Name:
Position/role
Email
Telephone
Company Name
Web
Tony F. Diego
Co-Founder, Interim CEO
tfdiego@42tek.es
+34 656339535
42TEK S.L.
WWW.42TEK.ES
Reyes Rodriguez
Co-Founder, Admin
rroddriguez@42tek.es
+34 675671449
42TEK S.L.
WWW.42TEK.ES
1. Business summary
The 42TEK S.L. is focused on producing new smart materials for water generation, remediation
and purification without the need for added chemicals. No water is either too contaminated,
or too pure for us to produce. We achieve these objectives through the incorporation based
on very recent advancements in the field of materials sciences, and specifically in the field of
nanotechnology, where we have a portfolio of patents protecting our intellectual properties.
Nanomaterials are being applied across a raft of industries and technologies due to their
outstanding magnetic, optical, catalytic and electronic properties, which depend greatly on
their size, structure, and shape.
The 42TEK S.L. is synonymous with maximum flows, at minimum rates. Our Water products
can be used as POU (Point of Usage) i.e. under the kitchen sink, or drinking fountain, etc., or as
POE (Point of Entry) i.e., Hotels, Spas, etc., as well as for much larger deployments such as
Municipal Potable treatment plants or for Residual Waste Water Treatment plants.
We also commercialize our own patented nano-particle reactors based on completely new
design which use supercritical temperatures and pressures, and whose resulting products are
laboratory grade nano-particles such as highly commercial grades of Anatase TiO2, or SiO2
scaled to production environments.
See table below for a full list of high tech organic and inorganic specialty materials and
chemical powders.
Table 1-Nanoparticle Powder production capabilities
Platinum
Iridium
Palladium
Osmium
Silver
Mercury
Polonium
Rhodium
Ruthenium
Copper
Aluminium oxide
Antimony tin oxide
Bismuth oxide
Cerium oxide
Cobalt oxide
Copper oxide
Nickel oxide
Iron oxide
Magnesium oxide
Manganese oxide
Nanoclays
Nanofibers
Nanosilver
Nanotubes
Graphene
Bismuth
Yttrium oxide
Technetium
Zinc oxide
Gold
Zirconium oxide
The same types of reactors are also used to produce class IV ultrapure water suitable for
laboratory, IC Electronics manufacture, or for implementation in the bio health industry.
These reactors can also be used to remediate heavily contaminated persistent emergent
contaminants from residual or waste water treatment.
The 42TEK S.L. company is classified as a: B2B (Business to Business), B2C (Business to
Consumer), B2G (Business to Government) and B2NGO (Business to NGO). It currently has a
team consisting of five professionals in the area of nanotechnology research and innovation,
nanotech International Sales/Marketing/Business Management and Economics.
The core team is closely linked to the field of applied nanotechnology; and is backed by
experienced and strategic partnerships with leading Spanish technology centers, participating
actively on European Union FP7 Program, (Horizon 2020). We cooperate deeply with technical
institutes, universities and internationally recognized private companies.
The 42TEK S.L., company is embedded in the framework of several programs consisting of
technological centers and specialty clusters connected to the European Union´s concerted
nanotechnology drives, and we participate at an international level on several project fronts.
We participate on the research and technological development of the products in our industry,
and have been part of the elaboration nanotechnology Road Maps as a contributing
participant in the field of research for the greater Valencia Region of Spain, and its
communities, a hotbed of nanotechnology world-wide recognized.
This awards us with a unique set of opportunities through strategic agreements in the
application of smart materials, products, and proprietary processes all of which have in
common and are focused on: the sustainable decontamination of water for industrial,
agricultural and consumer use.
These solutions are environmentally sustainable applicable in urban and rural areas, and
particularly in cities hampered by both the lack of water and the usual new and emerging
contaminants. The water sectors addressed include: gray and black wastewater treatment,
potable water, industrial hazardous contaminant remediation, ultra-pure water, and
desalination.
42TEK S.L. has contractual agreements for the representation of exclusive patents and for the
commercialization of these solutions in the field of nanotechnology production and applied to
water decontamination. This development is approved for the implementation in all water
sectors, and is currently undergoing certification at nationally recognized laboratories.
