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Among the first to be certified to the new ISO 9001:2015!

Among the first to be certified to the new ISO 9001:2015!

“Quality” is a key word for GemmeCotti, this is why we are an ISO 9001 certified company since 2007. Recently our Quality Management System has been updated to the new ISO 9001:2015, making us one of the first companies in Italy to be certified to the new quality standards. This is a clear proof of our dedication to constant improvement and desire to offer high quality service and products.
GemmeCotti is constantly becoming more and more efficient and the customer satisfaction is always our strong focus. With the main desire to meet customers’ expectations and offer them the best support and top-level products, we aim to continuously improve every business process: from the technical and production department, to the marketing and sales office.
Every aspect is developed and organized so that the company can be competitive and flexible on the pump market and can maintain the position of leading supplier of chemical pumps.

Check out our new certificate here.

Among the first to be certified to the new ISO 9001:2015!

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GemmeCotti pumps at IE-expo Shanghai

GemmeCotti pumps at IE-expo Shanghai

GemmeCotti chemical pumps will be exhibited at the Asian’s leading trade fair for environmental technology solutions IE-EXPO Shanghai from 5th to 7th May 2016.

You are welcome to visit our stand HALL N1 BOOTH 1763 where we will show our magnetic drive pumps suitable for acids and chemicals which are completely Made In Italy.

Our technicians will be available at the stand to show the pumps quality and to present the main characteristics. They can also help you to find the best solutions for your pumping needs.

See you in Shanghai!

Gemmecotti at ie-expo

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6 reasons to choose GemmeCotti chemical pumps

6 reasons to choose GemmeCotti chemical pumps

For more than 20 years we have been pursuing one main goal: design and produce magnetic pumps which meet the customers’ needs. That’s what drives us and makes us world-leader in the field of chemical pumps. So what are the characteristics of GemmeCotti pumps which make them unique and so appreciated by customers the world over?

1- Wide range of pumps among which the customer can choose. We have more than 400 pump variations so that we can always offer to the customer the right solution for his application. Each pump is customized according to many variables:

2- High quality pump materials. It’s important for us to offer the highest quality possible that’s why we choose only the best materials (Polypropylene, PVDF and AISI316) which can resist corrosion and which are suitable to pump almost every existing chemical. You can check out our chemical compatibility chart for more information and to select the right pump material for your application.

3- Best pump design for pumping chemicals. Magnetic drive pumps have a simple sealless design which is the ideal solution when handling chemicals and acids. The hydraulic part of the pump is hermetically closed so there is absolutely no leakage and emission of fluid. This is an essential characteristic because mag drive pumps guarantee safety for both workmen and the environment. Moreover the absence of any seal makes the pump highly reliable eliminating the maintenance and repair costs.

Typical pump design: The external magnet of the pump is placed on the motor shaft and when rotating it transmits the motion to the internal magnet thanks to the magnetic attraction of the two joints. The internal magnet is connected to the impeller which spins and moves the fluid through the pump. The external magnet and inner magnet are separated by a rear casing that creates a hermetic containment of the liquid that has no access to the outside.

Mga drive pumps

4- Chemical pumps completely Made in Italy. We are an Italian manufacturer and we are proud to offer high quality pumps designed, assembled and tested directly in our workshop. The pump parts are made and machined by our Italian suppliers all located near our factory. So, for us, suppliers play an important role in the resulting quality of the pumps. That’s why we choose and qualify them through a strict qualification process and we keep a close relationship with everyone in order to assure the highest quality of each pump part and consequently of the complete chemical pump assembly.

5- Every pump is checked and tested before delivery. What is the best way to assure the pump quality than try it personally? We perform rigorous tests during the whole assembly process according to ISO9001 based quality control standards. That is not all. We want to achieve zero defect rate, which is why we test every single pump at our test bench before delivery to our customer to check both the performances and the correct functioning.

6- Chemical pumps suitable for many applications. GemmeCotti industrial pumps can be used in various applications where chemicals, acids, dangerous liquids are involved, such as: chemical industries, waste water treatments, galvanic industries, surface treatments (zinc-plating, silver-plating, coppering galvanic treatments, chemical nickel plating) in machines and equipment for the printing industry, in machines for tanning industries, for printed circuit boards production, in scrubbers, air treatment plants, petrochemical and oil & gas industry, for biofuel handling, in textile industry, food industry and in bottling machines. Moreover GemmeCotti mag drive pumps can be used also for pumping salty water and water containing detergents.

chemical-industry

Contact our sales department and we will help you choose the right pump for your application.

 

 

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GemmeCotti's Italian suppliers: quality 100% MADE IN ITALY

GemmeCotti’s Italian suppliers: quality 100% MADE IN ITALY

GemmeCotti pumps are 100% MADE IN ITALY. They are designed, assembled and tested in our workshop, while the pump parts are made and machined by our suppliers, all Italians and located near our company. So, for us, the suppliers play an important role for the resulting quality of the pumps. That’s why we choose and qualify them through a strict qualification process and we keep a close relationship with them in order to assure the highest quality of each pump part and consequently of the complete pump assembly.
If GemmeCotti suppliers are so important, why don’t we introduce them to our customers? That’s what we thought and what convinced us to make a video interview with some of them. We contacted our mould supplier and our injection molded parts supplier and they happily accepted our request to film their companies and to make a short interview with them.
So now we are proud to introduce our Italian suppliers who, thanks to their vast experience in their field, help us to produce high quality pumps completely made in Italy.

