Product | Description | Benefits | Applications |
---|---|---|---|
MCI®-309 | MCI®-309 is a Powder-based, organic corrosion inhibitor. | Corrosion inhibiting powder which vapourises into the air, travels through it and absorbs onto metal surfaces to form a protective layer for corrosion inhibition. to provide autonomous protection to any hard-to-reach space. Valid up to 24 months. | Used for protection of ferrous and aluminum metals located in recessed areas, interior cavities and structural voids. |
MCI®2005 Gel | MCI®2005 Gel is an amine Carboxylate based admixture in gel format. | MCI®2005 in gel format that contains same properties as MCI®2005. | For injection into existing structures. |
MCI®2020 Gel | MCI®2020 Gel is a blend of amino-alcohol and salts of carboxylic acids in gel format. | MCI®2020 in gel format that contains same properties as MCI®2020. | For injection into existing structures. |
MCI®-2050 | MCI®-2050 is a Release agent containing MCI® | Water-based, ready-to-use product and forms a thin protective layer to which concrete, asphalt, dirt or debris will not stick. Environmentally safe, non-flammable and safe to use. | Used to prevent the build of up common construction or industrial substances. |
MCI®-2060 | MCI®-2060 is a Cleaner and degreaser containing MCI®. | Non-toxic, non-flammable and biodegradable product. Provides flash rust corrosion prevention to metals it comes into contact with. | Cleans caked on grease, dirt, oil and mud off of concrete surfaces. |
MCI®-2061 | MCI®-2061 is a biologically based cleaner and degreaser containing MCI®. | Formulated with biodegradable surfactants as well as micro-organism. Surfactants responsible for initial cleaning while microorganisms (preserved bacterial spores) remove hydrocarbon constituents of the stain (including gasoline, diesel, crude oil, benzene, toluene, xylene and more). Environmentally friendly, neutral pH, no VOC and no solvents. | Clean concrete, asphalt and other hard surfaces. |
MCI®Coating for Rebar | MCI®Coating for Rebar is a water based barrier coating. | Protects steel, aluminium, cast iron and tin. Water based, environmentally friendly and does not affect adhesion of rebar to concrete. | Provides excellent protection for rebars in outside storage as well as superior protection for concrete embedded rebars. |
MCI® Coating for Rebar NT | MCI®Coating for Rebar NT is a water based barrier coating. | MCI® Coating for Rebar NT is the non-tacky version of the product. | Provides excellent protection for rebars in outside storage as well as superior protection for concrete embedded rebars. |
Product and customer insights
CHALLENGE A 40-hectare raw water storage dam had persistent issues with blue-green algae (BGA) blooms, leading to taste and odor problems. Despite the presence of an aeration system to address water stratification and mixing, BGA counts remained seasonally high, particularly in summer and autumn. Upgraded aeration in 2018 did not resolve the issue, leaving the […]
The International Maritime Organisation (IMO) regulation, known as IMO 2020 was the the largest change in regulation relating to marine fuels impacting 75% of the fuel used by the shipping industry.
CHALLENGE A power plant relying on ultrafiltration (UF) and reverse osmosis (RO) faced a critical operational challenge. A wastewater treatment upset severely fouled the UF system, drastically reducing water production. Despite multiple cleaning attempts with sodium hypochlorite and citric acid, transmembrane pressure (TMP) remained high, and flux showed no improvement. The plant’s inability to meet […]
Keeping drilling costs low using Redi-Guard™ High Performance, an ecologically friendly drilling fluid technology with revolutionary rheological and shale encapsulation properties
CHALLENGE A municipal water reuse plant processing 8 million gallons per day (MGD) experienced severe fouling and scaling issues, including calcium phosphate and silica deposits. With steep feed pressure increases and differential pressures in both stages, the plant required frequent cleanings every 4 to 6 weeks, amounting to 32 cleanings annually. Each cleaning cycle resulted […]
The plant was experiencing weekly shutdowns for fiber clean up (~ 3 kg bags of matted slurry is cleaned per week). The shut downs were costly as they reduce plant availability for production.
CHALLENGE A municipal reverse osmosis (RO) plant on Florida’s west coast, with a 20 MGD capacity, faced high operational costs due to its reliance on 93% sulfuric acid for pH adjustment. The plant used a combination of a brackish water reverse osmosis (BWRO) membranes and fiberglass-wrapped membranes across 10 trains, each operating at 75% recovery. […]
CHALLENGE A gold processing plant in New Zealand sought to improve gold recovery efficiency while addressing high Total Organic Carbon (TOC) levels. Elevated TOC increased the Preg-Robbing Factor (PRF), reducing the plant’s ability to efficiently recover gold during the Carbon-In-Leach (CIL) process. The traditional use of kerosene as a carbon blanking agent offered limited efficacy, […]
CHALLENGE A municipal reverse osmosis (RO) plant, with a capacity of 2 million gallons per day (MGD), faced frequent system cleanings, every 2-4 months, due to rising feed pressure. The plant, which sources water from brackish wells and uses Toray TMG-20D-400 membranes in a (16×7) -> (8×7) train configuration, was operating at 78% recovery. Despite […]
Research indicates that Sea Buckthorn may be able to strengthen the immune system. One in vitro study focused on the possible immunomodulatory properties of Sea Buckthorn.
AWC A-110 effectively inhibited scale at a dosage of 3.5 ppm and an operating pH of 6.9. This increase in operating pH reduced the district’s annual acid consumption by ~$350K per year based on their current production.
MCI® -2020 V/O and ChemMaster’s Colorsil were chosen to repair and protect the walls based on their 20 year warranties and the fact that together they could fulfill the other specified repair design requirements.
Despite numerous cleanings, the productivity of the Reverse Osmosis plant would not recover from severe membrane fouling. The membrane autopsy revealed that the ferric hydroxide was seeding
silica polymerization and that even while the ferric hydroxide was removed, the silica scaling was continuing to grow.
The East Hokkaido region is known to have the highest volume of potato product in Japan. Unfortunately, a potato farmer in the area was experiencing a high rate of potato scab infection in his agricultural field.
A S Harrison & Co is committed to providing the highest level of customer service. Please drop us a line and we will get back to you soon.