42TEK S.L. seeks a shareholder partner who can take an active role in the company by creating
new identified opportunities and to generate the needed turnover by implementing our
products and services, which are proven to be economically viable as an upgrade to existing
systems for water purification of contaminated water, or new construction. As a case in point
we have a singular solution for the removal of difficult and damaging Arsenic levels mandated
by the World Health Organization and the EPA for the levels required to be used in potable
use, or irrigation based on mesoporous media substrate treated with Fe, and Mn oxides.
We are also seeking funding for R&D, and the patenting of a set of products for the selective
separation of dissolved metals in the process of water purification. Our focus is the research
and development applications into innovation that ultimately produce a prototype design
enabling new ways to increase the performance of these improve our own capability to
produce clean water in more efficient ways.
2. Proposed products/services/solutions
Our products and suppliers are categorized into three different strata:
a.
b.
c.
Those that are fully owned by 42TEK, and are fully developed products and therefore
where we have absolute global commercial exclusivity.
Products from selected suppliers that allow a particular geography for exclusivity as a
master distribution agreement, from leaders in our industry.
Products suppliers or partners that make up a part of the solution which is then
integrated into a new solution to market with a uniquely value added proposition.
Our Intent to become worldwide leader supplier of nanoparticles materials such as titanium
dioxide (TiO2), with our own patented method allowing drastic reductions manufacturing of
prime material and its derivatives. The specific nanomaterials that our newly patented
reactor positions us in a strategic entry point to incorporate us directly into the market as a
disruptive technology, with the advantage of enhancing superior properties to existing
products in the marketplace.
Our products are being showcased in the upcoming publication published on October 2013
titled ¨Aquananotechnology: Global Prospects¨ by David Reisner PhD., and CRC Press, USA. It
will include the following 6 chapters, which serve as our general product lines:
2.1 Water Nano-filtration using Advanced Water Nano-filtration systems by mesh
carbon nano tubes (CNT) with the global patent holder for the purification of
water by carbon nano tubes. The patented solution uses a mesh formed with CNT
nanotechnology to provide a filtering capability and unprecedented water
purification. These advanced nano filters are able to eliminate odor and taste of
water and bio-contaminants such as viruses and bacteria, Cryptosporidium and
Giardia among others, present in other surface waters. Also partially reduce heavy
metals like lead, mercury or arsenic, also eliminating organic matter and
sediments.
2.2 Advanced Oxidation by heterogenous photocatalysis (AOP) has a number of
patents in the use of ultraviolet light for disinfection and decontamination of
water. These products have the advantage of performing five different reactions
during water purification: photolysis, photo-catalysis, Photo-Redox, Photoadsorption and photo-disinfection so far the most potent system and produces
ultrapure water for use in laboratories, hospitals, and semiconductor
manufacturing. It operates by applying a nano layer on a substrate. The
photocatalytic reactor is a powerful scavenger of water at point of use as tertiary
treatment.
2.3 Atmospheric Water generation and capture by a environmentally friendly
technology that requires no power to generate high quality water through rainfall,
mist, fog and dew capture and its subsequent storage, specifically designed to
ensure optimum yields and duration in different climatic conditions. The
technique was recognized internationally, winning the Gold Medal and the
congratulations of the International Jury at the 28th Swiss Exhibition in Geneva,
and the Special Prize of the Swiss Society for the Protection of Environment. These
systems include not only the capture of water, but its proper storage, treatment
and distribution to use which makes it economical and rational, i.e., that meets the
needs of "drinking water", "hot water", "water for irrigation¨ and for ¨consumer
products" and still other water usages. No need on mixing these categories into
single "water from the tap." Systems can provide water in rural points where the
centralized supply is expensive or difficult to install. With no need for power, they
do not generate waste and are low maintenance; they become an effective and
environmentally friendly way to give water to remote mountain lodges, animal
watering, replenishing dry springs, desertification, etc. Especially considering that
the water used does not alter the reserves, is continually renewed. The system
provides high purity water at high quantities for: human consumption, domestic
water, agricultural irrigation or forestry, and livestock, landscape irrigation, in fire
safety systems or water reinjection aquifer, supplies isolated areas and those of
low quality water. In conjunction with a cogeneration Power Plant and with microhydraulics expands its production.
