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TAPPING ON INTERNATIONAL PARTNERSHIP
BY
DR AHMAD BIN IBRAHIM CEO, ACADEMY OF SCIENCES
MALAYSIA FRAUNHOFER SENIOR ADVISOR
MALAYSIA
Harnessing STI for Socio-Economic Transformation
and Inclusive Growth
Government Transformation
Plan (GTP)
Effective Delivery of Government Services
10th & 11th Malaysia Plan Macroeconomic growth targets & expenditure allocation Implementation of Government’s Development Programmes
Economic Transformation
Programme (ETP)
New Economic Model A High Income, Inclusive and Sustainable Nation
1Malaysia – People First, Performance Now Preservation and Enhancement of Unity in Diversity
Source: PEMANDU, NEAC, EPU
2
NSTI Policy 3 formulated within context of national transformation programs…
National Social Tranformation
Programme (NSTP)
Political Tranformation
Programme (PTP)
THE DESTINY
The goal is to become a DEVELOPED nation that is INCLUSIVE & SUSTAINABLE by the year 2020 with a society that is STABLE, PEACEFUL, COHESIVE & RESILIENT.
2 0 1 3 - 2 0 2 0
NSTI Policy 3
Vision
A scientifically advanced nation for socio-economic transformation and
inclusive growth
Mission
Advancing and mainstreaming STI at all levels and in all sectors
The NSTIP 3 is grounded on the following five fundamental foundations namely:
STI for Policy; Policy for STI; Industry Commitment to STI; STI Governance; and STI for a stable, peaceful, prosperous, cohesive and
resilient society.
Strategic Thrusts
Advancing Scientific and Social Research, Development and Commercialisation
Developing, Harnessing and Intensifying Talent
Energising Industries
Transforming STI Governance
Promoting and Sensitising STI
Enhancing Strategic International Alliances
Key Areas
Biodiversity; Cyber Security; Energy Security, Environment and Climate Change; Food Security; Medical & Healthcare; Plantation Crops & Commodities; Transportation & Urbanisation; and Water Security.
R,D & C
Increase Gross Expenditure on R&D (GERD) to at least 2.0% of GDP by 2020
Enhance the performance of public and private R,D&C
funding
Improve the delivery of STI services
Enhance commercialisation and increase uptake of home grown R&D innovative products through clear guidelines and standards compliance
Intensify the integration of social sciences and humanities
with pure and applied sciences
Talent
Increase the ratio of researchers per 10,000 workforce to at least 70 by 2020
Develop higher order cognitive, analytical, creative and
innovative skills among school children, tertiary level students and teachers
Introduce new innovative skills in the work force to
advance the nation’s STI capabilities Intensify STI’s Brain Gain and Brain Circulation
Enhance talent management system to track supply and
demand of skilled human capital in STI
Talent
Develop a dynamic career path for researchers in public research institutes (PRIs) and institutions of higher learning (IHLs)
Promote and enhance meaningful, effective and equitable female participation in STI at all levels and in all sectors
Energizing Industry
Maintains a minimum R&D expenditure ratio between private and public sector
Develop enterprises with distinctive capabilities Initiate extensive review of fiscal and financial incentives to
promote industry innovation, particularly among Small and Medium Enterprises (SMEs)
Stimulate and facilitate the private sector to undertake R,D&C
Engage industry associations and strengthen networking to co-
create STI programmes and activities Develop new approaches to enhance knowledge transfer to
industry from PRIs, IHLs, government organisations and regional corridor development agencies
Energizing Industry
Formulate and implement an Inclusive Innovation Roadmap (2013-2020) to address the concerns and needs of the excluded, including the disadvantaged and low-income group
Encourage social, grassroots and consumer driven
innovation
Enhance industry driven collaboration and partnerships Enhance innovation and inculcate risk taking culture
among entrepreneurs to accelerate R&D commercialisation
Governance
Formulate a Science, Technology and Innovation (STI) Act for orderly implementation of the national STI agenda in 2013
Strengthen and streamline STI related councils Transform and enhance PRIs’ governance to ensure efficient
management and effective implementation of their core functions Provide greater autonomy to public and private IHLs and PRIs to
spur industry collaboration and entrepreneurship Incorporate social norms, ethical and moral values in the
advancement of science
Governance
Encourage IHLs and PRIs to comply with the Intellectual Property Commercialisation Policy for Research & Development (R&D) Projects Funded by the Government of Malaysia (2009)
Transform existing science and technology
