Cmcp Project on Bio-SCM VitalizationVerification and Utilisation of an Advanced Bio supplementary Cementitious Materials (SCM)
ALTERNATIVE BUSINESS MODELS FOR THE CONDUCT OF RESEARCH AND DEVELOPMENT ON THE USE OF RICE HUSK ASH (RHA) AS ADVANCED
CEMENTITIOUS MATERIAL
Cm
cpProject on Bio-SC
M V
italiza
tion2/2/2020
Concrete is an incredibly versatile, cheap building material.
But the world has a massive concrete problem:
Manufacturing of conventional cement
contributes about 8% of the world’s CO2 emission
Greenhouse Gas Emitter
LafargeHolcim
• Reduces net carbon emissions towards sustainable construction• Introduces more low-carbon products and solutions• Recycles wastes from construction into cement production, aggregates, and
backfilling material for the quarry
Heidelberg Cement
• is building what it has billed as the world’s first carbon-free cement plant• becomes the world’s first equipped with a Fullscale CCS (CO2 capture plant)
THE NORWEGIAN EMBASSY AIMS TO • offset its carbon footprint by planting 500 indigenous
seedlings outside Metro Manila,• promote cooperation in energy, trade and climate
change in the Philippines
“THE MATERIAL THAT BUILT THE MODERN WORLD IS ALSO DESTROYING IT.”
CMC focuses on the realities about Cement
The Utmost Problem inflexible codes and standards, i.e., ”making concrete has to be the
right way” only Than the natural issue of cost?
• By a limited willingness to pay for additional cost to save the world? New and advanced solutions do not always cost more than
“conventional” methods in short,
• newer technologies are prevented, just to cover own “Ace” , • simply announced to ensuring life safety in structures.
“You have to be sure that what you’re doing is right and work on it.”
Finallysafety regulations alone are not capable of evaluating any novel processes that will be required to significantly cut the industry’s carbon emissions
1. So what can we do about it? 2. Do we have actual solutions?3. What will they cost? 4. When will they be in place?
CO2 emissions of cement and concrete are Solved Technically but Not Economically
Solutions of today are mostly inadequate response to the climate crisis
Conclusion
Crazy and Right – But let us not forget !!!
So let us not forget !!!! Valuable Progress happened with
Changes in common Methods and Standards, only.
Sustainability is an issue of obligation all over the world and its development the responsibility of all – the general public, governments and business sector
The environmental and economic benefit of incorporating local RHA in the Alimit Hydropower Complex is considerable:
• Food for the people –RICE
• Hydropower – MAGAT –MARIS
• Bio-energy – Rice Husk• Bio-SCM – Rice Husk
Ash
The Future of Agriculture President Duterte on new thinking on agricultural
development: Agriculture is the backbone of the economy.
Agriculture forms the basis for food and nutrition security Agriculture provides raw materials for industrialization.
https://www.philstar.com/business/2019/07/12/1933913/philippines-agriculture-peri
“Unfortunately, our agriculture sector has ways to go to fulfil that role”
Project Rationale
Extraction of limestones and other minerals for cement manufacturing causes serious damage to the environment
Project Rationale
Combustion of coal for power releases big amount of toxic ashes and elements to the environment
Project RationaleImproper handling and disposal of Rice Husk and Rice Husk Ash (e.g., dumping into ponds and streams) seriously pollute the land and surrounding areas where it is dumped
Project Benefits Rice husk ash (RHA) contains
around 85% to 90% amorphous silica
Bio-energy combustion has zero CO2 emission
Approximately 50 tons of raw RHA can be collected from the plants in a day
About 2.5 million cubic meters of concrete/ ash can be collected at one site or power plant without cost
Project Benefits Generated as an overall valuable end-
product during food production Promotes Food sufficiency thus securing
Rice for the peoples Provides opportunity for farmers and
millers to gain more income as suppliers of raw materials not only for power but also in the construction industry
Project Benefits Safeguarding supply of food, waterpower
and bioenergy More and more standard requirement,
classified as Low Carbon Concrete In line with government’s thrust of use of
renewable materials for construction
Less packaging costLess warehouse costLess transport cost
Project Benefits
5 kg. RHA
30-40 kg. conventional
cement
=
Project Goals & Objectives
(Rice Husk Ash (RHA) – Agriculture – Food – Energy –ConstructionRealities of Sustainable, Renewable, Green, Biological Innovations
Rice Husk Ash
Rice Husk
Rice Farm
Rice Mill
Biomass Power Plant
Project Goals & ObjectivesDevelop new product processes by
utilizing renewable and biological raw materials
Rice Husk Ash
Pyrolysis 500 °CSpouted bed
Gas6% wt.
Bio-oil68% wt.
Pyrolysis Char
26% wt.
Amorphous SilicaRecovery 88% wt.
Activated Carbon
BET surface area1365 m2 g-1
Concrete with SCM
Rice Husk
Project Goals & Objectives
Jointly pursue product development research and business development activities for the future-focused use of the RHA
Project Goals & Objectives
Assess the utility of RHA as supplementary cementing material (SCM) in design of cement/concrete mixtures
ActivitiesProject Phase 1: Fundamental project evaluationEvaluation of project relevanceProduction quality and quantity
surveysBasic testing and certificationNetworking and competence
building
Activities
Project Phase 2. Commercialization Phase
Product/service development (including design or collaboration with pilot customers
Protection of intellectual property rights Development of brand strategy and
visual identity Market introduction/study
Cmcp Project on Bio-SCM Vitalization SUMMARY OF REALITIES
CMC Partners AS and Odd Magnus Tjugum Is Crazy, but Right at Site in Time for CareTaking our World
The origin and the idea of the project, its planning and execution will follow gained experiences, documented references, on previous similar work of developments done by CMC Partners AS
Imply major worldwide dissemination of new and improved technologies and application of the various methods and products developed.
More than 40 years of practical experience and, to a high degree, one of the most responsible for technical development and application within his special field in Scandinavia.