2.4 Sonophotocatalytic Cavitation
Currently in the process of patent solicitation in the USA (, and through the Madrid
protocol a novel system that capitalizes on the photonic properties of cavitation
Photocatalytic applied research coupled with the use of nano composites are
being applied to the growing need to efficiently and economically purify water
currently available to us as titanium dioxide TiO2, doped Ag, Au, or N as well as the
use of novel graphene, where we can achieve higher yields in the production of
hydroxyl radicals (OH.) in resonant acoustic cavities with advanced photocatalytic
oxidation methods (AOP).
2.5 Ultrapure Water Reactors
Generation of ultra high purity water product with applications in the chemical, or
health industry, includes pharmaceutical, hospitals, laboratories and
semiconductor manufacturing industry. An effective means of generating clean
water using advances on custom reducing organic compounds by oxidation even in
the absence of photocatalytic reactions, and achieve high purity water to ultra
pure lab grade usage.
2.6 Nanoparticle Reactors
In the past two years our researchers have begun to use supercritical fluids (SCFs)
as a medium for metal nanoparticle growth. Supercritical fluid precipitation
processes can produce a narrow particle size distribution. A gas becomes a
supercritical fluid above a critical point, at a certain temperature (critical
temperature, Tc) and pressure (critical pressure, Pc). SCFs possess properties that
are intermediate between liquids and gases. Generally CO2 is used because of its
relatively mild supercritical conditions (Tc= 31°C, Pc=73 bar). Moreover, it is
inexpensive, non-toxic, non-corrosive and not explosive or flammable. A possible
refinement of the supercritical fluid technology involves the stirring of surfactants
(see glossary) with an aqueous metal salt solution in supercritical CO2. This
process leads to the formation of micro-emulsions, which can be viewed as
potential nano reactors for synthesizing extremely homogeneous nanoparticles.
3. Market and competitors
Conservative estimates for 2010 worldwide production of nanomaterials was to be 21,713
tons, a tenfold increase from 2002. Optimistic forecasts for 2010 are 31,574 tons. The
conservative market value is currently $2.64 billion. The production volume in 2016 is
conservatively estimated to more than double to 44,267 tons, driven by demand from
applications in electronics, energy, medicine, chemicals, coatings and catalysts.
Market Sectors
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Water Engineering
Mining
Private and public Hospitals, health industry.
Civil Construction and Heritage Building Restoration
Agriculture, Aquaculture, and general food industries
Public Water Works, Water Engineering Firms
Hospitality and Tourism
Building Maintenance
Swimming pools, spas, and water sheds, ponds, and lakes.
Social Housing
Wood, and Metallurgical industries
NGO and foundations
Industry, Market Size: Past, Present, and Future
Analysis of the collected publications follows that nanotechnology is, globally, on a stage
where efforts are focused on obtaining new materials, device fabrication, the practical study of
new phenomena, testing and use of theoretical predictions and application development. It is
for this reason that the majority of published work has been experimental in character.
Nanotechnology scientific production of the European Union as a whole, is slightly higher than
the U.S. (29% vs. 26.83%), standing as the leading world power in this field. This reflects the
momentum that nanotechnology is receiving in Europe, especially in countries like Germany,
Britain, France, Spain, Italy and Ireland. Furthermore, U.E. is working hard with the goal of
becoming the world power based on knowledge, within ten years, which has led the drive
since its inception, nanotechnology (Lisbon Strategy).
The distribution of scientific publications on nanotechnology in the EU countries where
Germany produces more than a quarter of nanotechnology publications of the Union, and ten
member countries account for almost 90%, while the remaining 10% is divided among the
other 15 members. Spain is among the top five countries that publish scientific papers in the
field of nanotechnology in Europe and among the 12 most published nations worldwide,
important data on the development and potential of this technology entrepreneurship
Spanish.
This market study reveals however, that not all industrial applications of nanotechnology
inspired the same interest. While this was great in biotechnology, pharmaceutical and medical
applications, technologies and computer communications environment, such relevant fields as
textiles or production processes.
