back boiler no tank

Here's the best book I've found on the subject ;

http://www.archive.org/stream/kitchenboilerco00unkngoog#page/n6/mode/2up
Reprints are available on Amazon.

A gravity system is the simplest. That requires the heated water to rise out the higher water outlet on back boiler, continue to rise to radiation and drop back down as it cools and becomes heavier to the lower water inlet on boiler. This uses the lighter expanded hot water for circulation instead of a pump. An expansion tank with relief valve is required when you heat water since it expands and builds up pressure. Overheating the water will produce steam with explosive force, so expansion and safety relief is necessary on any closed system.

Some of the basics are a water pressure regulator on feed line, 3/4 stainless pipe water back is the best and ALL piping should be 3/4 or larger. This cuts down on resistance and will circulate as well as a small circulator pump. With proper pitch up and back down, (1/4 inch / ft.) depending on system resistance, length and materials used, it may require a throttle valve to slow the flow. At the highest point of system there should be an automatic vent that has a small float that releases any air out of the system. There are all sorts of air separators, scoops mounted horizontal on the outlet, and spiral separators, but the float type at top is all that is necessary. It allows you to fill the system venting air out the top as well. A manual boiler drain at the top works, but for the cost of a float type, it's well worth never bleeding the system manually. Heating water causes tiny air bubbles which is the separation of oxygen from the water. This needs to be purged and will rise to the highest point in system. When this air bubble gets large enough it will stop flow, overheating water in boiler causing the relief valve to open allowing more cold water into system. So all these components are necessary.
Tubing, if Pex or poly tubing is used, must be the type for heating systems with oxygen barrier. This is not covered in the book since it is new technology. Nature will balance itself and when the oxygen is removed in the water, oxygen molecules go through regular water tubing replacing the oxygen that has been removed. If a circulator pump is used or not, always allow rising hot water to flow AWAY from the expansion tank, never towards it since higher pressure on hot side, or pump outlet side will push into tank. These small tanks have a bladder inside like a balloon for expansion. Older tanks without bladder rely on keeping an air space above water and loose this air bubble becoming water logged. Relief valve starts to operate as water expands...... Stick with a newer tank with bladder. Circulator pump should be at return side, pumping into boiler as well. For gravity flow, (thermosiphon) the less elbows the better, flexible tubing with minimum 3/4 ID is the secret for good circulation. If copper is used, insulate the hot lines to prevent heat loss and keep the fluid expanded and light to continue to rise. Let it cool uninsulated on the way back in returns. If it sounds like a babbling brook, there is air in the system. Don't mix materials such as copper and zinc galvanized fittings. Dissimilar metals create electrolysis or a minute electrical current flow between dissimilar metals. With stainless coil (boiler) the entire system can be copper, iron, or galvanized, but don't mix the materials in the system. If you already have an iron water back, and iron radiators, use poly between them. With proper material selection, corrosion can be eliminated without the use of chemicals. Those are the basics to follow.