Podcasts about Coriolis

Kind of a freeform episode Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Ein ausgefeilter Plan, der mehrere Probleme ausweist aber sich nach Rimas Vorhersage erfolgreich sein wird, wird gestartet. Tanzend auf der Schneide des Schicksal umarmt die Crew ihre neuerworbenen Talente der Ikone des Boten, um sich den restlichen Abgesandten zu stellen.

"La prova del movimento della Terra" è una serie di podcast che racconta il periodo in cui Foucault riuscì a concepire un meccanismo che desse una prova diretta della rotazione del nostro pianeta.Prodotta dall'Ass. Culturale Atelier. Scritta e realizzata da Alan Zamboni. Sound design: Matteo D'Alessandro.Per chi volesse info sul libro “L'atomo sfuggente” questo è il link al sito della casa editrice: https://www.mondadori.it/libri/latomo-sfuggente-alan-zamboni/Il romanzo è disponibile in tutte le librerie e gli store onlinePer sostenerci: https://associazioneatelier.it/Per sostenere il progetto dedicato alla scienza a Berlino: https://associazioneatelier.it/in10cities/Per contatti: associazioneatelier@gmail.comPer donare ad Atelier APS (iscritta al RUNTS - terzo settore) il 5 per mille: CF = 98181440177

Dedicated to Diggy00.00.40: Introductions00.04.26: World of Gaming: Twilight Sword from 2Little Mice and FreeLeague on Backer Kit; Ghost in the Shell RPG kickstarting; we are going to be at Dragonmeet running the Free League Stand and Selling Tales of tee Old West next door; we are also writing an epic Alien: Evolved adventure for UKGames expo. 00.23.02: Tales of the new Verse01.25.18: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Die Crew kommt zusammen um ihren Plan zum Sturm auf Xene zu besprechen und sich vom Orakel beraten zu lassen.

Actually a packed but tight episode not much over an hour, there's efficiency 00.00.40: Introductions00.02.51: Welcome to our new patron: Charlie Creek00.03.28: World of Gaming: AI controversy at UKGE; we are going to UKGE; we are also going to TableTopGaming live; and Dragonmeet; Cohors Cthulhu on sale; Apocaplyse World Burned Over Kickstarter, Japanese's version of Mörk Borg being kickstarted; Pioneer Kickstarter; Godzilla RPG announced00.45.47: Old West News: The Foundry module is available to buy; The Made in the Old West license means you can publish and sell your own adventures00.54.36: Invincible, the not-an-interview-with-Tomas discussion01.09.09: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Expert*innen kennen den Titel schon, denn The Great Dark ist schon die dritte Auflage vom Pen-and-Paper Coriolis! Unser Controller-Reporter Lukas hat sich das TTRPG-Sequel mal genauer angeschaut.

Zurück auf Djachroum tauscht sich die Crew von Yakub mit den wichtigsten Personen aus und was ihr tollkühner Plan nun ist.

C'est un phénomène discret mais fascinant : sur certaines îles du Pacifique, notamment en Nouvelle-Calédonie, les pins colonnaires (Araucaria columnaris) semblent tous pencher… dans la même direction. C'est un phénomène discret mais fascinant : sur certaines îles du Pacifique, notamment en Nouvelle-Calédonie, les pins colonnaires (Araucaria columnaris) semblent tous pencher… dans la même direction. Et cette direction n'est pas aléatoire : ils s'inclinent vers l'équateur, qu'ils soient situés dans l'hémisphère Nord ou Sud. Un mystère botanique qui intrigue les scientifiques depuis plusieurs décennies.Ces arbres élancés, qui peuvent atteindre 60 mètres de haut, poussent naturellement droits dans la plupart des conditions. Pourtant, des mesures précises effectuées par une équipe de chercheurs australiens en 2017 (publiées dans Ecology) ont révélé un schéma troublant : plus les pins colonnaires sont éloignés de l'équateur, plus leur inclinaison vers celui-ci est marquée, jusqu'à 8 à 10 degrés. En d'autres termes, un pin situé dans l'hémisphère sud penchera vers le nord, et inversement.Pourquoi ? Plusieurs hypothèses ont été explorées. La première évoque le champ magnétique terrestre, qui pourrait influencer la croissance de ces arbres, un peu comme il guide certains animaux migrateurs. Mais aucune preuve solide ne vient confirmer ce lien. D'autres chercheurs ont pensé à une réponse phototropique, c'est-à-dire à une croissance orientée vers la lumière. Comme la trajectoire apparente du Soleil diffère selon la latitude, les arbres pourraient orienter lentement leur tronc vers la zone où l'exposition solaire est la plus régulière : celle de l'équateur. Cette hypothèse semble la plus plausible, mais elle ne suffit pas à tout expliquer, car d'autres espèces voisines ne présentent pas le même comportement.Une troisième piste concerne la rotation terrestre. Selon certains modèles, la force de Coriolis pourrait influencer la distribution des hormones de croissance (les auxines) dans les tissus végétaux, entraînant une croissance asymétrique du tronc. Ce serait une sorte d'effet “invisible” de la dynamique terrestre sur la biologie des plantes.Les chercheurs de l'université James Cook, en Australie, ont confirmé que cette inclinaison est constante et reproductible, mais son origine exacte reste mystérieuse. Aucun facteur climatique local (vents dominants, sol, humidité) ne permet de l'expliquer complètement.Ainsi, ces pins colonnaires qui s'inclinent avec élégance rappellent que la nature cache encore des énigmes : même dans un monde où les satellites scrutent chaque forêt, un simple arbre peut défier notre compréhension. Et, quelque part dans le Pacifique, des forêts entières continuent de saluer silencieusement le Soleil — toujours en direction de l'équateur. Hébergé par Acast. Visitez acast.com/privacy pour plus d'informations.

