GreenCell Technologies: GASOLINE AND A HYDROGEN-GASOLINE MIXTURE

GreenCell Technologies: EMISSIONS AND TOTAL ENERGY CONSUMPTION OF A MULTICYLINDER PISTON ENGINE RUNNING ON GASOLINE AND A HYDROGEN-GASOLINE MIXTURE

Johz F. Cassidy Lewis Research Center. Chehnd, Ohio 44135 An experimental program using a multicylinder reciprocating engine was performed to extend the efficient lean operating range of gasoline by adding hydrogen. ^{Both bottled hydrogen and} hydrogen produced by a research methanol steam reformer were used. ^{These results were} compared with results for all gasoline. A high-compression-ratio, 7. 4-liter (472-in. ³) d i s placement production engine was used. Apparent flame speed was-used to describe the differences in emissions and performance. Therefore, engine emissions and performance, including apparent flame speed and energy lost to the cooling system and the exhaust gas, were measured over a range of equivalence ratios for each fuel. The results were used to explain the advantages of adding hydrogen to gasoline as a method of extending the lean operating range. ^The minimum-energy-consumption equivalence ratio was extended to leaner conditions by adding hydrogen, although the minimum energy consumption did not change. ^{All emission levels de}creased at the leaner conditions. Also, adding hydrogen significantly increased flame speed _{over all equivalence ratios.} Engine performance and emissions with hydrogen from the methanol reformer were about the same as those with bottled hydrogen.

GreenCell Technologies, Canada - An experimental program using a multicylinder reciprocating engine was performed to extend the efficient lean operating range of gasoline by adding hydrogen. Both bottled hydrogen and hydrogen produced by a research methanol steam reformer were used. These results were compared with results for all gasoline. A high-compressionratio, 7.4-liter (472-in. ³) displacement production engine was used. Apparent flame speed was used to describe the differences in emissions and performance. Therefore, engine emissions and performance, including apparent flame speed and energy loss to the cooling system and the exhaust gas, were measured over a range of equivalence ratios for each fuel.

The results were used to explain the advantages of adding hydrogen to gasoline as a method of extending the lean operating range. The minimum-energy-consumption equivalence ratio was extended to leaner conditions by adding hydrogen, although the minimum energy consumption did not change. All emission levels decreased at the leaner conditions. Also, hydrogen addition significantly increased flame speed over all ^{equivalence ratios.} Engine performance and emissions with hydrogen from the methanol reformer were about the same as those with bottled hydrogen.

GreenCell Technologies, Canada - INTRODUCTION . Increasing the efficiency of reciprocating engines has constantly been pursued since Otto-cycle engines were first used as vehicle powerplants. The important effects of fuel consumption on factors such as vehicle range, operating cost, and vehicle structures have always been important design considerations. During the past decade, the impact of environmental factors and a national interest in energy conservation have accentuated the need to produce clean and efficient engines. ^{Many concepts for im}

proving efficiency and meeting emissions standards have been tested and reported in the A review of the literature dealing with the problems of lean-mixture-ratio operation shows that a fuel with a low lean flammability limit and a high flame speed might yield low exhaust emissions at ultralean conditions. Hydrogen was identified in reference 5 as having those properties and has been the subject of much investigation. ^{Using a small} quantity, on a weight basis, of hydrogen as a supplement to gasoline was chosen as a way to extend lean engine operation. Onboard generation of hydrogen was selected as a feasible way to use hydrogen in a mobile application. The Jet Propulsion Laboratory _I conducted a similar program (refs. 6 and 7) in which hydrogen generated by the partial oxidation of gasoline was used as a fuel supplement for lean engine operation. Various  commercial processes to generate hydrogen were analyzed for their applicability. The catalytic steam reformation of methyl alcohol (methanol) using engine exhaust heat was selected as being the most efficient process to generate hydrogen that was also compact enough to be carried on a vehicle. One disadvantage is that it would require a second fuel and a second fuel system.

A research system to generate hydrogen by methanol reformation was built and installed on a multicylinder engine in an existing engine test setup. An independent and parallel program on catalyst evaluation was performed but is not part of this report. An engine test program was conducted using gasoline and additions of gaseous hydrogen and reformed methanol to evaluate the effects of hydrogen-gasoline fuel mixtures on exhaust emissions, extension of lean engine operating limits, and fuel flammability limits and combustion flame speed.