The situation is analogous in the case of nano-structures and nano-elements. Most of the
expressions of interest are concentrated in the areas of nano-compounds and nanoparticles
and nano-aggregates. In contrast, another type of nano-structures such as semiconductor
structures or porous materials just showed signs of much interest.
Nanotechnology European projects coordinated from Spain, as they were led from universities,
companies or the CSIC. It is observed that coordination responsibility is shared equally
between the CSIC and universities, while the number of projects coordinated from the private
sector, is significantly less with a clear upward trend due to recent budget cuts in R&D+
innovation putting it at risk of considerable setbacks.
Equally surprising is that 25% of patents found are individual applications. In some cases, it
may be a pure business strategy to conceal the strategic lines followed. Thus, the inventions
are hidden under the name of individual applicants, making it difficult to track the business
entity that performs labor or sponsors.
The four most interesting markets for companies and Spanish inventors include: USA, Latin
America, Europe and Middle East. The percentage of franchises in United States is over sized
by the fact that, as explained earlier, found several patents inventors result of collaborations
between Spanish and American companies, always more interested in their local market in
Spanish or even European.
In the classification of patents in nanotechnology, and with Spanish participation, according to
according to their industrial applications, excel applications on the medical and pharmaceutical
industries, among which are found numerous patents on methods of obtaining nanoparticles
and other nano elements applicable to the distribution and use of drugs, as well as new
diagnostic methods.
SWOT Analysis (Strengths, Weaknesses, Opportunities, Threats)
This analysis is based on information collected during the preparation of this study and the
experience and knowledge 42TEK S.L. staff that has accumulated over the years in reference to
micro-manufacturing technologies, new developments and future patents for different
segments related market application of nanotechnology and the use of these materials in
sustainable Water generation and remediation.
Strengths
• The research and development of nano-materials
• In research bio-mimetic (a major source of nano-Innovations)
• Research in nanoelectronics and IT, including quantum computing
• Nano research in toxicology, both in vitro and in vivo
• Nano research in photovoltaic
• In research and development nano-sensors
• A strong industrial base in instrumentation
• In the nano-diagnostic medicine in general (including images), the regeneration of
tissues and organs and drug delivery
• Cultural differences resulting in innovative ways to address research
• The ability to work in team
• From access to mathematics and physics experience what was the Eastern bloc
• Acceleration of the new company up training
• The European opening in the development and adoption of environmentally friendly
technologies
• Europe, openness to developing technologies for less developed regions
Weaknesses
• The lack of knowledge about these technologies coupled with the rapid evolution of
the same, especially in terms of research, prevents many companies from assimilating
and incorporating them into their products and processes.
• In some cases the investments required for implementation in industrial processes
are very costly, which makes it impossible to access them in general.
• The application of micro-technologies in many cases is that in the beginning you
need to use basic research projects, where the risk to achieve satisfactory results in
the short term is high.
• Need for specific training, when new technologies and with the addition of research
and development requires high and multidisciplinary training.
• Lack of cooperation between different companies / institutions both regionally,
nationally and internationally since in many cases the implementation of these
technologies requires a cooperative environment high both among firms, and between
research centers and University.
• Lack of scientific and technological resources and lack of skilled human resources.
• Critical issues (ecological crisis, poverty and disease) is not clearly in the Lisbon
Agenda or proposed research framework program of the EU
• The lack of a control panel for earth-friendly: research, regional, national or EU level.
• There are no clear routes of technology transfer to less developed countries.
• The research infrastructure is fragmented across Europe and the lack easy and
affordable access by industry to the state of the art.
• Nationally variable industry ¨ ¨ pull-through are not being well managed.
• Variable incentives and cultures to support entrepreneurship create obstacles.
• European funding highly slow and bureaucratic.
• There is no support in Europe for the individual genius.
• It is not enough synergy between regional, national and EU projects
• Academic research is often industry
• Funding can be duplicated
• There is sufficient balance between research and implement practical and affordable
solutions.
• Lack of tax incentives for environmentally friendly technologies, also
• The lack of legal incentives.
