Datos relativos a los resultados de los últimos 5 años y previsión de resultados del programa

Two typical types of vibration tests performed are random

time) tests are performed to survey the structural response of the device under test (DUT). A random (all frequencies at once) test is generally considered to more closely replicate a real world environment, such as road inputs to a moving automobile.

The fundamentals of vibration analysis can be understood by studying the model. Even a complex structure such as an automobile body can be modelled as a "summation" of simple mass–spring–damper models. The mass

er model is an example of a simple harmonic oscillator. The mathematics used to describe its behaviour is identical to other simple harmonic oscillators such as the

Vibration Sensor RN-LP202 Series

LP202 Series vibration sensors are provided by Shinkawa Sensors Technology.

Shinkawa Sensor Technology develops and manufactures high-precision high

displacement/vibration sensors and transducers. It also develops vibration monitors as well as analytical and diagnostic systems with excellent resistance to excessive conditions such as 250 to 600^oC) and high pressure (50mpa). Shinkawa Technologies more closely replicate a real world environment, such as road inputs to a moving automobile.

The fundamentals of vibration analysis can be understood by studying the model. Even a complex structure such as an automobile body damper models. The mass–spring–

simple harmonic oscillator. The mathematics used to describe its behaviour is identical to other simple harmonic oscillators such as the RLC

provided by Shinkawa Sensors Technology.

precision high-resolution displacement/vibration sensors and transducers. It also develops vibration monitors as well as th excellent resistance to excessive conditions such as C) and high pressure (50mpa). Shinkawa Technologies play a vital role in a wide range of industrial applications from small rotating machinery to

Vibration Sensor RN-LP202 Series

Vibration Sensor connected to the motor

Fig 3.5.3 CW Pump with Vibration Sensor

Output

Setting time (Turn On time) Power Requirement

Electrical Case Isolation Temperature Range Sealing

Sensing Element Sensing Structure Weight

Case Material

Table 3.5.1 Specifications of RN

3.5.3 CW Pump with Vibration Sensor

4-20 mA

< 60 seconds 18-30 VDC 10⁸ ohm -40 to 185⁰F Welding, hermetic PZT Ceramic Shear Mode 90 gms.

316L Stainless Steel

Table 3.5.1 Specifications of RN-LP202 Vibration Sensor:

connected to the CW Pump

LP202 Vibration Sensor:

Vibration Sensor connected to the CW

Pump

3.5.5 Vibration Monitoring System:

Forbes Marshall

the latest technology to maintain plant safety and asset protection, with and avoiding untimely shutdowns. Till recently, plant maintenanc

based and was preventive in nature. But with the advent of time, maintaining the systems with minimum cost and high throughput was emphasised. This introduced a new era of protection- Online vibration monitoring systems. Online sys

and offer the user indirect payback in the form of protection of critical machinery and reduced maintenance costs.

Vibration monitoring is essential to keeping rotating equipment running smoothly for years. Shinkawa Vibration Monitors are an indispensable complement to equipment like pumps, motors, fans, compressors, and turbine supervisory systems in the Power, Cement, Process and Refinery industries. Monitors are available in single channel, four channel or multichannel versions.

Vibration Monitoring System:

Forbes Marshall-Shinkawa vibration monitoring systems are equipped with the latest technology to maintain plant safety and asset protection, with

and avoiding untimely shutdowns. Till recently, plant maintenance was predominantly time and was preventive in nature. But with the advent of time, maintaining the systems with minimum cost and high throughput was emphasised. This introduced a new era of Online vibration monitoring systems. Online systems are the need of hour today and offer the user indirect payback in the form of protection of critical machinery and

Vibration monitoring is essential to keeping rotating equipment running for years. Shinkawa Vibration Monitors are an indispensable complement to equipment like pumps, motors, fans, compressors, and turbine supervisory systems in the Power, Cement, Process and Refinery industries. Monitors are available in single channel,

r channel or multichannel versions.

Fig 3.5.4 Vibration Monitoring System

Shinkawa vibration monitoring systems are equipped with reduced downtime e was predominantly time and was preventive in nature. But with the advent of time, maintaining the systems with minimum cost and high throughput was emphasised. This introduced a new era of tems are the need of hour today and offer the user indirect payback in the form of protection of critical machinery and

Vibration monitoring is essential to keeping rotating equipment running for years. Shinkawa Vibration Monitors are an indispensable complement to equipment like pumps, motors, fans, compressors, and turbine supervisory systems in the Power, Cement, Process and Refinery industries. Monitors are available in single channel,

3.6.1 Steam Water Analysing System

In any power plant running on steam, the

absolutely crucial; especially to steam turbine, steam boiler, super heater, condenser and other steam equipment. To prevent damage of steam turbine, steam boiler and other apparatus due to scaling and corrosion, on

pH, Conductivity, Dissolved Oxygen, Silica, Sodium, Phosphate etc. is a must. The steam can be as hot as 560ºC.The pressures can be as high as 250 bar. To keep the power plant up and running, with minimum erosion and corrosion of steam turbine, steam boiler and condenser, we have developed fully integrated Steam and Water Analysis Systems (SWAS) that provide exact, precise measurements on all these critical parameters.

A good SWAS necessitates efficient sample cooler for water sampling, steam

Designed with critical components from SENTRY such as Sample coolers,

Pressure Reducing Element (VREL),

Back Pressure Regulator / Relief Valve (BPR /

Steam Water Analysing System (SWAS)

In any power plant running on steam, the purity of boiler feed water and steam is absolutely crucial; especially to steam turbine, steam boiler, super heater, condenser and other steam equipment. To prevent damage of steam turbine, steam boiler and other apparatus due to scaling and corrosion, on line steam and water analysis of critical parameters such as pH, Conductivity, Dissolved Oxygen, Silica, Sodium, Phosphate etc. is a must. The steam can be as hot as 560ºC.The pressures can be as high as 250 bar. To keep the power plant up and th minimum erosion and corrosion of steam turbine, steam boiler and condenser, we have developed fully integrated Steam and Water Analysis Systems (SWAS) that provide exact, precise measurements on all these critical parameters.

S necessitates efficient sample cooler for water sampling, steam sampling or process sampling problems. We also have a broad experience in compact heat

blow down heat recovery systems.

Fig. 3.6.1 Overview of Power Plant

or Wet panel.

or Dry Panel.

Designed with critical components from SENTRY such as

Pressure Reducing Element (VREL),

Back Pressure Regulator / Relief Valve (BPR / RV)

(SWAS)

purity of boiler feed water and steam is absolutely crucial; especially to steam turbine, steam boiler, super heater, condenser and other steam equipment. To prevent damage of steam turbine, steam boiler and other apparatus line steam and water analysis of critical parameters such as pH, Conductivity, Dissolved Oxygen, Silica, Sodium, Phosphate etc. is a must. The steam can be as hot as 560ºC.The pressures can be as high as 250 bar. To keep the power plant up and th minimum erosion and corrosion of steam turbine, steam boiler and condenser, we have developed fully integrated Steam and Water Analysis Systems (SWAS) that provide

S necessitates efficient sample cooler for water sampling, steam sampling or process sampling problems. We also have a broad experience in compact heat