GreenCell Technologies, Canada - This report presents a brief description of the breadboard methanol reformation system and the results of fuel and engine testing. The data were taken in the U. S. customary system of units and converted to SI units for this report.

GreenCell Technology is a Canadian company dedicated to designing and bringing to market, technology-based products in the alternative energy market. The current product is called the HydroCell, an on-board on-demand hydrogen generator engineered specifically for Diesel Transport Trucks.

Greencell Technologies – The Issues

For years scientists have been experimenting with bacteria in an effort to solve the dual problems of global warming and renewable energy, a result of the use of fossil fuels, and the need to develop alternative fuel supplies.

Avoid getting taken by Internet scams. Protect yourself and keep updated. Help support scam and fraud busters.

Algae in their many forms already produce up to 80% of the world’s oxygen through the process of sequestration of CO2 from the atmosphere. This is an established and well-known part of the eco-system. Concurrently, the biofuel community has always had the expectation that biofuels would one day play a significant role in our energy future. There has been much scientific research that leads in this direction. The major problems encountered, ones not hitherto overcome, are: to exploit the known science, vast tracts of land or sea have had to be employed; and the algae employed have typically simply died before the end of the process.

In summary, the processes employed to date have been wasteful in both resources and space, and inefficient.

GreenCell has invented and patented a process that overcomes these problems: the process is compact, efficient and measurable.

Greencell Technologies – The Science. Between 1978 and 1996, the US Department of Energy funded research into technologies that could have significant impacts on the consumption of fossil fuels. The focus of this research became the Aquatic Species Program, which investigated renewable fuel production (bio-diesel) from high-oil algae species, fed by the waste CO2 from coal-fired power plants. Researchers whittled down over 3,000 strains of micro-organisms into the most productive 300, and constructed 1000 sq. meter test ponds outside of Roswell, NM.

The ponds were set up as sort of algae ‘race-tracks’, where algae were circulated around shallow, oval-shaped ponds as carbon dioxide bubbled through the mixture. Results were successful and in some ways encouraging, but the program was abandoned after almost two decades, as a result of budget constraints and a preference for allocating resources to researching ethanol as a substitute for low cost fossil fuels.

GreenCell develops the GNUL Bio Processor

GreenCell Research Pty Ltd has now taken these ideas to the next level. Utilizing the intellectual property of Ian Wright, GreenCell Research Pty Ltd constructed a number of bio-processors at Yatala, Queensland to prove the concept. Scientists from the Atmospheric Research Facility at CSIRO, Australia’s national science agency, provided advice on algae selection. To minimize the use of land and water resources, a proprietary bio-processor was created to grow the algae. Invoplas Pty Ltd, a plastics R & D company, built the processors.

The final bio-processor has been named the GNUL - “lung” in reverse - breathing in CO2 and breathing out O2.

About the GNUL

The World now realises what the Earth has been trying to say for some time…. It is running out of breath and now is the time to act, before it is too late. The GreenCell GNUL bio-processor - which can be built into the infrastructure that creates our greenhouse gases - turns our worst problem into our greatest asset. The GNUL replicates lungs that breathe in CO2 and other polluting elements and breathes out sweet oxygen, cleans water for re-use and turns bio-waste into useful by-products. It’s what nature has been doing since life on earth began. A low-energy natural process with measurable results. Now we can all be part of a solution, instead of the problem.

Greencell Technologies - Revolutionary LED lighting from Tritechnology™ illuminates the Green House Project

A ground breaking initiative by Huntingdonshire District Council called the Green House Project has opened in St Ives Cambridgeshire. Tritechnology™ are pleased to have supplied the LED lighting throughout the house.

