WOODWARD CONTROL
Woodward 8272-653 Motor Operator Potentiometer
The 505E controller is
designed to operate
single-extraction
and/or admission
steam turbines of all
sizes and
applications. This
steam turbine
controller includes
specifically designed
algorithms and logic
to start, stop, control,
and protect singleextraction
and/or
admission steam
turbines or turboexpanders,
driving generators, compressors, pumps, or industrial fans. The 505E
control’s unique PID structure makes it ideal for applications where it is required to
control steam plant parameters like turbine speed, turbine load, turbine inlet
pressure, exhaust header pressure, extraction or admission header pressure, or tieline
power.
The control’s special PID-to-PID logic allows stable control during normal turbine
operation and bumpless control mode transfers during plant upsets, minimizing
process over- or undershoot conditions. The 505E controller senses turbine speed
via passive or active speed probes and controls the steam turbine through HP and
LP actuators connected to the turbine steam valves.
The 505E controller senses extraction and or admission pressure via a 4–20 mA
transducer and uses a PID through a ratio/limiter function to accurately control
extraction and/or admission header pressure, while protecting the turbine from
operating outside of its designed operating envelope. The controller uses the specific
turbine’s OEM steam map to calculate its valve-to-valve decoupling algorithms and
the turbine operating and protection limits.
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WOODWARD 8440-2050 / 84402050
WOODWARD 84401614 / 84401614
WOODWARD 8406-113 / 8406113
WOODWARD 8405-039 / 8405039
WOODWARD 8271465D / 8271465D
WOODWARD 5466-351 / 5466351
WOODWARD 5466-333 / 5466333
WOODWARD 5466-1035 / 54661035
WOODWARD 5464-214 / 5464214
WOODWARD 5463-990 / 5463990
WOODWARD 5463-191 / 5463191
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Replacing an electrical equipment unit in a plant is a complex task that requires careful planning and execution to ensure safety and minimize downtime. Here is a general step-by-step guide on how to replace electrical equipment in a plant:
Pre-Planning:
Safety Precautions:
Shutdown Procedures:
Disconnection:
Removal of Existing Equipment:
Installation of New Equipment:
Testing and Commissioning:
Documentation:
Training:
Startup:
Throughout the process, it’s important to work closely with a team that includes electrical engineers, technicians, and maintenance staff. Communication is key to a successful equipment replacement. Additionally, always adhere to local electrical codes and standards to ensure compliance and safety. If the task is beyond the expertise of in-house staff, consider hiring a professional contractor experienced in industrial electrical work.
Obtaining industrial automation programming software typically involves the following steps:
Identify Your Needs:
Research Software Options:
Contact Equipment Manufacturers:
Purchase or Download:
Academic or Evaluation Versions:
Open Source Options:
Licensing:
Training and Support:
Legal and Compliance:
Installation and Setup:
Here are some common ways to obtain industrial automation programming software:
Remember to keep your software updated to benefit from the latest features and security patches. Also, ensure that you have the necessary backup and recovery procedures in place to protect your programming work.
All new products and surplus products of the industrial intelligence industry, as well as the discontinued products of the original manufacturers. We are not an authorized distributor or representative of any of the above manufacturers (except for brand authorization). The trademarks, brand names and brands appearing in this agreement are the property of their respective manufacturers.
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