- Siemens Energy’s on-demand mobile resistance transformer allows equipment to be leased out and deployed rapidly to maximize grid resilience while mitigating the impacts of long-term outages or for emergency response from a failed transformer.
- Rapid response generator step-up (GSU) transformers
are a temporary solution that are designed to reestablish power with three
compact and versatile single-phase units in case of a transformer failure. Transport
and installation is capable of being completed within weeks, instead of a customer
waiting 9 to 12 months for a replacement GSU transformer to be manufactured and
- Solution offers multi-voltage flexibility to be
installed as a plug-and-play option to fit almost any generation and
transmission voltage arrangement.
Siemens Energy announced today the successful delivery and
installation of three single phase Pretact® GSU Sensformer™ transformers that were
deployed to provide a solution in response to a failed conventional transformer
at a combined cycle power plant.
- Siemens Energy’s well
established STATCOM technology (SVC PLUS®) has a proven track record in
challenging environments like that posed by California’s climate with high
seismicity and wind speed.
- Dynamic reactive power support
for substations allows for fast responding voltage support in case of system events
and transmission outages.
Siemens Energy announced today that it
will provide four static synchronous compensator (STATCOM) installations for LS
Power Grid California, LLC (LS Power) substation projects in California. A
STATCOM is a quick-reacting system capable of providing or absorbing reactive power
to regulate the voltage at the point of connection to a power grid. This voltage regulation will be key to
ensuring the reliability of the power grid as renewable energy sources are brought
online, enabling further decarbonization of California’s energy mix.
- Siemens Energy’s monitoring and detection industrial IOT security platform and ServiceNow’s cross-enterprise digital workflows can help energy companies mitigate cyberattacks at machine-speed
- Collaboration creates bridge between cybersecurity experts analyzing anomalies and malicious behavior and plant operators capable of acting on credible threat intelligence across industrial operating environments
- Combined software solution to help secure the energy transition to enable industry-wide adoption of digital, distributed and low-emissions technologies
Siemens Energy today announced a collaboration with ServiceNow to create a unified software service offering enabling energy companies to monitor, detect and respond to cyber threats targeting digitally connected critical infrastructure.
As one of the world’s leading energy technology companies, Siemens Energy welcomes the verification of its emission reduction targets by the renowned Science Based Targets initiative (SBTi). SBTi has verified on a scientific basis that Siemens Energy’s CO2 reduction targets comply with the Paris Agreement and thus contribute to limiting global warming to the extent stipulated in the agreement.
- Reactive power compensation
plant based on SVC PLUS technology
- Project execution time of only
- Enables smooth integration of
large amounts of wind and solar power into the grid
Siemens Energy will supply a reactive
power compensation plant to the Los Angeles Department of Water and Power
(LADWP). The plant will enhance operations at Barren Ridge Switching Station,
LADWP’s renewable energy transmission facility in Kern County, California,
about 80 miles north of Los Angeles. The plant will be based on Siemens
Energy’s SVC PLUS technology that combines the benefits of static synchronous
compensation (STATCOM) and modular multilevel converter (MMC) technology. The
fast response of the STATCOM stabilizes the transmission system when the amount
of power generated by solar, wind or hydro generation changes. The MMC
technology allows the implementation of this complex technology in a very small
footprint compared to traditional solutions. The new ±200 megavolt ampere
(MVAr) SVC PLUS will provide the necessary voltage support needed in the area, where LADWP has significantly
increased renewable energy generation.
- Project to advance industry vision
of cost-efficient and CO
2-free power generation using hydrogen in
- One of four Siemens Energy
projects funded by the U.S. Department of Energy to further decarbonization of
the U.S. power generation sector
Siemens Energy announced today that it has
teamed up with Intermountain Power Agency to perform a conceptual design study
on integrating a hydrogen energy storage system into an advanced class combined
cycle power plant. The project has been awarded a $200,000 grant from the U.S.
Department of Energy, one of four funding awards received by Siemens Energy in
late 2020 to advance hydrogen applications in the U.S. power generation sector.
- L’installation pilote convertira la chaleur résiduelle d’une turbine à
gaz en énergie sans émissions à l’aide de dioxyde de carbone supercritique (sCO
- Une quantité suffisante d’électricité sera produite pour alimenter plus
de 10 000 foyers, ce qui entraînera une réduction des émissions de
gaz à effet de serre estimée à 44 000 tonnes par an
Siemens Énergie a signé une entente avec l’entreprise canadienne
Corporation TC Énergie (TC Énergie) pour la mise en service d’une
nouvelle installation pilote de production d’énergie à partir de chaleur
résiduelle en Alberta. L’installation captera la chaleur résiduelle d’une
turbine à gaz fonctionnant à une station de compression de pipeline et la
convertira en énergie sans émissions. L’électricité produite sera réacheminée
dans le réseau, entraînant une réduction des gaz à effet de serre
estimée à 44 000 tonnes par an, ce qui équivaut à retirer plus de
9 000 véhicules de la route.
- The pilot installation will convert waste
heat from a gas turbine into emissions-free power using supercritical carbon
- Enough electricity will be produced to power
10,000+ homes, resulting in an estimated reduction in 44,000 tons per year in
greenhouse gas emissions
has signed an agreement with Canada-based TC Energy Corporation (TC Energy) to
commission a novel waste heat-to-power pilot installation in Alberta. The
facility will capture waste
heat from a gas-fired turbine operating at a pipeline compression station and
convert it into emissions-free power. The electricity produced will be put back
into the grid– resulting
in estimated greenhouse gas reductions of 44,000 tons per year, equivalent to
taking more than 9,000 vehicles off the road.
- Commissioning of one feed and one sales gas train and one
refrigeration compression train complete for the Pipestone Processing Facility.
- Siemens Energy will provide tailored maintenance services to Keyera
Partnership for the gas turbine installation.
Siemens Energy recently completed the commissioning of one feed and
sales gas train and one refrigeration compression train for the Pipestone
Processing Facility in Grand Prairie, Alberta, Canada. The Pipestone Processing
Facility is owned by Keyera Partnership, a subsidiary of Keyera Corp.