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Offshore gas cooling

Offshore gas cooling

Client: Offshore platform

Location: Gulf of Mexico, USA

Sectors: Oil and Gas

The Challenge

Design an explosion-proof cooling system

A Gulf Coast oil platform had a critical problem with the temperature of the gas flowing into its pipelines and was having to scale back to compensate. Hot summer temperatures and a third well being brought on line were the main contributing factors. When they called us for a rapid response the temperature was already at 119°F (48.5°C) – only one degree within the safe limit of 120°F (48.9°C). Any design we came up with had to take into consideration the platform's size, high-pressure gas flow, significant power limitations, and small footprint. It also had to be explosion-proof.

Key Facts

Initial temperature 119 °f
Temperature after cooling 108 °f
Installation time 7 days
Increase in productivity 50 %
Offshore gas cooling

The Solution

A chiller package that we operated round-the-clock

Knowing this was an extremely time-sensitive matter we were up and running within two hours of the phone call. We marshalled our resources, assessed the situation and mobilised a fleet of chiller units.

Our technicians then designed a closed-loop chilled water system that could be hooked up to our customer’s exchanger.The entire design and installation took just seven days and knocked the gas temperature back to 108°F (42.2°C), a move that allowed the platform to ramp up production. All equipment was tested against requirements before shipping and again when we had it installed on site, and we also provided round-the-clock staffing to operate the equipment.


“The fact that we could respond immediately to an emergency and get a package installed in just seven days helped keep the oil rig safe for the workers and boosted our customer’s financial bottom line.”



The Impact

Temperatures lowered and production increased

Our prompt response meant that our customer had an operational system within seven days. The temporary closed-loop chiller system managed seasonal temperature limitations so that discharge temperatures were reduced by 10 per cent to a safe level of 108 °F, which allowed gas flow to be increased by 50 per cent. The design met the specific requirements and footprint of the platform and all units were explosion-proof. The success of the temporary chiller package meant the customer was able to significantly increase production and avoid a big hit to their financial bottom line.


Offshore gas cooling