Recorded at Spelkongress, Stockholm, Sweden! (The audio is of varying quality)00.00.30: Introductions00.03.48: World of Gaming: news from Spelkongress presnantions that we did not go to, that were mostly in Swedish - our Swedish patrons did attend though and thoughtful told us what was going on, on Discord.00.12.01: On the plane David and Matthew discuss their hopes for the event00.38.25: Eric Granstrom, on Svavlewinter (The Brimstone Sleep) for DoD/Dragonbane; and Alderland for Forbidden Lands00.47.43: Anders Gilbring, on Western01.04.20: Magnus Seter, on Trudvang01.49.40: Anders Blick, on on being an elder statesman of Swedish gaming (and Ereb Altor)01.26.08: Next time and Goodbye 01:27:14: Music by TjautEffekt is brought to you by Effekt Publishing.Music by kind permission of Tjaut info@tjaut.se www.tjaut.seLike what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Yakub kommt nach Tagen zurück zu seiner Familie, gebrieft über die Stärke der Flotte der Jangahir und muss jetzt schauen seine Wahlfamilie in Form seiner ursprünglichen Crew zu einen um dann in die nächsten Schlachten zu ziehen.

In this sponsored Solutions Spotlight, KROHNE experts discuss flow measurement technologies for chlor-alkali processes, covering mag meters, Coriolis meters, entrained gas management and safety integrity levels. Three Key Takeaways Virtual reference technology eliminates leak paths in mag meters by using a non-wetted grounding methodology, reducing costs and maintenance risks in corrosive applications. Straight-tube Coriolis meters offer advantages over bent-tube designs: easier installation, less pressure drop, reduced abrasion, simpler cleaning and competitive pricing with custody transfer accuracy. Entrained gas management is essential for process reliability — it keeps Coriolis meters measuring during two-phase flow conditions and provides early warning of upstream equipment problems like cavitating pumps or failing seals.

The episode we mucked up, not featuring the interview with Tomas that we failed to actually record 00.00.40: Introductions00.065.46: World of Gaming: Cosmic Corsairs Kickstarter; Vaesen Mythic Carpathia pre-orders; Alien Evolved Pledgemanger closes; we are going to Spelkongress!00.24.22: Old West News: The Foundry module is available to buy; The Made in the Old West license means you can publish and sell your own adventures00.41.03: Invincible, the not-an-interview-with-Tomas discussion01.04.08: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Terra Piatta vs Terra Sferica: confronto civile e serrato tra me (AstroViktor) e Gabriele Ceracchini (Shin Sekai). Partiamo dai claim più ricorrenti e li testiamo con esempi, fisica e osservazioni reali: orizzonte che “scende” con la quota, rifrazione e miraggi, sole che rimpicciolisce al tramonto, foto e live dallo spazio/ISS, effetto Coriolis (pendolo di Foucault, cicloni, rotte aeree), fusi orari e stagioni, fino al tema caldo dei voli e della curvatura (altimetro, orizzonte artificiale, INS).Niente insulti: qui trovi argomentazioni, esperimenti ripetibili e perché alcune “prove” sono solo indizi. Se cerchi “terra piatta prove”, “globo rotante”, “Coriolis aerei”, “pendolo di Foucault”, “tramonto e rifrazione”, “fusi orari spiegazione”, questo video fa per te.Parleremo di:- Come misurare l'abbassamento dell'orizzonte con strumenti (teodolite)- Perché la rifrazione non “alza l'orizzonte” ma può far vedere oggetti oltre l'apparente curva- In che modo Coriolis entra in navigazione aerea e meteorologia- Perché albe/tramonti e stagioni confermano un modello predittivoe molto altro...

Zurückgelassen von Yakub sitzen Nitan und Sare fast drei Tage im Ungewissen und das sorgt für zwischenmenschliche Spannung.

