What is Pipe Systems?
Pipe systems are the interconnection of pipes and plumbing that allow the various taps in a home or structure to produce water.
How is Pipe Systems used?
Zippia reviewed thousands of resumes to understand how pipe systems is used in different jobs. Explore the list of common job responsibilities related to pipe systems below:
- Reviewed hydro's travelers and walked down pipe systems to verify all specifications has been met.
- Installed pipe systems and plumbing.
- Fire sprinkler and standpipe system installation-Fire pump systems-Underground fire lines-Annual inspections-Fire system service-Freeze-up and leak repairs-24 -hour emergency service
- Generate satisfactory pipe systems under strict deadlines and tolerances.
- Weld/fabricated pipe systems and installed stainless steel high purity tubing
- Job duties include supervise and assist in the lay out, assembly, and installation of various pipe systems.
Are Pipe Systems skills in demand?
Yes, pipe systems skills are in demand today. Currently, 1,153 job openings list pipe systems skills as a requirement. The job descriptions that most frequently include pipe systems skills are pipe inspector, journeyman pipe welder, and pipe fitter apprentice.
How hard is it to learn Pipe Systems?
Based on the average complexity level of the jobs that use pipe systems the most: pipe inspector, journeyman pipe welder, and pipe fitter apprentice. The complexity level of these jobs is basic.
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What jobs can you get with Pipe Systems skills?
You can get a job as a pipe inspector, journeyman pipe welder, and pipe fitter apprentice with pipe systems skills. After analyzing resumes and job postings, we identified these as the most common job titles for candidates with pipe systems skills.
Pipefitter And Foreman
- Hand Tools
- Hot Water
- Pipe Supports
- Professional Development
- Pipe Systems
- Hydraulic Cylinders
Pipe Layer
Job description:
A pipe layer specializes in assembling and connecting pipes, ensuring accuracy and efficiency. Their responsibilities typically include conducting initial ground assessments and examinations, digging pipe trenches, sealing pipe joints, measuring routes, and locating existing systems using particular detectors. They may also remove malfunctioning or old pipe systems, conduct inspections, ensure alignment, and perform progress reports as needed. Moreover, a pipe layer typically works in a team setting, which requires an active communication line for a safe and efficient workflow.
- Hand Tools
- Asphalt
- Water Mains
- Pipe Systems
- PVC
- OSHA
Pipe Foreman
Job description:
A pipe foreman oversees the daily operations of piping projects, from planning to execution, ensuring everything runs smoothly and efficiently. They manage different teams, supervise the installation and maintenance of pipes, prepare and process documentation, set objectives and guidelines, delegate tasks and schedules among staff, liaise with external parties such as vendors and suppliers, and maintain an active communication line with clients or representatives. Moreover, a pipe foreman monitors all activities while implementing the company's safety standards and policies for a safe and efficient workflow.
- Hand Tools
- OSHA
- Ladders
- Construction Sites
- Pipe Systems
- Storm Sewer
Pipefitter/Welder
Job description:
A Pipefitter Welder installs, assembles, fabricates, maintains, and repairs mechanical piping systems. They may also supervise a team of helpers or assistants, and might also be responsible for training them.
- Hand Tools
- Carbon Steel
- MIG
- Safety Equipment
- Pipe Systems
- Plumbing
How much can you earn with Pipe Systems skills?
You can earn up to $48,756 a year with pipe systems skills if you become a pipe inspector, the highest-paying job that requires pipe systems skills. Journeyman pipe welders can earn the second-highest salary among jobs that use Python, $63,075 a year.
| Job title | Average salary | Hourly rate |
|---|---|---|
| Pipe Inspector | $48,756 | $23 |
| Journeyman Pipe Welder | $63,075 | $30 |
| Pipe Fitter Apprentice | $38,503 | $19 |
| Pipefitter And Foreman | $67,217 | $32 |
| Pipe Layer | $37,742 | $18 |
Companies using Pipe Systems in 2025
The top companies that look for employees with pipe systems skills are Army National Guard, Zachry Construction, and McCarthy Holdings, Inc. In the millions of job postings we reviewed, these companies mention pipe systems skills most frequently.
