| 790 - 790 |
Untitled
Kijenski J |
| 791 - 793 |
Polish Technological Platform of the hydrogen and fuel fires
Bajdor K |
| 799 - 807 |
Why hydrogen?
Kijenski J |
| 808 - 814 |
The role of natural gas in the fuel cells technology
Demusiak G, Dzirba D, Warowny W |
| 815 - 819 |
Technological aspects of using the coke-oven gas as a raw material for producing hydrogen
Tramer A, Sciazko M, Karcz A |
| 820 - 824 |
The ways to pure hydrogen at the nitrogen works Kedzierzyn SA
Grzybek R, Grochowski L |
| 825 - 828 |
Sources and use of hydrogen in petroleum refinery processes
Gardzinski W, Molenda J |
| 829 - 832 |
Hydrogen for small and medium-size enterprises (SMEs)
Mianowski A, Tokarska A |
| 833 - 835 |
Prospects for using biotechnological methods to produce hydrogen
Kurzepa K, Grabowska A, Prokop J, Lipkowski AW |
| 836 - 838 |
Directions of studies on the use of biomass for production of hydrogen
Urbaniec K, Grabarczyk R |
| 839 - 844 |
Construction materials for hydrogen-involving processes
Lublinska K, Zagorski A, Spychalski W, Kurzydlowski KJ |
| 845 - 852 |
High-temperature solid-oxide fuel cells (SOFC) - materials and prospects
Molenda J, Swierczek K, Zajac W |
| 853 - 857 |
A study on, and use of platinum-rhodium alloys as electrocatalysts in low-temperature fuel cells
Siwek H, Tokarz W, Kotowski J, Piela P, Czerwinski A |
| 858 - 862 |
Low-temperature fuel cells as generators of chemical compounds. Synthesis of hydrogen peroxide and hydroxylamine
Lewdorowicz W, Tokarz W, Piela P, Czerwinski A |
| 863 - 867 |
Hydrogen in the Laves phase type intermetallic compounds of rare earths with manganese
Figiel H, Paja A |
| 868 - 873 |
Study of the hydrogenous processes in Wroclaw polytechnics
Walendziewski J, Stolarski M |
| 873 - 875 |
Polish engines and hydrogen vehicles
Rudkowski M |
