooperation aims to test renewable fuels at the Rya CHP plant located in the energy port of Gothenburg
- First phase with Göteborg Energi is to validate 3D-printed burners at the Rya plant
By 2030, the ambition is that all district heating in Gothenburg, Sweden, will be produced by renewable or recovered energy sources. With this in mind Göteborg Energi and Siemens have come together in a cooperation agreement with the aim of testing state-of-the-art gas turbine technology that enables the operation of renewable fuels in the Rya combined heat and power (CHP) plant, which is today powered by natural gas.
- Digital solutions provide for improved operational efficiency and reduced emissions
Siemens will equip Lalitpur Power Generation Company Limited (LPGCL), a Bajaj Group company, with advanced digital solutions for its power plant located in Lalitpur, Uttar Pradesh, India.
- Gas turbine rotor exchange allows for increased output and efficiency
- Control system upgraded to latest version of SPPA-T3000
The Dunamenti Power Plant in Százhalombatta, Hungary, is the largest gas-fired power plant in the country with a capacity of 794 megawatts (MW), making it a major source of reliable electricity in Hungary. Recently, in collaboration with the customer and plant owner, MET Asset Management AG, and within the scope of an overhaul project, Siemens Gas and Power replaced the entire rotor of the plant's SGT5-2000E gas turbine and installed a new, state-of-the-art SPPA-T3000 control system.
- First order from Asia for HL-class gas turbine
- New power plant with a capacity of more than one gigawatt
- Efficiency rating of more than 63 percent
Siemens will set up a high-efficiency HL-class power island for a new combined cycle power plant (CCPP) in South Korea. This will be the first two state-of-the-art HL-class gas turbines that Siemens will supply to a customer in Asia. The new plant, which will be built in Yeoju, in South Korea’s Gyeonggi Province, will run on regasified liquefied natural gas (LNG) and offer a generating capacity of more than one gigawatt. With a maximum efficiency rating of more than 63 percent the gas turbine will allow the power station to get the most out of the valuable LNG for electricity generation, enabling especially economical and environmentally friendly operation. The customer is South Korean EPC SK Engineering & Construction Co., Ltd., which is constructing the entire plant for the independent power producer Yeoju Energy Services.
- Power plants Termoeléctrica del Sur, de Warnes, and Entre Ríos inaugurated in August and September
- Upgrade to combined cycle power plants increase the generation capacity by one gigawatt
- Expansion provides reliable energy supply and will allow export of value-added products
With the official inauguration of the Termoeléctrica de Warnes power plant in mid-September, all three power plants in Bolivia were inaugurated within a few weeks in August and September. Since the contract signing in 2016, Siemens has expanded Bolivia’s three largest thermal power plants to efficient combined cycle mode. The power plants are owned and operated by Ende Andina SAM. Together, all three add more than one gigawatt of electrical power to its current maximum capacity and to the Bolivian national grid.
Siemens and Materials Solutions - a Siemens Business - officially opened a new, highly advanced innovation center this week in Orlando, Florida. The center is the only one of its kind in the U.S. to offer a unique pairing of design with manufacturing, implementing robotics, rapid prototyping, scanning, digital tools and on-site metal additive manufacturing. The Siemens innovation center will focus on rapid problem solving supporting the company’s energy businesses, while Materials Solutions will offer additive services to support the innovation center and external customers.
- Assesses the utility industry’s risk, readiness, and solutions to secure operational technology on the grid and recommends action to help utilities combat cyber threats
- Results show risk is worsening, with potential for severe financial, environmental and infrastructure damage
- 54 percent of those surveyed in the utilities industry expect an attack on critical infrastructure in the next 12 months
Siemens and the Ponemon Institute today released a new report
that assesses the global energy industry’s ability to meet the growing threat
of cyber attacks to utilities and critical infrastructure connected to the
electrical grid. The report –Caught in the Crosshairs: Are Utilities
Keeping Up with the Industrial Cyber Threat?– details the utility
industry’s vulnerability to cyber risk, readiness to address future attacks,
and provides solutions to help industry executives and managers better secure
critical infrastructure. The results of the report were released at a forum
hosted by the Atlantic Council in Washington, D.C. focused on the growing
national, economic, and energy security threat that cyber attacks pose to the
utility industry.
- Turnkey construction of two 90 MW power plant units
- Production of process steam and district heat
- Annual savings of up to 1 million metric tons of CO2
Siemens will build a highly efficient combined cycle power plant as a turnkey project at the Marl Chemical Park in North Rhine-Westphalia, Germany. The order was placed by the specialty chemical group Evonik Industries. The new industrial power plant will consist of two units, each with an electrical capacity of 90 megawatts, and produce both electricity and process steam for the chemical park. The site’s integrated steam network will also supply district heat for about 2,000 homes in the future. The plant’s fuel efficiency will thus exceed 90 percent. With this combined cycle power plant, Evonik will replace its last coal-fired plant at the Marl Chemical Park. Because the plant will produce environmentally friendly electricity, process steam, and district heat from natural gas, the company will be able to cut CO2emissions by one million metric tons per year. The plant thus makes an important contribution to decarbonization. Construction is scheduled to begin later in 2019, and the power plant is expected to go into operation in 2022. Siemens Financial Services (SFS), Siemens’ financing arm, developed a leasing financing solution specifically for Evonik in collaboration with Siemens Gas and Power. Together with the KfW IPEX Bank and LBBW, SFS will handle refinancing of the leasing agreement. The project volume is in the lower triple-digit million euro range.
- Facilities in Baiji will power Iraq’s biggest refinery and deliver
electricity to thousands of homes in liberated areas
- Siemens equipment includes E-class gas turbines, substations and
generators
- Project is start of Phase 2 of Siemens’ Roadmap for Iraq and will be
completed 28 months after financial closing by Iraq’s government
Siemens
and Orascom Construction signed an agreement with Iraq’s Ministry of
Electricity to rebuild Baiji 1 and Baiji 2 power plants in northern Iraq. The
plants will have a combined generation capacity of 1.6 gigawatts (GW) when
completed and are a major step in Siemens’ roadmap for rebuilding Iraq's power
sector that has already added more than 700 megawatts to Iraq’s grid.
- Siemens to replace four floating power generation barges in the Upper Bay of New York City
- SeaFloat turnkey solution will provide reliable peaking power for New York City's renewable ambitions
- Boost power generating efficiency by nearly 50 percent
- 20-year long-term service agreement signed
Astoria Generating Company and Siemens signed a contract for
the turnkey construction of two SeaFloat power barges to be equipped with eight
Siemens SGT-A65 gas turbines. The barges will replace four existing power
barges located at Gowanus Generating Station in the Upper Bay of Brooklyn, New
York City, resulting in cleaner, more efficient energy production. Siemens will
preinstall the high-efficiency power generating facilities on two newly
constructed floating barges with a generation capacity of about 300 megawatts
(MW) each. Retrofitting the station with SGT-A65 gas turbines and generators
will improve the plants' power generating efficiency by nearly 50 percent while
significantly reducing potential emissions of pollutants like carbon dioxide
and monoxide – all while using the existing gas infrastructure.