| Rank | Company | % of all skills | Job openings |
|---|---|---|---|
| 1 | Army National Guard | 28% | 2,403 |
| 2 | Zachry Construction | 6% | 202 |
| 3 | McCarthy Holdings, Inc. | 6% | 467 |
| 4 | Hargrove Engineers + Constructors | 6% | 160 |
| 5 | EMCOR Group | 5% | 1,628 |
Departments using Pipe Systems
| Department | Average salary |
|---|---|
| Construction | $57,166 |
| Plant/Manufacturing | $54,463 |
5 courses for Pipe Systems skills
1. Designing Piping Systems: Pipe Fittings Flanges Valves
---------------------MAJOR COURSE UPDATE: We have added a quiz at the end of each section to help you test your knowledge and emphasize the key learning points. The quiz includes: True/False questionsMulti-choice questionsImages, cross-sectionnal viewsSolved problemsand much more... When you think you've got a good grasp on a topic within the course, you can test your knowledge by taking the quiz. If you pass, wonderful! If not, you can review the videos and notes again or ask us for help in the Q & A section.---------------------The productivity of a process plant depends as much on the piping system as it does on all other plant equipment. As a result it is essential that the design of your piping system be optimized, properly maintained, and when required, repaired in an effective and timely manner. This course is designed to provide you with a complete understanding of design, manufacturing and construction of piping systems and their basic components, such as fittings, flanges, valves and pipe supports in addition to the codes and standards that apply to them. The course includes extensive graphics, cross-sectional views, sizing tables and 3D animations. This will give you a virtual practical exposure on piping systems and their accessories. The course also includes numerous practice sessions and most importantly will present a step-by-step piping design method. We will show you how to design a piping system from scratch. This valuable and proven piping design method is actually what we use at our petrochemical complex to design a new piping system or to modify an existing one. This design method is presented at the end of the course. For this reason, we do highly recommend starting the course from the beginning and navigating through all the sections in the order we have established so that you will be in better position when tackling the design section. So to sum up and to put it simply, the objective of this course is threefold:1. Break down for you all the piping system design and construction principles into easily digestible concepts like joining technologies, welding methods, pipe expansion handling, calculation of distances between piping supports and dimensioning of pipe guides and anchors…2. Illustrate using 3D animations and cross-sectional views the main piping components, state their function, their operating limits, their material of construction and their installation procedures such as pipes, flanges, fittings and valves...3. Provide proven guidelines and best practices for design, construction, installation and maintenance of piping systems in accordance with the codes and standards defined by the ASME & ANSI. The concept of Piping Specifications and Piping Classes will discussed in exquisite detail with numerous practical examplesAs you can see here, we cover pretty much everything you need to know about piping systems that will help you successfully design, construct, maintain and operate your own piping systems. So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section. Hope to see you thereWR TrainingSpread the wings of your knowledge...
2. Irrigation 101: Piping Systems
This course covers the pipe and tubing systems used for irrigation. You will learn real world skills such as; how to glue PVC pipe, solder copper joints, install and repair polyethylene pipe, repair Pex and Galvanized Steel, use specialty fittings like unions, slip-fixes, push-to-fit fittings, and learn to read a friction loss chart. We'll also drill down on details like; different thread types, the proper application of thread tape and pipe dope, and specialized tips that will make you more efficient and productive. This knowledge is indispensable to a new irrigation technician or DIY landscaper or gardener. This course is part 3 of our Irrigation 101 series. We're laying the foundations of knowledge, then we'll add on specific product knowledge. The format is classroom style lectures supplemented with video of real world and simulated repairs on key piping systems. You can download a 14 page PDF with fill-in-the blanks to keep as a field reference...
3. Design of piping systems: Steam & Condensate
The aim of this course is to show you how to design complete steam and condensate piping systems. The course is filled with exercises and calculations based on real installations. The methods described in this course are applicable for all branches of industry. In this course you will learn: Thermodynamic properties of steamTo read a T, h mollier-chartStandard components used in steamTo size steam and condensate pipes, collectors and headersSteam trap selectionHow to select and install pressure reducersHow to design a complete heat exchanger systemHow to select a safety valveHow to design a direct injection installationFor each type of calculation you'll find an excel calculation sheets that can help you follow this course. Other resources like supplier info and charts are added where used. Please feel free to ask any questions you have during the course, I'll do my best to clarify them. And if you have any special requests that I haven't covered in the course I'd like to know as well. See you in the course!...
4. 3D Modeling Piped Systems in AutoCAD
Many people think you need an Engineering degree to design piped systems such as chemical plants and filtration systems, but that's not the case. People are often intimidated by AutoCAD and think it takes years of experience to operate effectively, but this too is a misconception. You are going to walk into this course perhaps never having even SEEN AutoCAD before, and by the end, you'll be CONFIDENTLY designing complex, piped systems from scratch. What's more, you'll be creating virtual, 3D solid models of these systems and then generating all of the drawings necessary to fabricate and assemble your system! Once you learn the material in this course, there really is no limit to what you'll be able to design, model and draw...
