I can't upload it. The pdf document can only be viewed on my computer and I have already printed my first of two allowed copies (digital rights management). There isn't really THAT much new and the document is only nine pages.
It specifically states that the following features contribute to the multifuel capabillty:
1) the hypercycle combustion system.
2) intake swirl port
3) water heated intake manifold (NOT designed to be a crude aftercooler)
4) manifold flame heater
5) fuel density compensator.
Items 1 and 2 are widely described in the literature as the MAN "M" combustion chamber. The literature also states that the only real change needed for multifuel capability is high compression. A drawback of ultrahigh compression ratio is a higher and quicker rise in combustion pressure; hence the need for stronger engine components. In addition, several other engine manufacturers have built and published their accounts with multifuel engines (GM two-stroke diesels, White/Reo, etc).
The development of the LDS-427 is described here:
W. F. Isley, "A multifuel engine experience," ASME Trans., Vol. 84, Series A, No. 2 (April 1962)
The MAN "M" combustion chamber design is described here:
J.S. Meurer, "Evaluation of reaction kinetics eliminates diesel knock: The M-combustion system of MAN," SAE Trans., Vol. 64 (1956), p. 250.
J.S. Meurer, "Multifuel Engine Practice," SAE Trans., Vol. 70 (1962), P. 712.