• Low Rise critical core technology of recent research by budget cuts
Opportunities
• In the current context, customers increasingly demand high value-added products
that integrate intelligence and multi-functionality.
• The globalization of markets is necessary that countries with higher technological
level increasingly bet technologies that respond to such demands.
• The areas of application of micro-fabrication technologies are characterized by high
implementation and knowledge resources for use, so that it is one of the key
technologies identified in Europe.
• The use of these technologies is an advantage and a clear opportunity for companies
that have begun to implement in their products and / or processes such technologies.
• The micro-technologies have applications in almost all industry sectors, so it is hard
to think of an industry that can not be benefited in any way by the application of the
same.
• Within the European and international forums, micro-technologies are classified as
strategic sector. That is why companies are promoting projects and basic and applied
research related to nanotechnology.
• The development of widely applicable technologies (sensors, renewable energy, etc.)
• The creation of new technologies (medical and nonmedical) to support aging/
disadvantaged/sick
• Reduction of animal experimentation by testing cell-based toxicity
• Opportunities critics specialized in areas such as lab-on-a-chip sensor technology.
Threats
Strategic Development Agenda (SRA) platform for manufacturing in Europe (MANUFUTURE) in
its document "Vision 2020" indicates that emerging countries threaten manufacturing
companies in Europe, for the low cost of labor.
These technologies are being developed and not betting on them from the beginning can take
its toll on medium and long term.
Companies must be able to identify which technologies will enable to maintain their level of
competitiveness in that period. The development of nanotechnology is based on the growing
global market demand parts and systems demand increasingly smaller at a reasonable price
and with superior performance. Presence of micro technology SME in one of the most
productive sectors.
• The brain drain in the life sciences, electronics, computer science and engineering
• World domination achieved through the application of military research inspiration
• Europe's inability to effectively market the publicly funded research
• Negative public reaction to nanotechnology
• Too little, too late, of the technologies that really matter
4. Business model
Our business model has in mind the partnership between business and the wealth-creating
entities that constitute its fundamental core competencies, that is to say, the intellectual
property that gives its own form to the business on which it is based on. For that reason it is
our general premise to closely follow the well guided performance business models after the
Mondragon cooperatives which make it one of the most successful bright spots of all times
and in today’s staggering economy currently battering Spain.
The introduction strategy can be done by granting exclusivity by country or by product or byproducts thereof to companies well positioned in the market. Our research, marketing and
product development allow us a wide range of innovative products representation, exclusive,
approved and certified for sale worldwide. Our expertise in nano materials opens a business
line as wide as it is competitive as necessary. We have several innovative and patented
products that we have simultaneously launched.
5. Intellectual property
The tight relationship with the business developer and patent holders is guaranteed to make
and easy technology transfer for those countries that decide without impact of purchase.
Intellectual property itself is protected because the patent owners are the best partners
themselves, allowing mitigating a great deal of risk and participating in the bold lines which
constitute its makeup. This in turns is what guarantees to make technology transfer of the
final products or manufacturing processes, and to establish the marketing or manufacturing or
licensing of the final products by vertical markets or geographical areas.
6. Management team and advisers
The management team is comprised of 5 people and the advisers include the patent.
Reyes Rodriguez - Co Founder and General Manager-Administrator.
Ms. Rodriguez has over a decade in the application of nanotechnology products for the
construction sectors, and first introduced these materials to the ceramics industry located in
the Valencia and Castellon areas of Spain, setting up the first such cluster for joint
development and working with the ITC (technical institute of ceramics for the UJI (University
Jaume I).
Tony F. Diego - Co Founder and CTO.
Patent applicant - Sonoluminescence Reactor. Mr. Diego´s background as a physicist and
physical oceanographer brings a rich background having worked at some of USA most
recognized laboratories such as the Nuclear Physics, and the Applied Physics Laboratories at
the University of Washington. Worked at Microsoft, AT&T, Lucent, Fujitsu and MCI under Vint
Cerf, considered being widely considered the father of the internet.
Guy Baret, PhD. CEO, Luxol Company.