The Optech 40 and Optech 60 LED modules have replaced conventional 40watt and 60watt lamps in all of the decorative ceiling lights ,wall lights and standard lamps throughout the property. Tritechnology™ Module 10 LED has been used in all of the ceiling recessed downlight products
The Optech 40 and Optech 60 is a revolutionary, energy efficient ultra compact new light source, combining the lifetime and reliability of the worlds leading LED technology, with the convenience and brightness of conventional lighting The Optech 40 consumes just 7 watts and the Optech 60 just 10 watts. Achieving energy savings in excess of 80%.
All electrical, thermal and optical issues have been considered in the design, resulting in a light source that is simply plug and play
Optech 40 or Optech 60 LED modules can replace the conventional lamp and lamp holder within the majority of commercially available light fittings.
With this method the energy saving is truly sustainable. Optech is British designed and British made. Tritechnology™ is a registered trademark. If you would like more information about how to purchase this product contact Peter Malt at peterm@esea.org.uk
The Greencell technologies - Home energy use in the UK is currently responsible for producing more than 27% of all carbon emissions.
Whereas progress to reduce this is being made by improving the energy performance of new build properties, we must face the huge challenge of addressing existing, older inefficient properties, many of which will still be standing and occupied by 2050.
Such inefficient homes account for more than 90% of the existing housing stock, which highlights the importance of adapting them to suit 21st century living. Improving the thermal efficiency of existing properties will not only help meet the challenges of climate change, it will help householders tackle rising fuel costs, encourage well being and a provide a healthier living environment.
As part of Huntingdonshire District Council’s commitment to reduce carbon emissions and tackle climate change, we have purchased two properties, which will be ‘sustainably’ refurbished and opened up to the public as demonstration homes.
In Huntingdonshire approximately 67,000 homes are privately owned. There is huge potential to improve the energy and water efficiency of the properties, which will help to reduce the district’s carbon footprint and bring existing homes up to a higher level of environmental performance.
The UK Government is committed to reducing carbon emissions by 80% by the year 2050.
If we are to reduce our carbon emissions and help slow down the effects of climate change we need a step change in our thinking – the way we live, travel and refurbish our properties plays a major part in that. It’s important for the Green House Project to demonstrate and influence sustainable refurbishment and to encourage a ‘low carbon lifestyle’.
The district council is working with the Building Research Establishment (BRE), whose expertise and guidance is integral to the project. The BRE will be providing the specifications for the improvements, which will be based around the results of extensive thermal and acoustic testing which has already been undertaken in both of the houses.
The Greencell technologies - The Green House Project will take a ‘whole house’ approach to refurbishment, starting with the building fabric and insulation, windows, heating systems, ventilation, water efficiency measures and the installation of renewable energy technology including solar thermal for hot water and solar photovoltaics (PV) for energy.

GreenCell Technologies: Pepsi Bottling Group Acquires Hydrogen-Injected Trucks

GreenCell Technologies, Canada: WYTHEVILLE, VA – The Pepsi Bottling Group's truck fleet in the New River Valley region of Virginia has added 21 hydrogen-injected trucks in an effort to boost fuel efficiency and reduce emissions. 

The trucks were purchased from Hydrogen Leasing Co., a subsidiary of Dynamic Fuel Systems' U.S. dealers, Hydrogen Fuel Systems Inc. 
GreenCell Technologies, Canada: Dynamic Fuel Systems Inc., based in Canada, provides a transportable hydrogen generator retrofit targeted for use in the heavy tractor trailer industry. 
The Pepsi Bottling Group's new hydrogen-injected trucks are equipped with Dynamic's Jetstar, an onboard portable hydrogen generator that injects small amounts of hydrogen into the air intake as a combustion stimulant. The process is designed to reduce nitrogen oxides and hydrocarbon emissions, resulting in more power and better fuel economy. 
GreenCell Tek Canada: "The expansion of our fleet of alternative-fuel vehicles in the New River Valley region signals our commitment to playing an active role in helping Virginia achieve its long-term energy and climate objectives," said Bill Reeser, vice president and general manager of Pepsi Bottling Group's Virginia market unit. "These investments will also generate future cost savings for PBG, making it a winning proposition for everyone involved."

GreenCell Technology is a Canadian company dedicated to designing and bringing to market, technology-based products in the alternative energy market. The current product is called the HydroCell, an on-board on-demand hydrogen generator engineered specifically for Diesel Transport Trucks.