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In Gemmecotti we believe in Equal Opportunity to build the future

In Gemmecotti we believe in Equal Opportunity to build the future

In our Company 45% are women and 55% are men. Women aren’t relegated in minor roles as happens often in our country. In our team women have important decisional roles because we believe in Equal Opportunity principle.
If people , regardless of gender, feel themselves recognized for their expertise and are free to express their potential, the whole company will benefit.
Women have grown in our company and they were able to grow our business over the years.
That’s why in GemmeCotti women occupy decision-making roles and have responsibilities and that ‘s why you will find female staff always professional and competent even in sales department that is often dominated by men.

In Italy there are many laws on Equal Opportunities ,( Code of Equal Opportunities between men and women ( Legislative Decree 11 April 2006 , 198 ) ), especially thanks to the important imput derived From European Norm that inserted Equal Opportunities between the Fundamental Principles. ( Charter of Fundamental Rights of the European Union , Nice 2000 , art 21 , art 23).

The company plays an important role in the application of the principle of equal opportunities , but often it is left to the voluntary initiative of the entrepreneur that is not supported by the institutions. In our country woman are paid 20 % less then men for the same job and many are the discrimination against women so we believe that it is important to talk about Equal Opportunities.

GemmeCotti staff

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How to read a pump curve

How to read a pump curve

If you are new in the pump field, reading a pump performance curve (usually just called “pump curve”) can be difficult and sometimes confusing. That’s why we want to help you by offering a simple guide for a first approach to a pump curve.

What is a pump performance curve and why do you need to know how to read it?

A pump curve is a graphical representation of the performance of a pump based on the tests of the pump manufacturer. Every pump has its own curve and it varies very widely from pump to pump. The variation depends on many factors such as the kind of pump (centrifugal pump, turbine pump, vane pump etc.), size and shape of the impeller. Pump curves can be used to provide many information of pump performance and absorbed power which are important for a user to determine the working point and motor power and size.

What information can I find on a pump curve?

1- In the simplest and widely used pump curve (commercial multi-pump curve) you can see two vital pump performance factors: flow and head.

The flow or capacity (Q) is measured in m3/second according to the international standards but usually you can find it expressed in m3/h, l/min or gpm (in the US). It is the volume of liquid moved in an amount of time. On the curve below (Picture 1) you can see the flow marked in red on the horizontal axis.

The head (H) is the height at which a pump can raise a liquid up. It is measured in meters (m or mlc meter of liquid column) or feet and you can see it marked in blue on the vertical axis on the picture below.

Pump performance curve with flow and head

PICTURE 1 MULTI-PUMP CURVE 

How can you read this pump curve?

To select the right pump model you should, first of all, identify the capacity and the head needed for  your system.

If you need for example a flow of 15 m3/h at 20 m you can find the right pump curve and consequently the right pump in the intersection of the two red arrows in the chart. In the example below the pump suitable is magnetic drive centrifugal pump model HTM 31.

 

How to read a pump curve

 

The curve enables you to see how the pump will perform at any given point within its performance range. For example, the same pump model HTM 31 at 15 m3/h will produce a head of 20 m, or at 24 m of head the pump will generate a flow of 8 m3/h.

Once you have chosen the right pump type whether centrifugal, turbine, vane or any other, you can study in details the specific curve of the selected pump model with other technical information.

2– In picture 2 you can see an example of a centrifugal pump curve (HTM 31 PP/PVDF) with additional details than curve in picture 1 such as for example the impeller diameter (curve A circled in red), the NPSHr (curve B) and the absorbed power (curve C). In some case you can also find the pump efficiency.  This kind of curve is usually used by pump manufacturers to select the correct pump model among their set of performance curves.

Performance curve centrifugal pump

PICTURE 2

How can you read this pump curve?

In the title box at the top you can find the pump model, the number of poles of the motor, the frequency, the RPM and the pump material (selected according to the liquid to pump).

In curve A you can see the flow and head as described in the paragraph above but there is also a reference of the impeller diameter. For this pump model the available impeller diameters vary from a  minimum of   110mm to a maximum of 134 mm. The impeller would be trimmed by the manufacturer to whatever diameter needed to meet your conditions of service. If the impeller selection is 122 mm at a flow of 10 m3/h the head is about 19 mlc. The manufacturer would determine the proper impeller diameter for your conditions and trim it to the correct diameter.

Curve A - centrifugal pump

In curve B you can see the NPSHr of the pump measured in meters or feet in accordance with the capacity required. This is the minimum head at the suction of the pump that allows the pump to work properly. If sufficient NPSH available is not supplied by the plant (NPSHa) the pump will cavitate and this will affect both the performance and the pump lifetime. In case of 10m3/h capacity you have to find the intersection with the curve of the selected impeller diameter and read the value on the left.

Curve B - centrifugal pump

In curve C you can find  the absorbed power required for pumping a liquid with a SG of 1. Once determined the impeller diameter and the flow you can find the intersection where you can read the absorbed power, which is necessary to determine the relevant motor power.

Curve C - centrifugal pump

The correct selection of a pump using a pump curve is essential to permit a proper working of your system. A working point too far out on the curve, or too far back, can cause damage to the pump, excessive energy consumption, poor performance and pump failure.

For further information don’t hesitate to contact us www.gemmecotti.com

 

 

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