5. Flow of fluids through piping systems , valves and pumps
The most diverse substances are transported and distributed in piping systems every single day. They include aggressive fluids in the chemical industry, hydrocarbons in petrochemistry or steam for energy transmission. Chemical engineers who are designing these piping systems and specifying associated equipment like valves, pumps and flow meters probably face more fluid flow problems than any other. Pressure drop calculations help the engineer size pipes and ducts, determine performance requirements for pumps and fans, and specify control valves and flow meters. And although the underlying theory is rather simple, its practical application can be confusing due to the empirical nature of important correlations, multiple methods for expressing parameters, many variable inputs, and alternative units of measurement. Designed around a series of practical examples which we work through to a solution, this unique training course is an essential guide to understanding the flow of fluids through pipe, valves and fittings. This understanding is a prerequisite for a successful design & flawless operation of your plant and piping system. The course features 5 major items:1- An in-depth information on physical properties of fluids (weight density, specific gravity, viscosity, vapor pressure...) and how to calculate them using Flow of Fluids Excel Workbook2- An in-depth information on compressible and incompressible fluid flow through piping systems, valves, pumps & flow meter devices (Orifice plates, Flow Nozzles & Venturi Meters) and how to calculate them using Flow of Fluids Excel Workbook3- An iterative method for sizing flow meters and valves4- An in-depth discussion on cavitation and choking in control valves5- A flow problem section with 25 concrete examples to help you practice and reinforce your understandingMany images, equations, graphs, 3D animations and solved flow problems can be found throughout, increasing the value of this course as an educational tool and industrial reference for personnel involved in the fluid handling industries. So this course is not only of use to practising and professional engineers to whom a knowledge of the behavior of fluids is of crucial importance in cost-effective design and efficient operation of process plants and piping systems but also intended as a study guide for undergraduates in process, chemical, petrochemical & petroleum engineering disciplines. So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section. Hope to see you thereWR TrainingSpread the wings of your knowledge-Important note about Flow of Fluids Excel WorkbookTo accompany this course and help you assess flow of fluids, calculate pressure drops, size pipes, control valves and flow meter devices, WR Training has developed an Excel VBA based engineering tool: Flow of Fluids Excel Workbook. Flow of Fluids Excel Workbook simulates the operation of small piping systems transporting liquids and industrial gases under a variety of operating conditions. Flow of Fluids Excel Workbook is based on industry recognized principles and standards from ASME, HI, IEC, AWWA, ISA, and ANSIFlow of Fluids Excel Workbook is easy-to-use and has a highly intuitive user interface. Flow of Fluids Excel Workbook presents formulas and data for:1. Physical properties determination for a variety of fluids (specific gravity, viscosity, vapor pressure)2. Pressure drop and head loss calculations through pipes, fittings and valves3. Flow calculations for incompressible and compressible fluids through piping systems, fittings, valves and pumps4. Sizing piping systems for incompressible and compressible fluids5. Flow resistance coefficients calculations for pipes, fittings and valves6. Flow calculations for incompressible and compressible fluids through flow meters (Orifice Plates, Nozzles and Venturi meters)7. Centrifugal pump calculation (Pump head, NPSH, Specific speed, affinity laws)8. Converting variables and process parameters to a numerous alternative units of measurement-Flow of Fluids Excel Workbook: Table of contenta. physical properties of fluids1 properties of water and steama. saturation properties with temperatureb. saturation properties with pressurec. properties given pressure and temperatured. properties given pressure and enthalpy2 dynamic viscosity of gases3 kinematic viscosity4 weight density of liquidsa. formula 1b. formula 2c. formula 35 specific gravity of liquidsa. formula 1b. formula 26 specific gravity - deg api7 specific gravity - deg beaume8 specific volume9 weight density of ideal gases10 weight density of real gases11 gas compressibility factor12 specific gravity of gases13 boiling point pure component14 vapor pressure: pure component15 vapor pressure: mixtureb. nature of flow in pipe1 rate of flow at flowing conditiona. formula 1b. formula 22 