The HydroCell produces Hydrogen Gas, on demand, and adds it to the air drawn into a diesel engine. This small quantity of Hydrogen has large effects on the combustion process. The result is approximately 10% fuel savings and up to a 60% reduction in greenhouse gas emissions (nitrous oxides, hydrocarbons and carbon monoxide).

GreenCell Technologies is also involved in the Solar Energy market. We are currently conducting research and developing strategies to open an alternative energy division that will offer product, consultation and installation services for the Canadian market.

GreenCell Tek Canada: The HYDROCELL system is a safe and reliable product designed exclusively for the Diesel Transport Truck market. The HYDROCELL draws only 25 Amps from the vehicles 12 Volt system and generates enough hydrogen through-out the entire RPM range to enhance combustion.

GreenCell’s advanced feedback system monitors several conditions and adjusts the electrolysis process, to provide safe and efficient production of Hydrogen gas. The system was designed to operate in a temperature range of -40 to +60C and has an in-cab indicator to show system status. Installation requires no modification to the engine and does not affect the manufacturer’s warranty. The only maintenance needed is the addition of distilled water every 250 hours of operation.

GreenCell Tek Canada: It has been proven in validated tests that adding Hydrogen to fuel in an internal combustion engine will increase the flame speed. At various RPM’s the fuel that is present in the cylinder is not completely burned during the combustion cycle due to the flame speed of petroleum based fuels and the amount of time the combustion cycle is allowed, due to engine speed and load. 

GreenCell Technologies: Pepsi Bottling Group Acquires Hydrogen-Injected Trucks

GreenCell Technologies, Canada: WYTHEVILLE, VA – The Pepsi Bottling Group's truck fleet in the New River Valley region of Virginia has added 21 hydrogen-injected trucks in an effort to boost fuel efficiency and reduce emissions. 

The trucks were purchased from Hydrogen Leasing Co., a subsidiary of Dynamic Fuel Systems' U.S. dealers, Hydrogen Fuel Systems Inc. 
GreenCell Technologies, Canada: Dynamic Fuel Systems Inc., based in Canada, provides a transportable hydrogen generator retrofit targeted for use in the heavy tractor trailer industry. 
The Pepsi Bottling Group's new hydrogen-injected trucks are equipped with Dynamic's Jetstar, an onboard portable hydrogen generator that injects small amounts of hydrogen into the air intake as a combustion stimulant. The process is designed to reduce nitrogen oxides and hydrocarbon emissions, resulting in more power and better fuel economy. 
GreenCell Tek Canada: "The expansion of our fleet of alternative-fuel vehicles in the New River Valley region signals our commitment to playing an active role in helping Virginia achieve its long-term energy and climate objectives," said Bill Reeser, vice president and general manager of Pepsi Bottling Group's Virginia market unit. "These investments will also generate future cost savings for PBG, making it a winning proposition for everyone involved."

GreenCell Technology is a Canadian company dedicated to designing and bringing to market, technology-based products in the alternative energy market. The current product is called the HydroCell, an on-board on-demand hydrogen generator engineered specifically for Diesel Transport Trucks.

The HydroCell produces Hydrogen Gas, on demand, and adds it to the air drawn into a diesel engine. This small quantity of Hydrogen has large effects on the combustion process. The result is approximately 10% fuel savings and up to a 60% reduction in greenhouse gas emissions (nitrous oxides, hydrocarbons and carbon monoxide).

GreenCell Technologies is also involved in the Solar Energy market. We are currently conducting research and developing strategies to open an alternative energy division that will offer product, consultation and installation services for the Canadian market.

GreenCell Tek Canada: The HYDROCELL system is a safe and reliable product designed exclusively for the Diesel Transport Truck market. The HYDROCELL draws only 25 Amps from the vehicles 12 Volt system and generates enough hydrogen through-out the entire RPM range to enhance combustion.

GreenCell’s advanced feedback system monitors several conditions and adjusts the electrolysis process, to provide safe and efficient production of Hydrogen gas. The system was designed to operate in a temperature range of -40 to +60C and has an in-cab indicator to show system status. Installation requires no modification to the engine and does not affect the manufacturer’s warranty. The only maintenance needed is the addition of distilled water every 250 hours of operation.

