Progressively Adaptable Heat Transfer Solutions Using Plate Heat Exchangers
Our solutions with over 30 years’ of experience in heat transfer combined with our unique knowledge in plate heat exchangers help in improving system efficiency and sustainability. The founders have successfully established heat exchanger brand value across various markets and segments in the past, therefore we understand what the customer wants. We see an increasing demand for natural resources and it is time for some responsible actions that will ensure not just optimal solutions but also ensure that your systems are run efficiently with maximized product life. Our improved plate designs helps unmatched performance offered by G-Watts. Our range of plates offers simpler, maintenance friendly Parallel Flow, Single Pass Solutions which will save you installation time too. We were the pioneers in proving performance of the heat exchangers to our customers. Our ever improving plate designs with in house R&D helps us provide the future of technology in plate heat exchangers.
We have very quick decision making process in place that ensure faster response for an ever growing faster world. New custom built plate designs can be done at will and we also provide consultancy services in this technology. We are never too busy or too big to not respond within 24 hours or faster.
Our direct interaction with customers ensures we are able to exactly understand customers’ requirements and come up with unique plate heat exchanger solution that will enhance the system efficiency will not only reduce Capex but also Opex surely.
G-Watts has an experience and reputation of understanding the customer requirements and retaining customers. Our solutions are always meeting the process or application requirements in terms of material of construction, the duty, the efficiency, the maintenance and all importantly the Opex.
Our standards maintained will be second to none and ZERO customer complaints is the norm we want to achieve. We have a past record to prove that too.
Our plate heat exchangers are modern and super-efficient plate design, which ensures very high heat transfer rate per pressure drop.
The research gone into a very strong plate pattern design means that a thinner plate can be used to withstand high differential pressure, which also improves the overall heat transfer. All our heat exchangers are tested to full differential pressure.
G-Watts’ focus on sustainable solutions helps produce energy efficient plate designs which has resulted in very compact frame with a wide range of gasketed plate heat exchangers that boosts sustainability. Compact frame and very innovative plate patterns. The improved design of the corrugated plates optimizes heat transfer by providing a large but compact total surface area whereby the heat can be drawn from one liquid or gas to another.
Our plate design ensure a uniform flow distribution which helps reduce s fouling and uneven temperature zones keeping the performance levels high over time without unnecessary energy losses, maintenance costs or unplanned stops. Our plates are designed to achieve highest efficiency currently available in the world market. All the plates are designed and tested for thermal performance and efficiency.
Our experience in coming up with the right solution considering the pressing depth, thermal length and connection sizes gives us the edge that is currently unmatched. Our plates are selected based on the fluid, application and thermal demand.
Designed to meet your needs Our extensive range ensures that we can offer the best solution at the best price and, if required, combine several different types of heat exchangers to ensure that you get the best possible solution.
Depending on the quality of the fluids used, G-Watts gasketed plate heat exchangers are available in a range of high quality plate materials to ensure corrosion resistance:
WE PROVIDE SOLUTIONS TO DEMAND FLUCTUATIONS ESPECIALLY IN HVAC AND OTHER TEMPERATURE SENSITIVE APPLICATIONS WHICH WILL ENSURE THAT SYSTEM EFFICIENCY IS MAINTAINED EVEN IN THE ABSENCE OF FLOW CONTROL VALVES.