information centres to become more effective Innovate and improve public sector delivery system
Promotion
Establish an advisory body to guide STI public awareness and promotions
Expand and empower science centres to popularise and
sensitise STI in society Promote STI among school children, professional bodies and
science-oriented societies - Conduct outreach programme to raise awareness
on ethics and humanities in society
International Linkages
Improve R,D&C ecosystem to attract global partners Nurture domestic talents to enable organisations and industries to
penetrate global markets Develop partners, allies and channels in key destination countries Establish “go-global” market strategies for home grown STI product
(including market access, business intelligence, etc) Strengthen marketing and development of global brands Continuous improvement in monitoring and evaluation Intensify domestic and international networks for research collaboration,
strategic partnerships and business relationships
FRAMEWORK FOR THE NATIONAL POLICY ON SCIENCE, TECHNOLOGY AND INNOVATION (NPSTI)
ST 1 Advancing
scientific and social
research, development
and commercialisa
tion
ST 2 Developing, harnessing
and intensifying
talent
ST 3 Energising industries
ST 4 Transforming
STI governance
ST 5 Promoting
and sensitising
STI Strategic Thrusts
STI for Policy
Policy for STI
Industry Commitment to STI
STI Governance
STI for Stable, Peaceful, Cohesive and Resilient Society
Foundation
Advancing and mainstreaming STI at all levels and in all sectors
A scientifically advanced nation for socio-economic transformation and inclusive growth
Transformation Programme
Vision
Mission
19
ST 6 Enhancing strategic
international alliances
A High Income, Inclusive and Sustainable Nation
National Social Transformation
Programme (NSTP)
Political Transformation
Programme (PTP)
FRAUNHOFER
Germany’s Foremost Applied Research Institution Linked to Universities Strong Partnership with Industry Market Driven Global Player
Fraunhofer is Europe’s largest application-oriented research
organization. Our research efforts are geared entirely to people’s needs: health, security, communication, energy and the
environment. As a result, the work undertaken by our researchers and
developers has a significant impact on people’s lives. We are creative. We shape
technology. We design products. We improve methods and techniques. We
open up new vistas. In short, we forge the future.
Partnership with Fraunhofer Malaysia
Conversion of Palm Oil Waste Fats into Hydrocarbon
Fuel Vaccine from Tobacco Intellectual Capital Assessment Wastes from Batik Tissue Engineering Solar Automotive Electronics
Fraunhofer Indonesia: The Benefits of Applied Science for the Industry Dr.-Ing. Ida-Bagus Kesawa Narayana Fraunhofer Representative Officer, Indonesia
Picture : Jakarta, Capital City of Indonesia
Fraunhofer Activities in Indonesia : 3 Level Approaches
1. Image Development: Fraunhofer as Trendsetter / International Seminar on specific themes
2. Networking Development : Strategic Partnership with Ministries, Universities, Research Institution and Industry Association. Knowing Decision Makers in Ministries, Research Institutions and Companies.
3. Project Development: Active Project Development in Company Level
Fraunhofer Indonesia : Applied Research Cooperation in Indonesia
1. Developing WTZ Projects (Based German – Indonesian Scientific and Technological Cooperation) or EU FP7 in Selected Sectors a. To introduce Fraunhofer Scientist to Indonesian market b. To develop Fraunhofer Technologies for specific need in Indonesia
2. Technology transfer : Developing projects, which have already
existing products / references projects a. More easy to introduce to market b. Optional : In cooperation with Fraunhofer Spin-Off or German Companies,
depends on business requirements
3. Applied research projects with Industry a. Only for customers, which are already cooperated with nr. 1 or nr 2
Focus Fields
1. Biopharmaceutical and Regenerative Medicines : 2. Bio Industry / Biooekonomie : 3. Information and Communication Technology : 4. Renewable Energy : 5. Manufacturing and Surface Technology : 6. Technology Management for Public Institution and Industry
German – Indonesian Project Financing (BMBF) : 2006-2013
1. Molecular Farming (IME)
2. Development of HPC Virus Diagnostic System (IME)
3. Low Allergenic Rubber Process (IGB)
4. Byproduct of Biodiesel (Glycerol) To 1,3
Propane Diol (WKI, IME, ICT) 5. Integrated Production of Bio Based Fuels, Products and Chemicals in a Multi Feed Stocks (IVV,
UMSICHT)
Camelina has great promise as a biofuels crop because it is productive on nutrient marginal soils under environmental stresses such as drought and high soil salinity. Its produce oil bearing seeds and it short generation growing time allows multiple crops per year.
