Fire Pumps and Systems: The Most Commonly Asked Questions

At its best, firefighting is a hazardous business. And without a well-designed fire protection system and a fire booster pump, it becomes even more dangerous to save assets and lives. A fire pump is an important part of your sprinkler system and is essential in buildings with levels higher than 400-500 ft.

Especially in high-rise structures, fire pumps and systems are critical in distributing water through sprinklers. This is true where water pressure from water mains can’t reach the sprinkler system. It usually happens when the fire pump intake is either connected to the public water supply or a static water source like a tank, reservoir, lake, etc.

·         What does a Fire Booster Pump do?

The role of the fire pump is to provide water flow to the sprinkler risers and hose standpipes at a higher flow. It starts when the water pressure in the fire protection system drops below a certain threshold.

The fire pump is powered either by an electric motor or a diesel engine. If a building code requires power that is free from the local electric power grid, you will need an electric motor connected via a listed transfer switch and the installation of an emergency generator.

·         When do You Need a Fire Pump?

To determine whether you need a fire booster pump, compare the fire suppression system demands with the available water supply. If the supply cannot meet the demands, you will need a fire pump. Conversely, if the water supply meets the pressure demands, you don’t need a fire pump.

·         What are the Standards Governing Fire Pumps?

Code-compliant fire pumps and systems for commercial and industrial buildings begin with the standards governing fire pumps. According to the US-based National Fire Protection Association - NFPA, the standard for installing stationary pumps is the most widely accepted standard. NFPA 20 is considered the leading code, with its many safety measures that are designed to account for all conceivable scenarios and ensure maximum fire protection.

NFPA 20 addresses everything from the fire pump room to the water source itself. The standard provides installers, designers, and manufacturers with minimum requirements for the design, manufacture, installation, and testing. It ensures that each of the individual components would perform as a whole when the system is active.

·         How Often Should You Inspect/Test Your Fire Pump?

It is likely that your building contains a sprinkler system and a fire booster pump as part of your fire protection equipment. These are automatic systems that act as the first line of defense when a fire breaks out. A vital part of your fire safety plan is to inspect your fire pump so that it can perform optimally. You may wonder how often you should inspect and test your fire pump. Well, this can be done regularly, weekly, monthly, and yearly.

·         Why You Should Install a Jockey Pump in the Fire System

Fire pumps and sprinkler systems are designed to put out fires as quickly as possible. This is done by a set of sprinklers connected to each other and to the water source. When the sprinkler system is active, it will take only a few seconds for the sprinkler to release water.

However, there is a need to maintain pressure in the pipes, so each fire sprinkler loses a small amount of pressure when it turns on. When a fire breaks out and a sprinkler turns on, there must be enough pressure in the pipes to activate the next sprinkler.

Here, installing a jockey pump could save your day. It is designed for this purpose and will turn on whenever it senses a certain amount of pressure drop in the fire protection system. It will maintain water pressure to help the fire booster pump operate without any delay.

The Bottom Line

Without a fire booster pump, your fire sprinkler system will only work until there is a prolonged water supply and pressure. This means that the system won’t be able to reach every corner of your building and put out an entire fire by itself. So, rest easy knowing that having a sensing line for fire pumps would help you ensure fire safety 24/7.

Need Help? Our pumping specialists are standing by.

Variable Speed Booster Pumps: 10 Reasons Why to Use Yaskawa

 

When planning to invest in water pressure boosters, consider variable frequency drives. This is because they are designed to save power costs, especially on large pumps, HVAC systems, and other high-horsepower industrial applications. Yaskawa is a leading name in VFD applications and adds value to water booster systems by providing extensive integration, powerful control options, and enough diversity of designs.

As a leading distributor of variable speed booster pumps in New York and surrounding areas, we know how to take care of our client’s bottom line. Our team of experts understands how to help clients avoid “extras” that may add cost. We supply domestic as well as residential water booster pumps that use the Yaskawa technology. Here are the reasons why we use Yaskawa VFDs.