GreenCell Tek Canada: It has been proven in validated tests that adding Hydrogen to fuel in an internal combustion engine will increase the flame speed. At various RPM’s the fuel that is present in the cylinder is not completely burned during the combustion cycle due to the flame speed of petroleum based fuels and the amount of time the combustion cycle is allowed, due to engine speed and load. 

GreenCell Technologies Inc: Hydrocell

GreenCell Technologies Inc  is a Canadian company dedicated to designing and bringing to market, technology-based products in the alternative energy market. The current product is called the HydroCell, an on-board on-demand hydrogen generator engineered specifically for Diesel Transport Trucks.

The HydroCell produces Hydrogen Gas, on demand, and adds it to the air drawn into a diesel engine. This small quantity of Hydrogen has large effects on the combustion process. The result is approximately 10% fuel savings and up to a 60% reduction in greenhouse gas emissions (nitrous oxides, hydrocarbons and carbon monoxide).

GreenCell Tek is also involved in the Solar Energy market. We are currently conducting research and developing strategies to open an alternative energy division that will offer product, consultation and installation services for the Canadian market.

The HYDROCELL system is a safe and reliable product designed exclusively for the Diesel Transport Truck market. The HYDROCELL draws only 25 Amps from the vehicles 12 Volt system and generates enough hydrogen through-out the entire RPM range to enhance combustion.

GreenCell Technologies’s advanced feedback system monitors several conditions and adjusts the electrolysis process, to provide safe and efficient production of Hydrogen gas. The system was designed to operate in a temperature range of -40 to +60C and has an in-cab indicator to show system status. Installation requires no modification to the engine and does not affect the manufacturer’s warranty. The only maintenance needed is the addition of distilled water every 250 hours of operation.

It has been proven in validated tests that adding Hydrogen to fuel in an internal combustion engine will increase the flame speed. At various RPM’s the fuel that is present in the cylinder is not completely burned during the combustion cycle due to the flame speed of petroleum based fuels and the amount of time the combustion cycle is allowed, due to engine speed and load. The addition of Hydrogen gas increases that flame speed and allows for all the fuel in the cylinder to be burned during each combustion cycle. This increases the power produced during that cycle which results in a net savings in fuel use of 10% on average. Greenhouse Gas emissions are also reduced significantly as the major cause of those emissions is un-burnt fuel in the exhaust.

·         Average of 10% Fuel Savings

·         Produces Hydrogen on demand

·         Operates only when engine is running

·         Low Maintenance – requires water every 200 operating hours

·         Fail-Safe design – stores no Hydrogen

Applications

·         Transport Trucks

·         School Busses

·         Municipal Heavy Equipment – Snow-Plows – Garbage & Recycle Trucks

·         Farm Heavy Equipment – Tractors – Sprayers/Bailers & Harvesters

·         Construction Heavy Equipment - Bulldozers - Dump Trucks – Black-Hoes

·         Diesel-Electric Generators

Solar Energy. GreenCell Technologies is currently conducting research and developing strategies to manufacture Solar Photovoltaic (PV) products and bring them to market. The Solar Energy market is being driven by government incentives including significant rebates and power buy-back contracts. These incentives have fueled a growth of the PV markets in Canada, which have been averaging 26% annually since 1993, and about 36% annually since 2000.

GT5 GreenCell Technologies Expands Marketing Operations; Set to Increase North American Marketshare

January 31, 2011 (Aurora) — GreenCell Technologies Inc. (Frankfurt Open Market: GT5) proudly announced today that Ken Mair, a sales and marketing industry leader, has been named senior marketing manager at the Aurora-based producer of hydrogen injection fuel systems, HydroCell™ and HydroCell Max™.  Mair, who will be based in GreenCell’s head office effective immediately, joins the company after serving in a similar role for numerous businesses targeting trucking firms. 

