• Deployed in 3 plants in Jubail and internationally

• Ability to remove oil and other contamination from high volume cooling water loops 

• Able to trace the source of leaks into the cooling loop based on the recovered oil

• Can tap into a closed loop to prevent oxygen ingress

[CASESTUDY] Cooling Water Case Study | /s/Cooling-Water-Case-Study.pdf

• Deployed in 6 facilities in Jubail to handle removal (and recovery) of Oil from Petrochemical plants

• Ability to recover 95+% of the oil from contaminated water

• Potential to turn waste into worth – by then selling on the recovered oil

• Ability to reach target specs for the end user down to <1ppm if required

• Flow rates have ranged from batch treatment to 5m3/hr to 250m3/hr

[CASESTUDY] Oil Removal Case Study | /s/Oil-Removal-Case-Study.pdf

• Deployed in over 10 different petrochemical plants in Jubail over the last 15 years

• Achieved perfect BTEX removal, despite inlets sometimes being 5x design

• Treatment of both Water and Air to consistently meet RCER specifications

• Danat VOC Removal System is mobile and modular 

• Ability to handle >60,000 ppm VOC and still meet spec

[CASESTUDY] BTEX Removal Case Study | /s/BTEX-Removal-Case-Study.pdf

• Deployed for over 10 years at one of the world’s largest Olefins Plants

• Replaced conventional DOX system and improved system’s robustness

• Extended reboiler run-time from 25 days to 365 days, reduced DSG blowdown wastewater by 56%

• Significant cost savings and production enhancement worth >$100m a year

• Smaller footprint – easy to retrofit

[CASESTUDY] Quench Case Study | /s/Quench-Case-Study.pdf

• 4 successful deployments in Jubail, as well as TAMs in Kuwait (Equate) and Qatar (Qchem)

• Faced with 60,000ppm VOC, 40,000ppm COD  and percentage levels of oil and managed to meet discharge limits for each

• Treat faster than vacuum trucks can haul off – cheaper and potential to reduce overall TAM schedule

[CASESTUDY] Turnaround Case Study | /s/Turnaround-Case-Study.pdf

• 8 successful projects in both petrochemical and waste management facilities

• Currently undertaking trials on upstream applications for TOC with Oil Majors

• Have successfully reduced TOC levels from 5000ppm down to <40ppm

[CASESTUDY] TOC Case Study | /s/TOC-Case-Study.pdf

• Successfully implemented at one of the world’s largest Olefins Plants as well as at waste management sites in Saudi

• Ensured safe removal of EDC and VCM from water and air – meeting RCER 2015 specs

• Ability to handle significant loading conditions safely and quickly

[CASESTUDY] EDC Case Study | /s/EDC-Case-Study.pdf

• Deployed throughout SABIC and other companies in Saudi Arabia. 

• Ability to handle reduction down to Table 3B or Table 3C levels 

• Loading conditions can be greater than 10,000ppm and we can meet spec

• For longer term solutions we can use cutting edge technologies to reduce waste generated from processes and lower cost of treatment

[CASESTUDY] Ammonia Case Study | /s/Ammonia-Case-Study.pdf

• Danat is able to bolster existing WAO systems by treating for Red Oil or can offer an alternative treatment methodology to replace WAO and reduce haul off

• System can be deployed at site and is quicker and cheaper than haul off

• Danat Saudia already has a global contract with SABIC for Spent Caustic treatment that can be used to expedite the solution

[CASESTUDY] Spent Caustic Case Study | /s/Spent-Caustic-Case-Study.pdf

• We can offer any of these applications on a rapid response basis n Jubail by utilising our rental equipment fleet based in Jubail

• Mobilisation will be same day as Purchase Order 

• Deployment and start up within 72 hours of installation team being granted access to site

[CASESTUDY] Rapid Response Case Study | /s/Rapid-Response-Case-Study.pdf

• Ground water can be extremely complex due to cross contamination underground between neighbouring facilities

• Danat Saudia’s ability to treat multiple types of contamination in a sequential and cost effective manner has been highly effective at 4 sites in Jubail where we have successfully treated ground water

• Treatment can be at any desired flowrate upto 150m3/hr but geotechnical analysis should be done before requesting flowrates about 10-15m3/hr to protect for any subsidence

[CASESTUDY] Groundwater Case Study | /s/Groundwater-Case-Study.pdf

• Danat Saudia is able to ensure compliance with air emissions due to hazardous gas releases from processes or upsets

• Variety of options based on the contamination type and the duration of the project

• Solutions include cutting edge technology from Europe and Australia

• Contact us through the website to find out more about how we can solve this issue for you.

• Presence of Mercury can lead to embrittlement of plant infrastructure

• Mercury can be present in both Aerosolised as well as Aqueous Form

• Conventional technology is often unable to remove aerosolised form of mercury and it can overwhelm treatment systems

• Mersep technology is able to reduce aerosolised mercury significantly and retrofit existing systems

[CASESTUDY] Mercury Reduction Case Study | /s/Mercury-Reduction-Case-Study.pdf

• Inlet water to an RO system can contain trace hydrocarbons that will foul membranes

• Given the high flowrates that RO system often operate at any fouling can impact performance significantly

• Our solution is not only able to reduce fouling, it can help trace the source of hydrocarbon contamination reaching the RO

[CASESTUDY] ROProtection Case Study | /s/ROProtection-Case-Study.pdf

• PFAS (Per- and  Poly-Fluoroalkyl Substances) is currently the leading water contaminant issue faced in USA, Canada, EU and Australia

• Current technology solutions (GAC and Ion Exchange) struggle to cost effectively and efficiently treat at current regulatory levels

• Our MYCELX solution removes each contamination layer from free oil all the way down to PFAS efficiently

• Remove contaminants to below detectable levels across the range of PFAS types

• 99.9% removal on compounds that GAC is known to struggle with: PFBS, PFHxA, PFPeA and PFBA

[CASESTUDY] PFAS Case Study | /s/PFAS-Case-Study.pdf