Factory selling High Temperature Wax to Uganda Factories
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Factory selling High Temperature Wax to Uganda Factories Detail:
Automatic Temperature Regulating Agent Series is a kind of thermal expansion materials, which depends on principles that the substance expands when it is heated and constricts when it is cooled and a liquid is incompressible. It can automatically regulate temperature. When the ambient temperature goes up to the special value, Automatic Temperature Regulating Agent goes up to the special temperature with the ambient temperature, its unit volume increases. When the ambient temperature falls down to special value, Automatic Temperature Regulating Agent also falls down to the special temperature with the ambient temperature, its unit volume reduces. The agent is loaded in the purpose-made thermostatic element. The variation of ambient temperature takes a pressure and the thermostatic element takes a change, and this change brings the movement of either the appurtenance of the thermodynamic component or itself, thereby carrying out the automatic opening & closing function. All sorts of temperature controllers and the electrical switches are developed depending on the physical feature of Automatic Temperature Regulating Agent. It has been widely used in the fields of refrigeration, auto-control system, automobile industry, petrochemical industry, sanitary ware, heating and ventilating, electric electron, building, space & aviation etc.
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Model Number |
Appearance (Normal Temperature) |
Quality Standard |
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Range of Temperature Control |
Effective Distance Travel |
Water-Solubility Acid and Alkali |
Mechanical Impurity |
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A98 |
Powder, Slice , Column |
98/111 |
8 |
Non. |
Non. |
|||
|
A100 |
Powder, Slice , Column |
100/110 |
3 |
Non. |
Non. |
|||
|
A100-1 |
Powder, Slice , Column |
100/110 |
7 |
Non. |
Non. |
|||
|
A100-2 |
Powder, Slice , Column |
100/120 |
8 |
Non. |
Non. |
|||
|
A105 |
Powder, Slice , Column |
105/120 |
6 |
Non. |
Non. |
|||
|
A108 |
Powder, Slice , Column |
108/116 |
8 |
Non. |
Non. |
|||
|
A110 |
Powder, Slice , Column |
110/120 |
5 |
Non. |
Non. |
|||
|
A110-1 |
Powder, Slice , Column |
110/120 |
7 |
Non. |
Non. |
|||
|
A120 |
Powder, Slice , Column |
120/140 |
6 |
Non. |
Non. |
|||
|
A120-1 |
Powder, Slice , Column |
120/160 |
8 |
Non. |
Non. |
|||
|
A145 |
Powder, Slice , Column |
145/165 |
7 |
Non. |
Non. |
|||
|
A160 |
Powder, Slice , Column |
160/180 |
4 |
Non. |
Non. |
|||
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A160-1 |
Powder, Slice , Column |
160/200 |
10 |
Non. |
Non. |
|||
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A200 |
Powder, Slice , Column |
200/220 |
7 |
Non. |
Non. |
|||
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A200-1 |
Powder, Slice , Column |
200/230 |
7 |
Non. |
Non. |
|||
Product detail pictures:
We strive for excellence, service the customers", hopes to become the best cooperation team and dominator enterprise for personnel, suppliers and customers, realizes value share and continuous promotion for Factory selling High Temperature Wax to Uganda Factories, The product will supply to all over the world, such as: Nepal , Uganda , Hanover , Our product quality is one of the major concerns and has been produced to meet the customer's standards. "Customer services and relationship" is another important area which we understand good communication and relationships with our customers is the most significant power to run it as a long term business.
A proportional-integral-derivative controller (PID controller) is a control loop feedback mechanism (controller) widely used in industrial control systems. A PID controller calculates an error value as the difference between a measured process variable and a desired setpoint. The controller attempts to minimize the error by adjusting the process through use of a manipulated variable.
The PID controller algorithm involves three separate constant parameters, and is accordingly sometimes called three-term control: the proportional, the integral and derivative values, denoted P, I, and D. Simply put, these values can be interpreted in terms of time: P depends on the present error, I on the accumulation of past errors, and D is a prediction of future errors, based on current rate of change. The weighted sum of these three actions is used to adjust the process via a control element such as the position of a control valve, a damper, or the power supplied to a heating element.
This video is targeted to blind users.
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Article text available under CC-BY-SA
Creative Commons image source in video
Just a quick compilation of a circuit I built to open and close these valves at specific frequencies. I’m just pleased with the noise it makes… The green LED indicates which valve is on (runs two valves, with one being open and one being closed at any one point) while the red LED just indicates that the circuit is on. Only one valve was hooked up and running with compressed air. The frequencies listed are approximations based on calculations. The actual frequencies may be different by 10Hz or so.