Mair will oversee requisite marketing, positioning and communication strategies and work together with GreenCell CEO K. Allen Etherington, and executives at Hy-Drive Technologies Inc. (TSX Venture Exchange: HGS) as well.
“We are extremely pleased that Ken Mair is bringing his three decades of phenomenal experience to GreenCell and to our new clients,” says GreenCell CEO K. Allen Etherington. “Ken has previously served as a senior officer for two global companies, experience that is very important as GreenCell grows its sales force across North America and to increase our marketshare. GreenCell is very excited that Ken has agreed to join our expanding team.”
Mair spent ten years with Data General Corporation (a Fortune 500 company) where he held several senior sales and marketing management positions with responsibility for growing the business through direct and indirect channels.  In his ten years at Data General, Mair helped the subsidiary grow to over $100 million dollars in revenue and 200 employees, as the top performing subsidiary in Data General’s global operations. 
Prior to launching Investment Ready Partners and 180 Degrees Consultants, and subsequent to Data General, Mair spent two years as Vice President Sales for a San Francisco-based technology company responsible for global sales operations.  In this role he designed and executed a reseller plan for the company targeting distributors in North America, Europe, Australia and the Far East.  Mair began his career in the construction, software application and distribution businesses.  These experiences give Mair a broad business knowledge that he uses to guide clients across a wide spectrum of industries.
GreenCell Technologies Inc. is a Canadian company dedicated to designing and bringing to market technology-based products for the transportation and energy industries.

 

GreenCell Technologies GT5 Augments Sales Team Targeting North American Logistics Firms

February 1, 2011

(Aurora) – After concluding an extensive search across Canada, GreenCell Technologies Inc. (Frankfurt Open Market: GT5) proudly announced today that Bob Fitzgerald has been appointed manager of their expanding sales team and will join the Ontario-based producer of proprietary hydrogen injection fuel systems, branded HydroCell™ and HydroCell Max™, immediately. 
Fitzgerald will be based at GreenCell’s head office in Aurora, alongside other executives and personnel.  He will oversee all channel sales and report directly to GreenCell CEO K. Allen Etherington, working closely with the recently appointed marketing manager, Ken Mair.
“Bob Fitzgerald brings over 20 years’ experience to our growing organization,” says GreenCell CEO K. Allen Etherington, “while leading companies to success in highly competitive markets.  He is obviously a results oriented leader with a focus on meeting and exceeding customers’ expectations, creating new revenue streams and overachieving sales targets!  We look forward to and are very excited that Bob will be leading our sales efforts into the transportation management vertical.”
Fitzgerald was previously with Research In Motion (RIM), holding the title Global Strategic Account Manager and was responsible for managing direct relationships with North American Fortune 500 customers in the Financial, Energy, Retail and Logistics sectors.  He was primarily responsible for broadening and widening the use of BlackBerry™ devices and solutions within these organizations by mobilizing business process applications.
Prior to joining GreenCell, Fitzgerald spent two years with T4G, an end-to-end technology services company, where he was responsible for New Business Development across North America offering custom application development, infrastructure and security support, user experience and usability, supporting and enhancing content, and Business Intelligent applications as well as analytics.
GreenCell Technologies Inc. is a Canadian company dedicated to designing and bringing to market technology-based products for the transportation and energy industries.

 

 

GreenCellTechnologies: The Garnaut Climate Change Review - Diabolical Problem

A diabolical problem and a saving grace.Climate change is a diabolical policy problem. It is harder than any other issue of high importance that has come before our polity in living memory. Climate change presents a new kind of challenge. It is uncertain in its form and extent, rather than drawn in clear lines. It is insidious rather than (as yet) directly confrontational. It is long term rather than immediate, in both its impacts and its remedies. Any effective remedies lie beyond any act of national will, requiring international cooperation of unprecedented dimension and complexity. While an effective response to the challenge would play out over many decades, it must take shape and be put in place over the next few years. Without such action, if the mainstream science is broadly right, the Review’s assessment of likely growth in global greenhouse gas emissions in the absence of effective mitigation tells us that the risks of dangerous climate change, already significant, will soon have risen to dangerously high levels.

Observation of daily debate and media discussion in Australia and elsewhere suggests that this issue might be too hard for rational policy making. It is too complex. The special interests are too numerous, powerful and intense. The time frames within which effects become evident are too long, and the time frames within which action must be effected too short.