1)      Excellent Support

Using Yaskawa Variable Frequency Drives (VFD) means guaranteed satisfaction. You won’t miss anything when it comes to customer support and understanding pumps inside and out. The factory personnel will always be helpful, and any troubleshooting will be handled promptly.

2)      High-Quality

Out of the box, Yaskawa VFDs are a true winner. In fact, we can’t even remember the last quality issue in the last few years. This is simply because Yaskawa spends a ridiculous amount on packaging, manufacturing, and testing, so the quality will never feel disappointing.

3)      VFD Options

Depending on the client and application, three different Yaskawa VFDs are available to meet water pressure needs. We use a robust iQ1000 VFD, which is full of features that people usually need. These features include BMS/BAS modules and digital and analog outputs to satisfy basic requirements. 

4)      Easy to Program

The parameter numbering scheme is consistent throughout the Yaskawa VFDs we use. This makes programming and troubleshooting easier than ever. And with hundreds of parameters, you can fine-tune your variable speed booster pumps over the phone. Plus, you can ably network multiple VFDs, providing you with huge savings by eliminating the PLC panel.

5)      High Demand

Yaskawa VFDs are high in demand because of their powerful and feature-loaded designs. They are designed specifically for water pressure boosters. Plus, it’s not surprising that clients are increasingly investing in water-boosting solutions.

6)      Scalable Control

From basic 10 HP systems to medium 16,000 HP, Yaskawa offers energy-saving and control-enhancing systems that are standard for many new facilities. When existing facilities are being upgraded, Yaskawa VFDs not only allow better operational control, but also maximize the integration of diverse systems under standardized network control.

7)      Software and Networking

Yaskawa VFDs integrate well with industry-standard networking protocols, such as Fieldbus and Industrial Ethernet-based systems. They come with device programming, energy savings prediction, and harmonics estimation software that will help you profile a company's operations and configure control systems. Also, auxiliary power may keep drivers linked while the main power is off.

8)      Wide Applications

VFD applications from Yaskawa provide users with options to integrate plant-wide solutions for HVAC systems, motion control, pumps, and fans. These solutions are designed for both domestic and industrial applications. In fact, you can convert existing installations to variable speed and variable torque VFD systems that will allow modernized production lines and energy savings.

9)      Optimized Control Systems

Yaskawa systems are able to monitor and optimize motor temperatures and offer improved braking technologies. This provides fast-acting current and voltage limits to keep the system operating during periods of high-demand. From induction types to permanent magnets, Yaskawa VFDs are available for many motor types.

10  History and Experience

Yaskawa is a world-renowned company with 100+ years of experience and rich history. Their products are the result of extensive research, making them the industry standard for a wide variety of applications. In addition to that, Yaskawa offers both AC and DC converters to supply power for multi-drive residential water booster pumps.

The Sum Up

Yaskawa iQ1000 is designed with pump service operators and owners in mind, offering ease of setup, network, and operation. The integrated pump software parameters allow you to program control values for a wide range of applications. Bypass options are also provided to address a variety of environmental conditions. Plus, the pump drive will automatically adjust pump operating conditions when the process variables change. We carefully select, design, assemble, and program domestic water booster pumps and use Yaskawa iQ1000 on every system that we supply.

For variable speed booster pumps, talk to us directly.

A Guide on How to Calculate Jockey Pump Capacity

 Our customers often ask us about jockey pumps and how to calculate their capacity and size. This is crucial because it ensures there is enough water pressure to control a fire. Before we answer this question, it would be best to understand what a jockey pump is and how it functions in electric or diesel fire pumps.

Jockey Pumps

Also known as a pressure maintenance pump, a jockey pump is a key component of fire pumps. It is a small apparatus that works in conjunction with the fire pump as part of a fire protection system. Designed to keep the pressure elevated, a jockey pump prevents the main fire pump from running unless absolutely necessary.

