My name is Mike Hyre and we are planning on providing a great solution to ethanol production in Europe. Please contact me to discuss. Our systems are ready to field now. They are small enough to place many in a region near the feedstock sources. Our cellulosic processors are nearly ready to field as well. We can turn wood, fruit and vegtablr waste, paper, and many other materials into ethanol.

OUR UNIQUE ADVATAGES OVER OTHER SYSTEMS!!

Production Volume – Our systems are designed to produce from 2 gallons per hour up to 26MM gallons per year based on your particular requirements.

Off-The-Shelf Components – Because each module is of a standard design, the design process is completed one time. A new design does not have to be paid for each time the system changes. Using smaller capacity individual modules allows for the use of high-reliability but inexpensive off-the-shelf components as opposed to the very large components and expensive components of a custom-designed large-scale plant. The modular unit is complete from feedstock preparation to water cleansing and recycling.

Flexibility – The modular system can be reconfigured very quickly to accommodate changing requirements. This covers changes that are very short-term, such as a temporary reduction in available feedstock to more long-term changes in plant requirements. For temporary reductions, individual modules can be shutdown without affecting the rest of the system’s efficiency. For long-term changes, modules can be added and removed.

Redundancy and Reliability – Each module has the components it needs to perform its process. Using several smaller capacity modules to reach a large capacity results in redundant components for each process. If a component should fail it will only affect the module containing it. The rest of the system will continue to operate.

Scalability – The modular approach is designed to accommodate change. As system needs grow, modules can be added to ramp up capacity. Control systems are designed to recognize additional modules as they are added so that modules can be added dynamically. The overall system stays in operation.

Maintainability – The modular system is highly maintainable. Modules can be removed and added while the rest of the system stays in operation. Scheduled maintenance can be performed on individual modules without affecting others of its type. In large systems, spare modules can be available to immediately replace a module undergoing maintenance virtually eliminating system downtime. In addition, this same feature allows for rapid recovery from breakdowns as the affected module can be replaced with a spare.

Economy – Eliminating the costly design/construction process from the plant will significantly reduce overall costs. Modules can be shipped with minimal to no on-site assembly requirements. Modules are predesigned, manufactured and tested prior to shipping. Smaller individual module capacities mean far less expensive components. A plant can grow dynamically to accommodate changing needs without expensive redesign and reconstruction.

Upgradability – In addition to adding to existing process capacity, new technologies and processes can be brought on-line in an incremental manner using the modular approach. This can reduce the risk and initial cost associated with adding new processes and technologies.

Mike Hyre
Allard Energy
561 283-8110