Calophyllum Inophyllum is an native sea costal tree that produce oil bearing seeds and thrives well on salinity soils.
Nypa Fruticans is an native sea costal
mangrove palm tree. It sap tap from it stem produce high sugar content liquid that is suitable for bio-ethanol production.
„Biomass-to-energy“
Where
flourishing environment and
prosperous economy can coexist
Ecosystem & Plantation
Management
„Wasteland-to-value“ „Crops-to-feedstock“
„Wasteland-to-value“ „Crops-to-feedstock“
„Market entry“
Where
flourishing environment and
prosperous economy can coexist
Ecosystem & Plantation Management
Low Investment Low Yield High Oil Quality
High Investment HighYield Low Oil Quality
Innovated Technology
Extraction rate 75%
Extraction rate 90%
Extraction rate 99%
Extraction rate 95%
High Investment Medium Yield Low Oil Quality
Medium Investment High Yield High Oil Quality
Drawbacks of Conventional Biodiesel Process
Use of inorganic catalyst and excess of toxic methanol High costs for downstream processing because of by-products Fuel yield of only 90% due to formation of glycerol Small revenues from Glycerol because of market saturation Significant amounts of waste water are formed in purification steps
Fraunhofer Patent : Enzymatic Biofuel
Partial transesterification of vegetable oil using enzymes
No formation of by-products due to
the application of specific enzymes Input materials completely converted
into biofuel Simple downstream processing
due to small amounts of ethanol used and no by-products formed Recycling of immobilized enzymes
allows easy recovery and reutilization
Fraunhofer Patent : Enzymatic Biofuel
Enzymatic partial transesterification
C
C
H
H
H
H O
O C
C HOC
C
O
O
O
R
R
R
C
H
H
H
H
COC
O
R
C OH
OH
H CH3C
H
H
OCR
O
C
C
H
H
H
H O
O C
C HOC
C
O
O
O
R
R
R C
C
H
H
H
H O
O C
C HO
C
O
O
R
R
H
Immobilized Enzyme
Ethanol
Triglyceride
Triglyceride
Monoglyceride
Diglyceride
Fatty Acid Ethyl Ester Reaction products form a stable mixture, therefore none of the
constituents has to be removed
Fraunhofer Patent : Enzymatic Biofuel
First commercial Enzymatic Biofuel patented process
Innovative production process
Global Patented Bio-process based on enzymes as catalyst
Roll-out of production plants start in Indonesia October 2013
Advantages
Most environmentally friendly and cheapest bio-fuel process worldwide
Profitable bio-fuel production No chemicals; no emissions; no glycerin as by-product;
low energy Lower investment; faster construction; flexible &
mobile plants; low risk High efficiency, fuel yield >99,9%
Biofuel production Innovative production process Excellent emission values Lower CAPEX (up to 50%) Lower OPEX (up to 50%) No water footprint No (toxic) waste
Advantages
• high yield • good lubricating properties • high emulsifying capacity • decreased demand for additives • wide range of application • biological degradable • low waste accumulation • inexpensive raw materials • low enzyme costs 0% 1 0 % 2 0 % 3 0 % 4 0 % 5 0 % 6 0 % 7 0 %
8 0 % 9 0 % 1 0 0 %
Simultaneous production of food, technical products and energy from Camelina seed kernels and other oilseeds
Lupin, Sunflower, Soya, Camelina, Pea, Linseed, …
Proteins, nutritional fibers, secondary plant metabolites
Vegetable raw materials Protein- and Oilseeds
processing
modifying
High valuable and functional food ingredients
Bio-based Kerosene and Bio-Jet fuel Next Generation Technologies for Bioenergy and
Biomass Utilization
Diesel
Kerosene
Naptha
LPG/COx/CH4
Thank you for your Attention!
Working for the future.