Unwanted pressure drops, water leaks, and temperature changes often fool the fire pump into starting without any requirement. Using a jockey pump, which is electric motor-driven, you can control the pump and switch it on and off periodically to maintain the main pressure at high levels. Jockey pumps are preferred to be centrifugal pumps and must be properly approved.

Jockey Pump Sizing

The size of your jockey pump determines whether it is able to maintain the fire protection system pressure, allowable leakage, or any pressure drops. Make sure it is the size you need to maintain the desired fire protection system pressure. Keep these things in mind:

·         The sizing of the jockey pump should be done in such a way that it provides a flow less than a single fire sprinkler. This is true when the jockey pump serves only above-ground piping for fire sprinklers.

·         The fire pump should start and run for water flow situations where a sprinkler is open. Keep in mind that this won’t happen if the jockey pump is too large.

·         Select a jockey pump that makes up the allowable leakage rate in 10 minutes or 1 GPM (whichever is larger).

·         The water pressure of the jockey pump should be greater than the pressure of the main fire pump by a minimum of 10 psi. This will avoid the false starting of the main fire pump.

·         A good rule of thumb for sizing a jockey pump is to utilize 1% of the fire pump rated capacity.

·         The pump is not required to have alternate or standby power.

Jockey Pump Capacity

A simple rule for sizing is that the jockey pump capacity should be around 5-10% of the main fire pump. Based on NFPA 20 Standard, jockey pumps should have rated capacities not less than normal leakage rates. They should have discharge pressure sufficient to maintain the desired sprinkler system pressure. So, the first thing is to calculate the normal leakage rate and know how to size a fire pump. You need to take into account the net positive suction pressure available and the effect of rising to shutoff the system.

Additionally…

There are valves required for diesel fire pumps and jockey pumps. For instance, an isolation valve should be installed on the suction of the jockey pump, so that it will isolate the pump for repair. Also, a check valve and isolation valve should be in the discharge pipe of the jockey pump. That’s it!

To learn more about jockey pumps, get in touch with us.

Fire Pump Sensing Line Details: Weekly Fire Pump Inspection and Testing

 Carrying out a weekly fire pump inspection and testing sensing lines for fire pumps

would help you ensure the system is in operating condition and is free from any physical damage. You can also detect deficiencies that may not be visible by visual inspection and assure that the pump can ably provide continuous water delivery for required fire protection demands.

Here are a few important things to keep in mind during pump mounting and piping:

·         Install the fire pump in a dry place as near the city water as possible with a short, direct suction pipe.

·         Make sure there is sufficient space above the pump to give it some clearance for general accessibility and ventilation.

·         Foundation must be substantial to absorb vibrations and form a rigid support for the baseplate.

·         The foundation bolts you use should be of suitable size embedded in the concrete.

·         The fire pump should be firmly mounted before the operation begins.

·         Never use flexible connectors on the suction/discharge of a vertical in-line fire pump unless the pump is rigidly standing on a foundation.

·         Assure the piping doesn’t exert any strain on the pump, since this could distort or damage the casing. Plus, it mustn’t produce any vibrations during operation.

·         Connecting pipe flanges should be square to the piping and parallel to the pump flanges.

·         Install eccentric reducers on the suction connection with the flat side upward.

·         Lay out the suction line in such a position that it continually rises toward the pump without high points.

Weekly Fire Pump Inspection and Testing

To avoid any false alarms, provide notification to the alarm monitoring facility before and after completing the weekly fire pump test. Make sure all fire pump supervisory signals are received by the facility. Here’s a checklist and some jockey pump sensing line details for the weekly inspection:

•        Take a look at the power-indicating light (for the electric fire pump) on the controller to confirm there is power to the pump.

•        Make sure there’s normal heat in the fire pump room, which should not be less than 40ºF and 70ºF for diesel pumps without engine heaters.

