Innovative Technology For Road Surface Stabilization
We make use of innovative enzyme-based technology to build and improve the base of paved and unpaved roadbeds. Engineering qualities of local soils are improved, with higher compaction densities, increased strength and reduced construction and maintenance costs.
Advantages of Enzyme Soil Stabilization Technology
Environmentally Friendly
100% natural, safe to use, non-toxic and non-flammable. No threat to human or animal health.
Sustainable
Minimum maintenance. Increased road life. No specialized equipment or labor.
Cost Effective
Meets budget requirements as both product and construction are highly cost effective.
High Quality & Performance
Enzyme stabilized surfaces show a significant increase in bearing capacity while maintaining dust free and water repellent for prolonged periods of time.
WE SERVICE
Public and Private Roads
Rural roads, secondary roads, road shoulders, parking areas and sports fields
Sub-Base Improvement
Improve Sub-Base strength for block paving and asphalt application
Construction and Commercial Projects
Construction projects, mining sites, airport runways, taxiways and haul roads
APPLICATION
The application of our enzyme technology will minimize or even eliminate the need to cut and spoil and import of suitable materials, adding up to notable extra expenses. At a fraction of the cost, in situ soils can now be treaded with TERRAZYME 11X on site, imporoving the existing materials to meet AASHTO requirements, showing increased compaction densities, reduced water permeability and limited loss of fines due to corrugation.
HOW IT WORKS:
During application the enzymes act upon the soil’s organic fines through a catalytic bonding process, promoting certain chemical physical and chemical reactions to produce a strong cementation effect. After optimum compaction is completed, the bonding process will sufficiently be cured within 72 hours. The enzymes lower the surface tension of the water. When mixed in the water cart on site it accelerates penetration and improves compaction with less effort. Up to 25% saving on requirement of compaction water have been documented.
HIGHLY ECONOMICAL:
Mixing is done on site and no extra equipment is required; no waste due to rapid setting times or weather conditions; fewer operating hours due to ease of application; saving in equipment expenses, fuel and water. Since TERRAZYME 11X interacts with a wide variety of soil materials, maximum use can be made of existing soils thus minimizes the need to haul additional materials at high cost.
LONGER LIFESPAN:
TERRAZYME 11X had been proven to prolong the lifecycle of the wearing course, reducing re-gravelling and maintenance costs.
EFFECTIVENESS:
The effectiveness of TERRAZYME 11X is influenced by the type of soil, its structure and it mineralogical composition.
APPLICATION STAGES
Loosen soil with Grader or Rotovator
Humidify soil using TerrZyme mixed with water
Mix treated soil to uniformity
Compact treated road surface near optimum humidity
Localized Businesses
Ask us about our Women Empowerment Program
Equipment Required
Tractor/grader with scarifying teeth
Tractor with Rotovator/disc
Water truck with separate water pump
Sheepsfoot compactor
Smooth/vibrator drum
Pneumatic roller
Local Based Labor
Successful Past Projects
Secondary Roads and Residential Developments:
- Joe Slovo Village Rustenburg/North West Provice Roads
- Royal Bafokeng North West Province
- Daveyton Ekurhuleni Metro
- Hammanskraal Tshwane Metro
- Grootfontein Estates Welbekend Private Developers
- Midstream Estates Midrand Gauteng Province PRV
- Construction Crossway Village
Port Elizabeth The Boatshed Developers - Finkelstein Development Windhoek
Namibia Roads Agency
Haul Roads:
- BHP Billiton Witbank Mpumalanga
- Sappi Baberton Mpumalanga
- Amplats – Steelpoort / Maandagshoek / Stilfontein / Amandelbult
- Impondo Mining – Mozambique / Zambia / Tantelite Resources
Madagaskar – Avantu sustainable solutions / Madagaskar Oil Company
Mafikeng / Intatakusa / R&H Railway Consultants - ZMC Mining Macuba Mozambique
- Namib Beton Windhoek
- Braamhoekdam WBHO
- Mogale Mines Krugersdorp/Rand
Game Parks / Private Resorts:
- Intaba Intle Game Private Resort – Bela Bela – Tim du Toit Developers
- Shonalanga Game Private Resort – Bela Bela
- Zebula Country Club and Spa Resort – Bela Bela
- Etosha Game Park Namibia
- Kruger National Park – Skukuza / Jakkalsbessie Camp – Vuswa Construction
- Limpopo Park, Mozambique
- Welgevonden Park Waterberg
North West Province
Provincial Roads:
- Bela Bela Roads Authorities
- Mokopane Leshika Consults
- Hogsback / Cathcart Eastern Cape
- Caledon / Hemel-En-Aarde Western Cape PD Naidoo
- KZN Roadprojects / WBHO / AG Agri Engineering Uvongo Cradle of Mankind – detour – Ruabex
- Saldanabaai West Coast PD Naidoo
- Overberg Southern Cape Martin & East
- Walvisbaai / Solitaire Namibia Roads Agency
Parking Areas:
- Rand Station (Soccerex) Bus parking area under grassblocks Tshepigo Consults
- Diamond Hill weigh bridge N4 – Basil Read
- Kievitskroon Estate Kameeldrift – Private development – Boutique Hotel & Events Resort
Road Shoulders:
- Rehabilitation of Road Shoulders – Old Pretoria Road Nelmapius / Mamelodi
- Roadex Construction Road shoulders R25 – Kaalfontein BKS
- Hans Strydom Road – Pretoria East – VKE / Patula Construction
Rural Roads:
- Hartebeestfontein Rustenburg North West Province
- Marken – Mosomo Construction / CSIR – Labor Intensive project Likasi
- DRC / Swanepoel Enterprizes Developments – Afri Group
Airstrips & Runways:
- Okavango Delta Botswana – Unidev / Wilderness Safari Group
- Sossusvlei – Namibia
- Wonderboom Airport – Tray for private aircraft
- Kruger National Park – Private camp airstrip
Sport & Recreation:
- Dreamfields Community Project – multipurpose sportsfields in rural areas asd for underprivileged children
- Walkways and Bicycle paths – Midstream and others
- Pathways for golfcarts
- Racetracks for Quad bikes & Scramblers
- Cricket Pitches – Flicx International / Lords at England / Ekhuruleni / various schools in Gauteng
- Hores Arenas – Housabout Lanseria
- Tenniscourts – Kutenga CC
HAULROADS, SAPPI BABERTON
Kruger national park
Wonderboom airport
Design roads for high strength and low cost with terrazyme
Structure strength = 100%
Construction cost = 100%
Structure strength = 100%
Construction cost = 80%
Structure strength = 100%
Construction cost = 60%
These three road models maintain the same AASHTO (American Association of State Highway and Transportation Officials) structure strength at dramatically different costs. TerraZyme improves low quality local soil and reduces imported materials and construction costs.
