Hydrogen Addition Technologies

The main characteristics of hydrogen addition technologies are (Rana et al., 2007) the following  

Modeling of Processes and Reactors for Upgrading of Heavy Petroleum 

---

Except for hydrovisbreaking, the other hydrogen addition technologies use catalysts... 

Technologies for upgrading heavy crude oils such as heavy oil, bitumen, and residua can be broadly divided into carbon rejection and hydrogen addition processes (Chapter 8). Briefly, carbon rejection processes are those processes in which a carbonaceous by-product (coke) is produced along with distillable liquid products. On the other hand, hydrogen addition processes involve reaction of the feedstock with an external source of hydrogen and result in an overall increase in H/C ratio of the products as well as a decrease in the amount of coke produced. 

Perspectives of carbon taxes will be among the prime incentives for hydrogen and heat using industries to participate in public/private partnerships created to build prototypes and demonstrate clean hydrogen production technologies. Oil companies, petrochemical and steel industries are among the most exposed to additional costs imposed by carbon taxes to their current activities, as well as to future activities such as the production of synthetic fuels from coal, biomass or other hydrocarbon feedstock. 

Hydrogen production from fossil fuels will continue for the foreseeable future, given the large resource and the established industrial base. Research is focused on improving the environmental aspects of fossil fuel use, and a number of papers address advanced hydrogen production technologies that reduce or eliminate C02 emissions from the production process. In addition, hydrogen production from biomass, a renewable resource with the potential for zero net C02 emissions, is discussed. 

Explore effects of fuels, fuel components, additives and impurities on the performance of hydrogen generation technologies... 

---