•        The ventilating louvers must be free to operate, and the pump suction, discharge, and bypass valves should be kept open.

•        Examine the pipework, fitting, and connections for any potential physical damage or leaking.

•        The suction and discharge gauge pressure reading should be normal.

Electric Fire Pump Weekly Test Procedure

Verify the start and stop settings on the jockey pump sensing line details by dropping the water pressure in sensing lines for fire pumps. When done with all inspection procedures, try to start the pump automatically by dropping the water pressure in the controller sensing line. After that, the pump should run for at least ten minutes. Check the pressure at which it automatically started.

Make sure there is proper tightness and adequate lubrication. Verify the operation of the circulation relief valve, which is usually located on a 1-inch line off the discharge side of the pump. Also, check the pump shaft bearings, packing, stuffing, and casing for any signs of overheating, noise, or vibration. If your pump is equipped with a main relief valve, then it is important to ensure proper operation.

At Callaghan Pump…

We offer a complete range of sensing lines for fire pumps, from horizontal to vertical fire pumps. Plus, they are available in both electric and diesel engines. As one of the most renowned names in the pumping industry, every line of fire pumps we offer is made from the best materials possible.

For fire pump sensing line details, contact us.  

New York Water Booster Pump: Learn How to Increase Domestic Water Pressure

 

Having low water pressure in your building is an inconvenience, especially if the issue worsens over time. Low water pressure is often easy to fix, but not always. For instance, it can be the outcome of an issue as simple as a partially opened water main valve. Or it can be an ongoing problem where you may need a New York Variable Booster Pump. Therefore, it's better for homeowners to understand the common causes of low water pressure.

How to Diagnose Low Water Pressure?

Do you know how to troubleshoot your low water pressure? If your answer is no, then these simple yet helpful tips will help you increase force and improve flow. Also, continue reading to learn about New York Variable Booster Pumps.

1.      Making Initial Inspections

After knowing that there is a water pressure problem, the first thing you should do is investigate the potential cause. It could be due to the water supply, which means the cause may not be in the building itself. Start in the kitchen or bathroom sink. Check whether there is enough pressure in your tap. Next, try the water pressure in another faucet.

If the water pressure is low in one fixture only, then this is a sign associated with the water supply. However, if the pressure is low in multiple fixtures, this could be a broader problem with the water supply. Homeowners can uncover such issues by trying all fixtures in their building.

2.      Checking Water Supply Issues

Ask your neighbours, and if they are also experiencing problems with their water pressure, this is likely a problem with the water supplier. You can contact your water supplier to find out if they are aware of the problem. In some cases, this could be due to water regulations that may affect the water supply coming to the house. In that case, it’s best to buy a New York Water Booster Pump.

How to Reduce Water and Energy Consumption?

Water efficiency not only minimizes water bills, but also energy consumption. So, consider whatever keeps your household energy efficient. You can do this without sacrificing convenience. Here are some plumbing tips that conserve both water and energy.

·         Perform Home Inspections

Plumbing issues often consume a lot of energy and water, but you can easily fix them for a lower cost if they are detected early. Instead of waiting to have a clogged pipeline, check your sink, bath, and shower hardware. Inspect exposed pipes, especially the ones in your basement and utility room. You can check the floor around the bathroom or kitchen, where permeable water may be a sign of a leak.

Once a leak is detected, fix the affected pipes and fixtures or replace them if necessary. You can save up to 20 gallons per day by fixing leaky faucets and plumbing joints. Keep in mind that not all leaks are easily detected. If you can't source the issue, you should look for plumbing service providers.

·         Use Low-Flow Fixtures

Low-flow fixtures are a great conservation measure because they can replace existing fixtures without disturbing the plumbing installation. For example, low-flow showerheads are able to minimize water consumption by over 30% compared to standard showerheads.