But there is a saving grace that may make all the difference. This is an issue in which a high proportion of Australians are deeply interested. A high proportion of Australians say that they are prepared to pay for mitigation in higher goods and services prices. Most of them say that they are prepared to pay even if Australia is acting independently of other countries. There is a much stronger base of support for reform and change on this issue than on any other big question of structural change in recent decades, including trade, tax and public business ownership reform. People in other countries, to varying degrees, seem to share Australians’ interest in and preparedness to take action on global warming.

Public attitudes in Australia and in other countries create the possibility of major reform on emissions reductions, despite the inherent difficulty of the policy problem.

This report aims to nurture the chance that Australia and the world will manage to develop a position that strikes a good balance between the costs of dangerous climate change and the costs of mitigation. It does this by examining approaches to mitigation in one country within a framework which, if followed elsewhere, would add up to a solution. The Review recognises that other approaches may also add up to a solution. If others were also to develop proposals that add up to a solution to the problem that would provide the basis for the type of realistic discussion across the international community that will be essential if a basis is to be found for effective global action.

GT5 GreenCell Technologies and Hy-Drive Announce Strategic Agreement; Set to Launch HydroCell Max™

Toronto, Canada – GreenCell Technologies Inc. (Frankfurt Open Market: GT5) announced today that it has signed an agreement with Hy-Drive Technologies Inc. (TSX Venture Exchange: HGS) of Mississauga, Ontario.  GreenCell is now the exclusive distributor of the renowned HGS series of hydrogen gas generators for the diesel truck market in Canada and the USA.

Over the past 6 years, Hy-Drive Technologies has allocated millions of capital to research and develop an innovative generator, similar to the GreenCell HydroCell™, launching a product that specifically works on Caterpillar™ diesel engines older than 2007.  All HGS-series product have undergone rigorous field trials and conquered the design hurdle of handling the rugged environmental conditions in which these generators must operate to deliver improved fuel consumption.
Effective immediately, the Hy-Drive unit targeting Caterpillar™ engines will be branded as a HydroCell Max™, with the accompanying tagline of “Hy-Drive inside” in order to proudly recognize Hy-Drive’s extensive technology and research commitment.  The greatly-anticipated dual goal of improving both mileage and emissions has been successfully met and now new units for other engine manufacturers are imminent, awaiting dyno testing and tuning to maximize performance. 
“With this new agreement,” states GreenCell’s President K. Allen Etherington, “we are launching GreenCell’s sales and marketing machine to start selling proven product right away.  We found Hy-Drive to be wonderfully cooperative in arranging this deal to become the exclusive sales channel for them in the US and Canadian market and also assisting us with technical support as we build our field support team.  Meanwhile, the Greencell development of our own HydroCell product line will continue at an increased pace alongside the HydroCell Max™ to provide a cost reduced alternative.”
The HydroCell™ is an electrolysis-based on-demand Hydrogen generator designed specifically for the transport industry. The HydroCell™ directs the produced Hydrogen gas to the intake of the vehicles engine where it acts as a catalyst during the normal combustion cycle. This creates more power and fewer emissions with less diesel fuel.
GreenCell Technologies Inc. is a Canadian company, dedicated to designing and bringing to market technology-based products for the transportation and energy industries.

 

GreenCellTechnologies: The Garnaut Climate Change Review - Intro

The weight of scientific evidence tells us that Australians are facing risks of damaging climate change.

The risk can be substantially reduced by strong, effective and early action by all major economies. Australia will need to play its full proportionate part in global action. As one of the developed countries, its full part will be relatively large, and involve major early changes to established economic structure.

The work of the Review shows that the costs of Australia playing its proportionate part in an effective global effort, while considerable, are manageable. There is a path to Australia being a low-emissions economy by the middle of the 21st century, consistently with continuing strong growth in material living standards (chapters 11 and 23). By the end of the 21st century, and beyond, more so with each passing decade material living standards would be higher with than without mitigation of climate change.

GreenCell Technologies: Scientific opinion and dissent

There is no doubt about the position of most reputed specialists in climate science, in Australia and abroad, on the risks of climate change (Chapter 2). There is no doubt about the position of the leaders of the relevant science academies in all of the major countries.1 The outsider to climate science has no rational choice but to accept that, on a balance of probabilities, the mainstream science is right in pointing to high risks from unmitigated climate change.