Patent Holder Nanoparticles Synthesis Reactor. General administration of SME, Financing of
SME's. Experience in inorganic materials, photovoltaic devices, displays and nanotechnologies.
EU FP7, Horizon 2020 Evaluator.
Expert for national, European programs and international projects. 58 patents filled since 1990
Specialties: development of technological solutions, patents, technical expertise
GM-CEO. Luxol Photovoltaic. Luxol develops photovoltaic roof tiles.
Partner Gritche Technologies. Gritche Technologies is providing technical solutions based on
nanomaterials (tagging, printing, hard coatings, fire retardancy, biocides).
CEO DGTec. DGTec was involved in nanomaterials development and production.
Engineer Thomson Plasma. Development of plasma display panels: technology, materials
equipment.
David Reisner, PhD. CEO Inframat Company.
Patent Holder-Mesoporous Arsenic Remediation. Professor Reisner is a true visonary of
practical nanotechnology applications, committed to creating an enterprise with meaningful
products. Mr. Reisner has a long career track record in the nanotech industry as an
entrepreneur and a recognized editor in this field.
Editor
"Aquananotechnology: Global Prospects",
Section Editor
"Rights of Spring: How Social Media Became a Linchpin for Revolution",
"Handbook of Research on Biomedical Engineering Education &
Advanced Bioengineering Learning",
"Bionanotechnology: Global Prospects",
"Bionanotechnology II: Global Prospects”
Founder, International Sales Leader, the Nano Group, Inc.
Board of Directors Connecticut Venture Group, Hartford Chapter
Advisory Board Nano Business Alliance
Volunteer Haitian Health Foundation
CEO-Nano Land America, Inc.
President / CEO the Nano Group, Inc.
President / CEO Inframat Corp.
President / CEO US Nanocorp, Inc.
Connecticut Technology Council Chairman
Connecticut Technology Council
Managing Director Delta Capital Group
World Economic Forum Technology Pioneer World Economic Forum
Section Editor "The Biomedical Engineering Handbook" 3rd Edition
VP R&D Electro Energy, Inc.
Dir R&D Electrochimica Corp.
Postdoctoral Fellow IBM Research San Jose
Education
The Chief Executive Leadership Institute
Yale School of Management 2004 – 2008
Massachusetts Institute of Technology, Physical Chemistry 1978 – 1983
Wesleyan University, Chemistry and French Literature 1973 – 1978
Zaki Ahmad, PhD. Professor Emeritus, King Fahd University. Saudi Arabia
Patent Holder - Crumb Rubber. Professor Zaki Ahmad worked at King Fahd University of
Petroleum and Minerals for thirty years and rendered distinguished services in teaching and
research. Obtained his PhD from Leeds University, UK.
He is a chartered metallurgical engineer(C. Eng) from engineering council UK and a fellow of
the Institute of Materials, Minerals and Mining (FIMMM). He is a member European
federation of corrosion and a Fellow of Institute of Metal Finishing, Institute of
nanotechnology, TMS, USA and International Society for professional Innovation management.
He substantially contributed to the founding activities in material science, corrosion
engineering and nanotechnology at KFUPM and in Iran. He worked on international projects on
aluminum with Aluminum, Ranshofen, Austria and Forschungzentrum, Geethscht, Germany
and with Metallgesselscheft, Germany and currently with a Swedish University.
He is a member of the board of director and technical advisor of 42TEK S.L. in Spain devoted to
the implementation research and development of emerging new technologies including
nanotechnology and biomimetics. He worked on international projects with Ministry of
Technology, Germany. He is a founder contributor of Center of excellence in corrosion at
KFUPM, Dhahran, Saudi Arabia. He contributed to the foundation and development of
nanotechnology in Saudi Arabia in 2004. He has written over 100 research papers in
international journals and over forty papers in international research conferences. He has
offered over thirty five short courses and workshops to industry.
His current research activities are mainly related to nanotechnology. He was nominated for
best researcher award in the Middle East by Energy Exchange in 2011. He is the founder of
center of excellence in corrosion and initiated nanotechnology activities in Saudi Arabia. Mr.