If you are using New York Water Booster Pumps, low-flow fixtures can also reduce electricity consumption by reducing the demand on the pumping system. So, consider replacing your old toilets, faucets, and sinks with low-flow fixtures.

·         Develop Efficient Practices

Homeowners often focus on indoor water conservation, while ignoring outdoor conservation. In properties with lawn and garden areas, outdoor consumption may represent a large portion of the water bill. So, focus on reducing evaporation and the need for watering. Harvest rain water and use it to maintain the green landscape. Water it wisely by using a smart sprinkler controller, which can save up to 40 gallons per day.

·         Don’t forget about drains

Last but not least, drains are fundamental for the overall performance of your plumbing. They are often overlooked until they get clogged or damaged. You can use environmentally friendly drain cleaners to minimize the chances of clogging. Use strainers in your bathroom to keep particles out of drainpipes.

Conclusion

Water efficiency is often regarded as difficult or expensive, but it’s easily achievable. Even a simple approach like fixing leaks in bathroom fixtures can lead to significant changes. We hope these tips and recommendations will improve the performance of your plumbing system and New York Water Booster Pumps, saving money by reducing both water and energy consumption.

4 Crucial Tests for Your New York City Fire Pump

 

New York City Fire Pumps are perhaps the most critical part of fire protection. They are installed at a site where the available public water pressure is not enough to meet fire protection needs. Most fire pumps are driven by either electric motors or diesel. However, some older ones have gasoline or even steam engines.

Fire pumps come in all shapes and sizes and are usually connected to a private water supply, such as a storage tank, reservoir, lake, or river. Some of them are vertical shaft turbine-type pumps, whereas others are horizontal pumps. Keep in mind that fire pump failure could spell disaster. Therefore, basic testing is a must to minimize the potential risks.

That being said, let’s dive deeper into this article and understand the testing needed to ensure that your New York City Fire Pump will perform as expected during a fire accident.

·         Water Flow Testing

Fire pumps of all types require to be fully flow-tested at least annually. You need to measure them against the pump characteristic curves of churn, rated point, and maximum output. Since pump performance can gradually deteriorate over time, it can affect the overall performance of your fire protection system. With annual flow tests, you can pinpoint these problems before they get worse.

If you want to carry out a flow test for New York City Fire Pumps, it’s a good idea to hire professionals for the job. They have the right expertise and training to perform such tests.

·         Acceptance Testing

When you have a newly installed New York City Fire Pump, you will need to perform a special fire pump acceptance test. According to NFPA 20, acceptance tests are important for new installations. The "three-point test" is a basic minimum flow test requirement, but we would recommend as many as five test points for an acceptance test.

The pump should be tested by measuring the voltage and electrical current under different flow conditions. NFPA 20 requires the use of voltmeters and ammeters to conduct these tests safely.

·         Full Unit Inspection

New York City Fire Pumps should be inspected at least weekly to check the general condition of the pump, driver, and controller. The inspection includes visually examining the bearings, stuffing boxes, water supply suction, strainers, power off alarms, etc. Diesel fire pump inspections include things like batteries, oil levels, cooling systems, belts, and hoses.

·         Regular Testing

Lastly, there are some fire pumps that require regular testing. This could be done by either automatic start (preferably) or by manual start (occasionally). Regular testing is a start-up and run test, which is quite similar to starting your car on a frigid morning. You can run a 30-minute test for diesel pumps and a 10-15 minute test for electric fire pumps under normal running conditions.

Closing Thoughts

These are some of the main fire pump tests to keep your New York City Fire Pump running smoothly for years. As mentioned above, these tests should be carried out on a regular, monthly, and yearly basis to ensure that the pump will protect the property, assets, and people in the event of a fire. Have any fire pump requirements?

Book your New York City Fire Pump today.

