FacebookTwitterDiggStumbleuponGoogle BookmarksRedditTechnoratiLinkedin

Welcome

The Martin Fleischmann Memorial Project is a group dedicated to researching Low Energy Nuclear Reactions (often referred to as LENR) while sharing all procedures, data, and results openly online. We rely on comments from online contributors to aid us in developing our experiments and contemplating the results. We invite everyone to participate in our discussions, which take place in the comments of our experiment posts. These links can be seen along the right-hand side of this page. Please browse around and give us your feedback. We look forward to seeing you around Quantum Heat.

Join us and become part of the project. Become one of the active commenters, who question our work and suggest next steps.

Or, if you are an experimenter, talk to us about becoming an affiliated lab and doing your work in a Live Open Science manner.

Username:
Password:
Remember me

Welcome to the New Fire Discussions

Tell us and our members who you are, what you like and why you became a member of this site.
We welcome all new members and hope to see you around a lot!

TOPIC: I decided to join the replication effort

#430 11 years 9 months ago
I decided to join the replication effort

jeff's Avatar
OFFLINE
Karma: 1
Greetings,

I have been active in the LENR field for several years as a self-funded individual. Over the last couple of years I have built an apparatus that utilizes airflow calorimetry to measure potential excess heat generated in a stainless steel cell. The cell is electrically heated by a nichrome band heater and can be connected to a vacuum or to different gas sources via pneumatically controlled Swagelok valves. Recently I added the ability, by means of CF feedthroughs, to electrically drive a conductor inside the cell. Most of my previous work has been using nickel and nickel alloy powders, but wire offers numerous advantages, especially in terms of controlled Joule heating.

Over the next couple of weeks I plan to fit the airflow calorimeter with a closed loop thermal mass controller which guarantees that a fixed thermal air mass flows/unit time. That enhancement should allow differential temperature measurements to within about 0.2C, which corresponds to less than 1 watt.

I am using a constantan alloy sold by Omega Engineering and am attempting to replicate the surface morphology that Celani has obtained. The recent published SEM photos are useful, although I don't have access to an SEM myself.

I'll post some photos of my lab setup in a couple of days.

Jeff
The administrator has disabled public write access.

#431 11 years 9 months ago
I decided to join the replication effort

bob's Avatar
OFFLINE
bob
Karma: 14
Absolute awesome Jeff!

Join the party - the more the merrier, sharing your data will really help us both.

Maybe if we raise enough funds in our kickstarter, we can get a Live Data Logging pack out to you and you can start feeding data straight the the MFMP repository.

You would need to fully describe your apparatus and protocols and materials used.

We will smoke this thing out.

B
The administrator has disabled public write access.
Powered by Kunena Forum