rate of flow (gpm)a. formula 1b. formula 2c. formula 33 mean velocity of flow in pipea. formula 1b. formula 2c. formula 34 reynolds numbera. formula 1b. formula 2c. formula 3d. formula 4e. formula 5f. formula 6g. formula 7c. bernoulli's theorem1 total head or fluid energy2 loss of static pressure head (hl) due to fluid flowd. head loss, pressure drop and friction factor through pipe1 loss of static pressure heada. formula 1b. formula 2c. formula 3d. formula 4e. formula 5f. formula 62 pipe pressure dropa. formula 1b. formula 2c. formula 3d. formula 4e. formula 5f. formula 6g. formula 73 pressure drop for laminar flow according to poiseuille's law4 pressure drop for turbulent flow according to hazen-williams formula5 friction factor for laminar flow6 friction factor for turbulent flowa. colebrook equationb. serghide equationc. swamee-jain equatione. gas calculations1 perfect gas lawa. determining the number of moles of a perfect gasb. determining the pressure of a perfect gasc. determining the temperature of a perfect gasd. determining the volume of a perfect gas2 non-ideal gas lawa. determining the number of moles of a non-ideal gasb. determining the pressure of a non-ideal gasc. determining the temperature of a non-ideal gasd. determining the volume of a non-ideal gas3 standard ◄►actual gas flowf. compressible flow in straight horizontal pipeline1 complete isothermal equationg. gas pipelines: mass flow rate equationh. horizontal gas pipelines: standard volumetric flow rate equations1 general standard volumetric flow rate2 weymouth standard volumetric flow rate equation for sizing horizontal gas pipelines in fully turbulent flow3 panhandle a standard volumetric flow rate equation for sizing horizontal gas pipelines in partially turbulent flow4 panhandle b standard volumetric flow rate equation for sizing horizontal gas pipelines in fully turbulent flowi. elevated gas pipelines: standard volumetric flow rate equationj. liquid flow through orificesk. liquid flow through isa 1932 nozzlesl. liquid flow through long radius nozzlesm. liquid flow through venturi nozzlesn. liquid flow through venturi meterso. gas flow through orificesp. gas flow through isa 1932 nozzlesq. gas flow through long radius nozzlesr. gas flow through venturi nozzless. gas flow through venturi meterst. resistance coefficient for pipes, valves and fittings1 contraction2 enlargement3 gate valves4 globe and angle valves5 swing check valves6 lift check valves7 tilting disc check valves8 stop check valves9 foot valves with strainer10 ball valves11 butterfly valves12 diaphragm valves13 plug valves14 mitre bends15 90° pipe bend and flanged or bw 90° elbows16 multiple 90° pipe bends17 close pattern return bends18 standard elbows19 pipe entrance20 pipe exit21 tees and wyes - converging flow22 tees and wyes - diverging flow23 orifices, nozzles and venturisu. head loss and pressure drop through valves and fittings1 loss of static pressure heada. formula 1b. formula 2c. formula 32 pipe pressure dropa. formula 1b. formula 2c. formula 3v. flow of fluids through valves, fittings and pipe1 liquid flow through a valve, fittings and pipea. formula 1b. formula 2c. formula 3d. formula 4e. formula 5f. formula 6g. formula 72 gas flow through a valve; fittings and pipea. formula 1b. formula 2c. formula 33 valve flow coefficient cva. formula 1b. formula 24 valve resistance coefficient kw. calculations for centrifugal pump1 pump heada. head formulab. pump in suction headc. pump in suction lift2 pump discharge pressure3 net positive suction head required4 net positive suction head available5 total dynamic head6 suction specific speed (nss)7 specific speed (ns)x. pump affinity laws1 impact of speed on flow2 impact of speed on head3 impact of speed on bhp4 impact of impeller diameter on flow5 impact of impeller diameter on head6 impact of impeller diameter on bhp7 pump brake horspower8 pump efficiencyy. flow of water through schedule 40 steel pipe1 calculations for pipe other than schedule 40z. flow of air through schedule 40 steel pipe1 calculations for pipe other than schedule 402 calculations for other set of temperature and pressure3 from standard to actual volume flowzz. conversion tables1 length2 area3 volume4 velocity5 mass6 mass flow rate7 volumetric flow rate8 force9 pressure and liquid head10 energy, work and heat11 power12 weight density13 temperature14 dynamic viscosity15 kinematic viscosity-DISCLAIMERThis software is provided by WR Training as is and any express or implied warranties, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall the Copyright owner or contributors be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services, loss of use, data, or profits, or business interruption) however caused and on any theory of liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this software, even if advised of the possibility of such damage...