A Guide to Choosing the Right NY Variable Booster Pump

 Sick of low water pressure in your New York house? Then NY Variable Booster Pumps are the perfect solution that can ably boost pressure for everything from bathroom showerheads to high-demand appliances. These pumps help deliver the water from a source throughout the facility at a uniform pressure.

A water booster pump consists of a centrifugal pump, inlet and outlet, impeller, and a pressure monitoring device. When water enters through the inlet, it is pushed out through the outlet with an impeller, which is spun by an electric or diesel motor. Also, there is a tank to build the right amount of water pressure.

Water Booster Pump Types

You can find two main types of booster pumps that are typically available as standard pumps and Variable Speed Drive (VSD) pumps. Ordinary or standard pumps work at a constant rate and don’t have the provision to boost flow rate or adjust speed. On the other hand, VSD pumps can help you adjust speed based on the different pressure head requirements. These pumps are great for cutting unnecessary energy costs.

Multi-Stage and Single-Stage Booster Pumps

Based on the number of impellers, water booster pumps can be classified into two main categories - single-stage and multi-stage. Single-stage booster pumps have a single impeller and are best for independent houses and residential buildings that have moderate pressure requirements. Typically, these booster pumps are enough for one building. The relative simplicity of design has made standard pumps the most commonly available and widely used pump type for commercial and residential applications.

On the other hand, multi-stage booster pumps are useful when the requirement of water pressure is high. Such applications include maintaining the city water pressure, carrying water over a very long pipe, or distributing water uphill. These pumps have two or more impellers fitted in series. They come with multiple liquid chambers or stages, with each consisting of an impeller, a combination of a diffuser, and return guide vanes.

Water booster pumps are also available in vertical and horizontal models. For congested spaces, vertical pumps are best as they require less area.

NY Water Booster Pump Applications

Water booster pumps find applications across a wide range of industry verticals that require the movement of water. For instance, high-rise buildings require higher pressure to deliver water to their upper floors and tanks. With an NY Water Booster Pump, you can tackle such issues. They are also often used to boost the water pressure or continuously circulate water in a building. Other applications include:

·         High water pressure cleaning

·         Irrigation Reverse Osmosis (RO)

·         Fuel delivery or oil and gas production

·         Mining or boiler feeder pumps in power plants

·         Pressurizing water for firefighting

At Callaghan Pump, we distribute high-quality, branded NY Water Booster Pumps designed to elevate water pressure in all applications from domestic to commercial. All our products are carefully hand-picked from world-renowned water pump manufacturers that are the very best when it comes to delivering unparalleled energy efficiency, pump performance, and control. Our wide-ranging product collection includes everything from single self-priming water pumps to multi-pump booster sets.

This is the most comprehensive platform for industrial, commercial, and residential pumps in the business. You won’t be dissatisfied with the results of pump engines when looking for application-specific pumping technologies, because the NY Variable Booster Pump meets most of your needs. As the largest pump distributor in New York, we can help you make the right choice. Just determine suitable pumps for your application and request them directly from our website.

In Conclusion

Since every building is unique, we supply the best booster kits to meet your exact requirements. Whether you need to increase the main water pressure or your private water supply, the brand-new NY Water Booster Pump is what you need. If you’re still unsure about what type of water booster pump would be most suitable for you, feel free to get in touch with any questions.

Need help finding the best NY Water Booster Pump?

NYC Fire Pump: The Pursuit of Testing and Inspection

Imagine a fire breaks out and your fire pump doesn’t work. That’s one reason why NYC Fire Pumps should be inspected and tested weekly in accordance with the NFPA 25 Standard. The standard seeks to cover wear-and-tear issues of fire protection systems and ensure the pump assembly is in operating condition.

Weekly Inspection and Testing of NYC Fire Pumps

Fire pumps are an essential part of the water supply for fire sprinklers. They are either powered by electric, diesel, or steam and are typically installed in places where the city water pressure isn’t enough for the requirements of a fire sprinkler system.