Ahmad has contributed to the establishment of Center for Nanotechnology, at KFUPM,
Dhahran Authored a book on Principles of Corrosion Engineering and Corrosion Prevention,
Participant in several involved International projects related to nanotechnology, corrosion Eng,
and Materials Science.
Carlos A. Sanchez, PhD Natural Aqua Founder-CEO
BSc Computer Science from the UPM.
DS Computing Environment (Rasgrad-Bulgaria)
Water Management Technician UCM.
Management Technician Physical environment (MMA Madrid)
Gold Medal with Jury Congratulations International
Special Prize of the Swiss Society for the Protection of the Environment
Award R&D+i "European Good Ideas" in Natural Aqua Project "ANAGUA".
XXI Entrepreneur Award Ministry of Labor and the La Caixa Foundation for the CA Canaries.
Patent Holder Aquair. University of Sofia (Bulgaria), computerization programs in
Environmental, Agricultural, and Veterinary Center Rasgrad Systems. He has participated in
various computerization projects designing agricultural and livestock in the Community of
Madrid, including the CONDOR project for the Department of Agriculture and Livestock of
Colmenar Viejo, presented to the Autonomous Community as standardized development
model. Research in the field of Environment and Water, working specifically in the
redevelopment of abandoned and Atmospheric Water capture and runoff control. Designs,
develops and patents Aquair Optimizer teams with legal rights in Spain, EU, Mexico and West
Coast of Africa.
Also officially been present in the European Project Leader II and have been selected as
Preferred Environment Project in LEADER PLUS Program. He has taught numerous courses for
both private (Instituto de Empresa in Madrid, ICSA). Public Administration (INAP, ITC, Water
Council) Participant and lecturer in various conferences in and out of Spain. He lectures and
contributes to European programs with the theme of Atmospheric Water Capture, reserve
recovery and optimization of water resources. He is an active member of the Program
Management 2000 Invent.
Atmospheric Water "Aquair Optimizer" and optimization, design of new equipment for the
effective control of basic runoff, and providing advisory services to private and public
administration in the Environment sector in the water catchment area atmospheric recharge,
anti fire belt design and mediocrities recovery.
RAAD Systems (Networks Decentralized Water Supply) in La Palma, Fuerteventura, La Gomera
and El Hierro and Dysdera Project (Design and Monitoring Collection of Water Stations),
funded by the Interreg III B EU MAC, which has created the first ring controlled television
stations in Micronesia.
He has designed the training program "Fabrication + Installation" within the objectives of the
National Plans International Cooperation, which aims to implement the technology in Third
World countries by providing Local Groups all the knowledge needed to ensure their
independence in making and installation of equipment after the initial Technical Assistance.
The first implementation of this program has been conducted in the Dominican Republic.
Program "Water for Life 2005-2015" UN gave jointly to Professors Alain Gioda (IRD, France)
and Percy Jimenez (University of Arequipa, Peru) The catchers Conference, Technical evolution
of Atmospheric Water Capture in the World ".
University of Valladolid in the preparation of the book (research synthesis Capture Technique
Atmospheric Water in the World), "Hydrology Water Conservation", sponsored by the Ministry
of Environment and Rural and Marine Affairs and the Interuniversity Institute Collaboration.
Borja Raad Albacar, Business Consultant
Raad Borja started his career in the Balearic Islands as a partner and manager of four dining
options and sports promoter. Later he graduated in Economics in Holland, extending their
transcript with marketing studies, international trade and several monographs.
He has worked as a founding partner of a company dedicated to the production of cultural
events throughout Spain, as Managing Director of a shopping center in Valencia, as Chief
Commercial Officer of a press publishing group with over 30 headers on different market
sectors , as vice president of a company dedicated to the development of software for the
transport and logistics sector, as director of group expansion Chirivella Monrabal furniture
manufacturer and participates as a partner in several companies engaged in commodity
trading and other products to Eastern Europe, Russia, Africa and South America and as an
external collaborator of the company engaged in the exploitation and marketing of derivatives,
Star Petroleum.
Evaluate Group-Business Consulting Group. www.evalueconsultores.com covering all aspects
of business advice regarding legal, tax policy, R&D and commercial strategies and business
development worldwide.