1. Know Your Job
One of the best ways to get the most out of your work day is to be aware of the nuances that go into making a job function. This includes the company culture, the tools and resources available to you, and your own expectations of what your role will entail.
Identifying your motivators is the first step toward finding a job that is a great fit for you and your unique personality. It also helps you to make smart decisions about how to spend your time and energy to get the most out of your career.
For example, if you find yourself constantly wondering how much time you have to accomplish tasks that are purely administrative, consider whether you should re-prioritize your workday to include more value-added activities. Or, if you have to spend so much of your time on mundane, repetitive tasks that you don’t have time to think about the bigger picture, it might be a good idea to look for a new job.
You may also want to take a moment to appreciate the best of what your job has to offer. This could mean getting more involved in the company’s philanthropic endeavors, learning to better manage your own workload, or finding ways to increase your productivity and enjoyment in the office. The most important part is to take the time to be open with your boss and to ask for what you need to feel satisfied in your workday. The rewards are well worth it.
2. Know Your Pumps
Pumps are among the most critical energy sources in an industrial plant. They account for anywhere from 25-60% of the overall energy usage. Therefore, optimizing the function of a pump system is a top priority.
The first step to getting the most out of your pumps is to know them. To do this, you need to understand their performance curves and how they should be used.
For example, if your job requires pumping highly viscous materials directly from barrels, you may want to use a follower plate pump. These devices can be found in food manufacturing, resin dispensing, gluing and many more applications.
You also need to know your pump’s part numbers, which are often located on the back of the pump or on a sticker attached to it. These numbers can help you identify which model of pump you have, which will allow you to find the right replacement.
Another way to enhance the efficiency of your pumps is to ensure that they’re sized properly for your application. This is because pipes have physical limits to how much fluid they can move at a specific pressure.
If your pumps and piping aren’t matched correctly, it can lead to inefficiencies, which can cause higher energy costs for your business. To combat this, Sulzer offers a pump optimization program that allows users to see the savings potential of a new pump before purchasing it.
It’s important to know your pumps and how they should be used because it can save you money over the life of the pump. In addition, knowing how your pump works can improve your overall plant’s efficiency and increase its productivity.
3. Know Your Materials
When it comes to building a great product, materials are an important part of the equation. They may make or break your success, so it’s imperative to use them wisely and in the right way.
Fortunately, there’s a lot of information on the Internet and countless books to help you do your research. The best place to start is with the material specifications of your intended product, such as the performance requirements, weight, and strength. You can also consult a professional, such as a materials specialist, or enlist the help of a manufacturer to get their perspective on the matter.
The right type of material will help you complete your project on time, on budget and with fewer problems than you might expect. For example, an accurate scheduling system can minimize the amount of time that your construction materials sit on a job site unused, reducing their chances of exposure to the elements or becoming a target for theft.
Knowing which materials to use isn’t easy, however. The trick is to identify which ones are the most likely to deliver the performance your product requires without compromising safety, aesthetics or functionality.
It’s also important to test your products on a regular basis in the lab and in real-world settings. This is the best way to identify any potential issues with your materials before they’re a problem in the field. This will save you money down the road and prevent headaches at the end of the day.
4. Know ปั้มไลค์
Whether you’re pumping water or oil, a pump control system will keep you from having to do a lot of work. A controller will turn the pump on or off automatically based on information from sensors.
A pump control can also be used to adjust pump speeds on a constant basis. This can help prevent dry running, overpressure or cavitation in the system.
Another common way to use a pump control is to change how often the pump turns on and off. This can be done with an on/off switch that changes the output rate over a specified time period, such as a duty cycle.
Many pumps can be controlled this way, such as chemical injection and metering pumps. However, this can be hard on the pump’s motor.
Variable frequency drives (VFDs) offer more efficient ways to control single-speed pumps. These options can reduce power consumption and save money over time.
An energy audit can also be a good way to determine if you’re using your pump efficiently. It can help you pinpoint specific energy savings that you can make by addressing inefficiencies and improving your pump’s performance curve.
To keep your pumping system working efficiently, make sure you know what type of pump controls you have in place and how to use them effectively. It can help you avoid costly repair bills and ensure your pumps run for a long time.
A pump controller will be a key element in your system and you’ll want to find a high-quality unit that meets your needs. You’ll also need to make sure it is reliable and has a high life expectancy. A quality control unit will save you money in the long run by reducing your operating costs and providing better protection for your pumps.
5. Know Your Pump’s Limits
The pump needs to work hard, especially against resistance. This is why it is important to know what your pump’s limits are, and how to use them efficiently. For example, if you have a water well that has a total head of 100 feet, this means your pump can only push the water up to a certain point before it starts to slow down. This is because the pump has to lift up the fluid so that it can move out of the well and to a metering device. This is why it is very important to know your well’s total head before you decide what type of pump to get.
The same is true for any industrial pump. If you’re pumping stiff paste, for example, it is important to use a follower plate that can handle the material without causing too much waste or breakdown. This is because if the follower plate is lowered too fast, it may be hardened by the contents and the material will be squeezed out at the side instead of being raised up in the center.