They boost and regulate the water pressure to all standpipe lines, risers, valves, fire hoses, etc. They may include drivers, controllers, and jockey pumps along with any standard fire pump system accessories you might want to have. Keep in mind that if you don’t inspect and maintain them to NFPA standards, then your system won’t function properly when you need it the most.

The weekly NYC Fire Pump test is carried out to make sure that the system is ready to operate and will provide continuous delivery of required water pressure. While inspection is a visual observation, testing is a physical observation that exercises the pump without flowing water.

According to the NYC Fire Code, you need to maintain records of weekly inspections and tests for a minimum of three years. Also, weekly fire pump tests should be performed by contractors who hold a legitimate license or certificate. Here are some other tests to carry out:

·         Monthly Testing

Monthly testing generally involves a non-flow fire pump test, often known as a churn test. It is mostly a visual inspection carried out to track the water pressure gauge over the course of ten minutes and inspect pipelines, nuts, and glands for anything unusual. If it requires a small fix, such as adjusting a loose nut, this can be done on-site.

·         Annual Testing

Once a year, it is essential to do fire pump flow testing, which involves discharging water into a safe location and then tracking the water and voltage. This test will help you confirm whether a sprinkler system is working properly. If it’s not working as expected, this means that repairs may be necessary.

·         Other Tests

Since most modern NYC Fire Pumps are run by electric motors, they only require monthly and annual testing. However, those running by diesel engines must be tested weekly. Also, consider testing the amount of anti-freeze in your wet pipe sprinkler system. If you notice that proportions are too low, then your pipelines are at risk of freezing and bursting.

NYC Fire Pump Room Requirements

Your NYC Fire Pump should be located in a separate room from all other areas of the building. In other than high-rise structures, it should be separated by 1-hour fire barriers, 1-hour horizontal assemblies, or both. Separation isn’t necessary for a fire pump, other than an automatic standpipe fire pump.

This is because such pumps are located in a mechanical equipment room enclosed by 2-hour fire barriers, 2-hour horizontal assemblies, or both. Also, the temperature of the pump room must be suitable, which means you should maintain the temperature of your pump room or pump house at above 40°F (5°C). Need more help?

Contact us for a free consultation!

New Jersey Water Booster Pump: Single Booster vs. Zone-divided Systems

 

Maintaining adequate water pressure and flow in a multi-story building is necessary for both fire-fighting and domestic applications. Domestic or city water pressure is often not enough to achieve these objectives, and that’s why these buildings require additional equipment.

The challenge of delivering reliable water pressure is serious in high-rise structures. For instance, hotels in New Jersey offer several guest rooms and large banquets for special events and meetings. At any given time of day, they require ensuring that every guest has access to the water they need when they need it. This is where New Jersey Water Booster Pumps can be used to…

·         Overcome low water pressure issues

·         Maintain constant water supply and flow

·         Decrease operational costs and provide peace of mind

New Jersey Variable Booster Pumps for High-rise Buildings

New Jersey Water Booster Pumps are perfect for high-rise structures because these pumps are capable of sitting idle during low-demand periods. This means they can easily ramp up when demand increases, saving time and extending the life of the system.

What makes New Jersey Variable Booster Pumps different than other pumps is that they are easy to transport and can fit into just about any space. Also, they are available in both electric and diesel models to cater to your unique needs.

4 Different Configurations of the New Jersey Variable Booster Pump

Like most buildings, water booster pumps vary in size and design. This makes it difficult to determine which one is most efficient and effective for your building. Let’s look at the four different system configurations to help you pick the right pump design.

1.      Single Booster System

In this case, a water tank is kept in front of the water booster pump. It is filled with water from the mains, which helps the capacity of the mains to be lower than the peak demand of the building. As a result, this ensures constant water pressure even in peak flow situations.

However, single booster systems can lead to unacceptably high pressure on the lower floors. When this happens, the system will require a pressure relief valve to remove excessive pressure.

