Difference Between Automated Pressure Holding System Vs. Automated Pressure Control System

 

With a modular approach, Advanced pressure products (APP) manufactures and develops integrated pressure control devices. In other words, these devices are configurable to include different functions based on the needs, budget, and desires of the users. Each of these pressure systems provides opposing degrees of automation and power.

The Automated Pressure Holding System (APHS) is primarily used in heating and cooling systems to retain steady static pressure to ensure continuous performance. In smaller boiler-supplied heating systems, constant static pressure can be accomplished with an open expansion vessel.

On the other hand,

An automatic pressure control system maintains or recovers the functioning of a controlled object. In various cases, the auxiliary operations for the APCS—starting, discontinuing, observing, regulating, and so on—can also be automated. An APCS functions mainly as a member of a production or some other complex.

What Does Automated Pressure Holding System Do?

The APP Automated Pressure Holding Tester (APHT) holds and produces a target pressure from atmospheric pressure to 5000 PSI (pneumatic system) and 60,000 PSI (hydraulic system). The system is fully automated and wholly microprocessor-controlled, letting the user regulate the target pressure, pressurization rate, and holding time.

An automated pressure holding system (APHS) is usually used for sustaining a constant static pressure in heating and cooling systems to guarantee uninterrupted operation. Constant static pressure can be achieved with an open expansion vessel in smaller boiler-supplied heating systems. This regulator is specifically designed for pilot plants, process control applications, and laboratories.

Advanced Pressure Products (APP) manufactures and designs automated pressure control systems with a modular approach. Simply put, these systems are configurable to provide various functionality dependent on the users’ requirements, budget, and preferences; each offers opposing levels of automation & control.

It’s time to discuss the difference between automated pressure systems in detail.

Salient Features of Pressure Holding System

·       Highly Accurate Pressure

This system generates extremely accurate pressure and is equipped with a transducer monitors system pressure that provides precise feedback and eliminates the chances of errors.

·        Various Target Pressure

The automated holding pressure the system is user-defined with multiple target pressures, pressurization rates, dwell times, and holding times, ensuring quick and efficient results.

·        Test Performance

Pressure tests can be executed through a holding pressure system under elevated temperature to simulate concrete operating conditions.

·        Over-pressurization Protection

It's fail-safe and multi-level system offers over-pressurization protection while operating different conditions.

·        Windows-Based Software

The system is compatible with Windows ’98 and higher. Its Windows-based software handles all control, data collection, measurement, and report generation along with complete manual control.

·        Graphical Test Result

The Automated holding pressure system displays real-time graphical test results depicts on-going testing status and calculates precisely outcomes throughout the operation.

·        Pressure Outlet Ports

Several pressure outlet ports are presented in this system, which makes it so much easier to use.

·        Automated Pressure

The pressure holding system has an automatic pressure generator that efficiently gets refilled for high volume conditions.

·        Various Pressure Options

The system has multiple pressure generator systems for multi-axis and continuous pressurization.

·        Easy To Maintain

It requires minimal maintenance, making this pressure system even more reliable. An automated pressure holding system has easily configurable designs suitable for most applications, making it easy to maintain and lessen the hassle of regular services.

Some Other Specifications of Automated Holding Pressure System

Pneumatic:	Hydraulic:
·         Air Requirement80 psi Air	·         Working Fluid Water, Oil, or Alcohol
·         Pressure Range 0 – 5,000 psi	·         Pressure Range0 – 60,000 psi
·         Pressure Transducer Range: 0 – 5,000 psi	·         Pressure Transducer Range: 0 – 60,000 psi
·         Accuracy: Up to 0.01 % FS	·         Accuracy: Up to 0.01 % FS
·         System Resolution1/20,000	·         Weight300 lbs
·         System Control Accuracy+/- 0.02 % FS	·         Dimensions51″ H x 28.5″ W x 26″ D
·         Pressurization Rate0.1 psi/sec – 200 psi/sec	·         Power Requirements110 VAC, 60 Hz (220 VAC, 50Hz optional)
·         Maximum Hold Time Infinity	·         Maximum Hold Time Infinity
·         Power Requirements110 VAC, 60 Hz (220 VAC, 50Hz optional)	·         Pressurization Rate0.1 psi/sec – 200 psi/sec
·         Dimensions51″ H x 28.5″ W x 26″ D	·         System Control Accuracy+/- 0.02 % FS
·         Weight150 lbs	·         System Resolution1/20,000 (65536 optional)

 

What Does the Automated Pressure Control System Do?

Automated pressure holding system ensures faster and accurate pressure control. The system parameters are set up mechanically within the first startup tool after the upgrade has been built-in. In the adaptive algorithm, the controller continually adapts to the process conditions such as gas and gas flow; hence, it ensures optimum pressure control at any time.

The APCS is used to confine pumping during the dose step for a precursor. It often requires long exposure times for slow-to-react precursors or when deposition into high aspect ratio features is requisite.

The Automated Pressure Control System with encoder offers precise pressure generation and control from atmospheric pressure up to 2000 PSI. The APCS is entirely microprocessor-controlled and fully automated. The system permits users to outline holding times, multiple target pressures, and pressurization rates. The APCS can be incorporated into an already existing, more extensive system or operate autonomously.

Salient Features of Automated Pressure Control System

·        Accurate Pressure System

Automated Pressure Control System (APCS) has a highly accurate pressure transducer that monitors system pressure and provides feedback correctly.  

·         Multiple Target Pressures

The system is equipped with user-defined multiple target pressures, holding times, dwell times, and pressurization rates.

·        Over-pressurization Safety

This advanced pressure product ensures multi-level, fail-safe system and over-pressurization protection.

·        Windows-Based Program

The system has computerized windows-based software, which is compatible with Windows XP and higher. Its windows handle all control, data collection, measurement, and report generation along with complete manual control.

·        Graphical Test Display

Automated Pressure Control System (APCS) offers a real-time graphical test display that depicts testing status and results throughout the operation.

·        Pressure Outlets

It has various pressure outlet ports, which make it easy to use.

·        Automated Pressure Generator

The system also has an automatic pressure generator that refills for high-volume situations.

·        Customized Report

There are multiply customized report formats available in this advanced pressure product.

·        Easy to Maintain

The system requires minimal maintenance and decreases the hassle of constant services.

Some Other Specifications of Automated Pressure Control System

·         Working Fluid: H 0, Oil, Alcohol

·         System Resolution: 1/65536

·         Pressure Transducer: 0-2,000 psi (Accuracy: Up to 0.1 % FS)

·         System Control Accuracy: +/- 0.2 % FS

·         Power Requirements: 110 VAC, 60 Hz (220 VAC, 50Hz optional)

·         Dimensions: 51 H x 28.5″ W x 26″ D

·         Weight: 300 lbs

·         Pressure Range: 0-2,000 PSI

Benefits of Automatic Pressure Systems

These pressure systems have easily configurable designs, making them suitable for most applications, making them easy to service and maintain. It requires minimal user input while in operation – make it possible for the operator to multi-task.

These products are ideal for use with hazardous media or when extreme temperatures are involved. The control panel can be positioned remotely to the pressure vessel, allowing the user to maintain full control of the equipment at a safe working distance.

To sum up,

manufactures and designs an inclusive range of hydrostatic testing systems that are easy to operate and safe for a wide variety of gases and liquids.

The systems discussed in this blog include all controls and instrumentation required to manage the speed and pressures at which the liquid pumps and gas boosters operate and inlet/outlet connections.