There are nevertheless large uncertainties in the science. There is debate and recognition of limits to knowledge about the times and ways in which the risk will manifest itself. Every climate scientist has views on some issues that differ from the mainstream in detail.

There are prominent dissenters on this matter, gathered under the rubric of ‘sceptic’. For the most part ‘sceptic’ is a misnomer for their position, because these dissenters hold strongly to the belief that the mainstream science is wrong.

In a different category are a small number of climate scientists of professional repute who maintain that the mainstream science embodies misjudgments about quantities. These scientists, who accept the theory of the warming effects of higher concentrations of greenhouse gases, hold the view that these warming effects are relatively or even trivially small in comparison with many other causes of climate variations that are beyond the control of humans.

The dissent took a curious turn in Australia in 2008, with much prominence being given to assertions that the warming trend had ended over the last decade. This is a question that is amenable to statistical analysis, and we asked econometricians with expertise in analysis of time series to examine it. Their response—that the temperatures recorded in most of the last decade lie above the confidence level produced by any model that does not allow for a warming trend—is reported in Chapter 4 (Box 4.1).

GreenCell Technologies: The prisoner’s dilemma in international collective action

Effective international action is necessary if the risks of dangerous climate change are to be held to acceptable levels, but deeply problematic. International cooperation is essential for a solution to a global problem. However, such a solution requires the resolution of a genuine prisoner’s dilemma: each country benefits from a national point of view if it does less of the mitigation itself, and others do more. If all countries act on this basis, without forethought, communication and cooperation, there will be no resolution of the dilemma. Future generations will judge the outcome to have been insufficient and unsatisfactory.

Resolution of the prisoner’s dilemma requires communication, to find a division of costs and benefits of cooperation that is acceptable to all essential participants in a solution. The eventual solution can involve a range of cooperative arrangements, and not only matters related to the division of the mitigation task.

But resolution of the international prisoner’s dilemma will take time—possibly more time than we have. The world squandered the time that it did have in the 1990s to experiment with various approaches to mitigation. 

GreenCell Technologies: The GreenCell Thermal Recovery Process

Utilising the ITC Thermal Recovery Unit. The GreenCell Thermal Recovery Process - The Thermal Recovery Unit (TRU) is a patented and proprietary process which continuously converts organic materials into non-hazardous, recoverable resources (hot gases, steam and carbon char) within an oxygen-free environment.

Convert waste via pyrolysis to produce energy and bio-char.

What is Thermal Recovery (Pyrolysis)?

Thermal Recovery is the destructive distillation of organic material through the application of intense indirect heat without oxygen. Waste material is converted to methane gases (for use in power generation) and non-hazardous carbon char (a resalable byproduct).

This system is in compliance with US Environmental Protection Agency (EPA) and Clean Air Act guidelines.

Through this process, waste volume may be reduced by as much as 92%. Thermal Recovery can also yield recoverable energy outputs of around 5 BTU for every BTU of input!

Thermal Recovery is NOT Incineration

Unlike traditional incineration systems, the TRU release no harmful by products or emissions. This system has been rated "Best Available Control Technology" (BACT) by regulatory agencies worldwide.

Applications

Marketable applications for the TRU are as diverse as they are beneficial. Such applications include recycling of tires/rubber, municipal solid waste, medical waste, plastics, sewage sludge, industrial wastes and contaminated soils. Recycling of carbon neutral agricultural and biomass wastes, as well as environmentally-sound recovery and development opportunities are possible through the TRU's valuable yields of energy and char.

About the GNUL

The World now realises what the Earth has been trying to say for some time…. It is running out of breath and now is the time to act, before it is too late. The GreenCell GNUL bio-processor - which can be built into the infrastructure that creates our greenhouse gases - turns our worst problem into our greatest asset.

The GNUL replicates lungs that breathe in CO2 and other polluting elements and breathes out sweet oxygen, cleans water for re-use and turns bio-waste into useful by-products. It’s what nature has been doing since life on earth began. A low-energy natural process with measurable results. Now we can all be part of a solution, instead of the problem.