2.      Zone-divided System

This water pressure system is split into several zones to ensure adequate water pressure on all floors without using pressure relief valves. There is a limit set to the upper and lower floors in each zone.

Zone-divided water booster pumps eliminate unnecessary water pressure and supply equal water pressure to all floors without wasting energy. This makes them great for taller buildings that often have to adapt to fluctuating consumption.

3.      Roof Tanks System

Roof tank systems ensure both water pressure and supply when some power failure takes place. This system requires pressure reduction valves on each floor, so it can avoid unnecessary high static pressures due to the insufficient geometric height of the roof tank.

4.      A Series-connected System

A series-connected system enables effective usage of power. This is because the water is only pumped to the zone. Keep in mind that when you draw water on the upper floors, the booster system must be able to deliver the water from the bottom of the building.

Zone-divided System: The Best Solution for High-rise Buildings

Picking the right water booster system depends on the height of your building and the load profile. In most cases, zone-divided systems offer the most efficient water-boosting solution. They ensure there is no additional water pressure to the system than what is needed.

While single booster systems produce excessive pressure and then remove it later, they often lead to significant pressure differences. Not only do they require additional components, they also require energy to remove the extra pressure. This is why investing in zone-divided systems could be the right move for taller structures.

They offer an intelligent way to boost water pressure on each floor – no more or less. By dividing a high-rise building into different booster zones, it becomes easier to define the flow and pressure needed at each zone. Make sure the size of each booster meets your exact water demand.

Are You Experiencing Low Water Pressure?

Each building has unique specifications and has its own set of requirements. Thus, we offer custom solutions when it comes to New Jersey Variable Booster Pumps. We carefully select, design, assemble, and test variable speed domestic water booster systems and use Yaskawa IQ Pump 1000 on every system that we supply. From water boosters that flow 5GPM to 1000 GPM and pressure boosts from 10 PSI to 800 PSI, we can help you meet your needs.

Get in touch with us today.

Semi-open Self Priming Pumps

To know more about us, Visit us at: https://www.callaghanpump.com/sump-sewage-pump/

 

Aurora Fire Pump New York: Providing Fire Protection Pumping Since 1919

 Whether you are looking for a pump for recirculating water within an HVAC loop, boosting water pressure for landscaping, or dewatering construction sites, Aurora meets all your needs. The company is committed to excellence that goes beyond the product line and is dedicated to keeping its customers, distributors, and employees constantly educated on the leading development in technology.

Why Choose Aurora Fire Pumps New York?

For more than a century, Aurora Pump has been one of the most trusted names when it comes to fire protection pumping. They are a global manufacturer of Aurora Fire Pumps New York for commercial, municipal, and industrial applications.

What makes Aurora Pump a great deal is that it has managed to maintain a superior reputation as a pump and system supplier. They are devoted to designing and manufacturing quality products that can efficiently adapt to an ever-evolving global market. On top of that, they provide reliable services at all stages of client care.

As a leader in global fire suppression, Aurora Pumps offers a full line of fire pumps, including:

·        Municipal Pumps - Aurora fire pumps offers high-pressure pumps for reverse osmosis applications. They produce and move potable water to support high demand.

·         HVAC and Water Supply Pumps - Whether you want to recirculate water within an HVAC loop or boost water pressure for landscaping, Aurora offers HVAC and water supply pumps.

·         Fire Suppression Pumps - Aurora is the place to explore UL/FM fire pumps for commercial and industrial applications.

In Closing

Be it an office, high-rise building, or villa, you can’t go wrong with Aurora Fire Pumps New York. At Callaghan Pump, we would like to assist you with selecting the best Aurora pumps and systems along with providing pump specifications. We are an authorized master dealer or distributor of Aurora FirePumps New York. From small 7.5 HP in-lines to 5000 GPM fire pumps, we cover everything.

To book your appointment, contact us.