maintenance cost reductions untreated vs terrazyme
Terrazyme stabilization of plantation roads reduced road surface maintenance costs by 75% (Study results courtesy of PORIM)
road strength improvements after terrazyme stabilization
Lab study results from Brigham Young University, USA, show CBR% strength gains over time in soil stabilization with TerraZyme (actual field CBR% increases exceeded these values).
Frequently asked questions
EVERZYME is a 100% natural, non-toxic multi – enzymatic formulation that alters the properties of earth materials to produce superior road-base stabilization compared to other road-treatment materials now in use. Its ease of application also provides additional substantial cost savings over other methods. It is manufactured in South Africa, and has been used world-wide for many years.
Enzymes are naturally occurring protein molecules. Each enzyme is specifically tailored to promote a chemical reaction within or between other molecules. The enzymes themselves are unchanged by these reactions; rather, they serve as a “host” or “matchmaker” for the other molecules, greatly accelerating the rate of normal chemical and physical reactions. Since they are natural products they are environmentally friendly.
EVERZYME is formulated with an enzyme-rich material which was the product of a natural fermentation process using cane sugars and other proprietary organic compounds. It reacts with the minerals in the soil to form chains and a strong cementation action which improves the strength and bearing capacity, and reduces permeability and water penetration.
EVERZYME is added to the compaction water. The water simply acts as a carrier, and the EVERZYME is calculated so that 1 liter of EVERZYME is applied to every 30 cubic meters of gravel. For example, a road of 8 meters width, treated to a depth of 150 mm, will need 1 liter of EVERZYME for every 25 meter of road. The EVERZYME is added to the water truck through the inspection cover, and it is then driven around to thoroughly mix the EVERZYME and the water. This application is much quicker and simpler than for other stabilizer products.
When the water is sprayed, some foaming will take place. It is the surfactant that causes the foaming, and is confirmation that EVERZYME is in the compaction water. Normal road construction procedures are applied, where the water is thoroughly mixed into the gravel, shaped and compacted.
The attached paper published in the Institute of Municipal Engineers (Vol 30, No. 4, April 2005) by Visser and Erasmus shows that EVERZYME is beneficial. The soaked in-situ CBR of the untreated material is 19, whereas the same material treated with EVERZYME has a soaked in-situ CBR of 43. This is only one example of the significant improvements in gravel properties that are found.
A typical gravel road maintenance is performed by blading the road with a motor-grader. This often consists of cutting the surface to make it even. When treated with EVERZYME a hard surface is provided, and any cutting action will destroy the bond. Motor-grader maintenance should not be applied at all. On an experiment on one of the SAPPI forestry roads near Kaapsche Hoop, the EVERZYME treated section was not graded for a year under traffic of 400 heavy logging trucks per day. At that time the motor-grader operator who was maintaining the adjacent sections of road forgot about the trial section.
Should significant deterioration occur, the road would be wetted, ripped-up and a further application of EVERZYME applied and the material is then re-compacted.
Spillage from trucks must be removed by brooming, and not by cutting with a motor-grader.
Since EVERZYME binds the gravel there is a significant reduction of dust as compared with the untreated material. This was proven on the SAPPI forestry roads. On some mines the requirement may be a “zero dust policy”. Under those circumstances a combination of EVERZYME to provide strength and bearing capacity, and a polymer seal is recommended. This has been used successfully. Polymers are about 10 times more expensive than EVERZYME and applying a polymer to a depth of 50 mm results in an optimized solution.
When the economics and financial feasibility of treatments are evaluated a life-cycle cost analysis is used. The benefits of treating a gravel wearing course are reduced motor-grader maintenance and significant gravel loss reduction since the gravel materials are bound. On mines water is typically used to reduce dust, but these are only effective for a short period in summer or when the wind blows. EVERZYME provides a road surface with minimal dust. The road quality is also good, and this results in reduced rolling resistance, which means lower fuel consumption, as well as less damage to truck tyres.
The cost of EVERZYME is about R1900 per liter (depending on the exchange rate), and this works out to about R10 per sq/m at the time of writing. At this application cost the initial investment is typically recouped within 6 months by the reduction in road maintenance cost, spraying water, lower fuel consumption and tyre costs. Any mining company would consider this a sound investment. Actual costs will vary from mine to mine, and for local justification the ruling cost regime could be used to perform the life cycle cost/benefit analysis.