In an episode for creators everywhere Dave looks back on his two years working solely on RPG writing, what went right and what he might have done differently.00.00.40: Introductions00.02.29: welcome to our new Patron Phillip D Massey00.06.12: World of Gaming: Invincible kickstarter; Vaesen getting delivered; the new Conan RPG too00.26.31: Old West News: The Foundry system is ready for download; The Last Vegas Legacy adventure00.38.40: Dave's reflections01.11.307: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

In this bonus episode, which was originally recorded for Chemical Processing's sister brand, Processing, KHRONE's Joe Incontri, director of marketing, discusses the company's flow meter lineup.  

Im Opor induzierten Drogenrausch gibt sich Yakub völlig der Vorahnung des Boten hin und führt Teile seiner Crew ... ja wohin?

Shawn Tierney meets up with Lauton Rushford of Endress+Hauser to learn about new innovations in Coriolis Flowmeter Technology in this episode of The Automation Podcast. For any links related to this episode, check out the “Show Notes” located below the video. Watch The Automation Podcast from The Automation Blog: Listen to The Automation Podcast from The Automation Blog: The Automation Podcast, Episode 247 Show Notes: Special thanks to Endress+Hauser for sponsoring this episode so we could release it “ad free!” To learn about Endress+Hauser, and Coriolis Flowmeters, checkout the below links: Learn more about Endress+Hauser Learn more about flowmeter products Read the transcript on The Automation Blog: (automatically generated) Shawn Tierney (Host): Welcome back to the automation podcast. Shawn Tierney here from Insights and Automation, and I wanna thank you for tuning back in. This week on the show, I meet up with Lawton Rushford from Endress and Hauser to learn all about the latest innovations in Coriolis flow meters. And I also wanna thank Endress and Hauser for sponsoring this episode so I could bring it to you completely ad free. With that said, if you’re interested in learning about what’s the latest in technology used in Coriolis flow meters, I think you’ll enjoy this episode. I know I did. And with that, let’s go ahead and jump right into this week’s show. I wanna welcome to the show, Lawton from Endress and Hauser. Lawton, it’s great to have you on. This is the first time you’re on the show. We plus, we’ve had your company on before. But, Lawton, if you don’t mind, could you, before we jump into Coriolis flow meters, which is an extremely important technology in our industry, could you first introduce yourself to our audience? Lauton Rushford (E+H): Yeah. Absolutely. Thank you. My name is Lawton Rushford. I am the flow product marketing manager here at Anderson Hauser, based in Greenwood, Indiana, which is about twenty minutes south of Indianapolis, Indiana at our, national headquarters, for Anderson Hauser. I’ve been with Anderson Hauser for seven years now, a whole bunch of different roles, but, for the last three years, I’ve been in this role, a flow marketing manager. Today, I I really wanted to highlight a couple of awesome innovations that we’ve had in Coriolis flow technology, over the last, we’ll see, about year or so, because I think there’s a lot of, use cases and a lot of awesome, insights we can get from from our Coriolis flow meters. And, yeah. So I guess we can we can kick it off. I did wanna highlight Anderson Hauser as the the manufacturer that I work for, and we have a history, a long history of, of innovation. And so I’m gonna kinda highlight that, initially, talk about what sort of portfolio we have currently with our Coriolis flow meters, and then talk about a couple of new cool things that that we have released over the last couple of couple of months. And then finish off with, what we call heartbeat technology. It’s our advanced diagnostic system in all of our flow meters and all of our products across the board. It started with flow. So I think there’s a lot of you cool use cases, and I’ll I’ll highlight a couple of those as well. And then, of course, Shawn is the the audience here. Anytime there’s questions or anything, please feel free to to let me know, and I can I can try and address them as they come up? Shawn Tierney (Host): Sounds good. Yeah. Lauton Rushford (E+H): Awesome. Great. So I guess our first Coriolis meter that we introduced into the market was back in, 1986. So it’s been some time. As you can tell by the the slide here, there’s a lot of different designs of Coriolis flowmeters. There isn’t one right way to do it, but I think that the way that Anderson Houser has approached innovation is is pretty pretty awesome and pretty impressive. Everything from a single tube, design to a dual tube design, dual straight tube design versus a dual bent tube design. There are a lot of different types of Coriolis meters out on the market, and we’ll talk about a couple of, differentiators that we that, Anderson Hauser has on, on some products that we’ve recently released. Shawn Tierney (Host): You know, just by looking at the, the slide here, the one that, like, really attracts my eye is the ProMASS. That’s the one that I I think I’ve seen the most in the field. Lauton Rushford (E+H): Yep. Yep. Shawn Tierney (Host): You know, walking around the different plants, and, that was launched in 1998. So that’s been out for quite some time. So just wanted to throw that out there for those listening. That may be the one you’ve seen the most of as in your in your travels. Lauton Rushford (E+H): Yeah. Yeah. Definitely. There’s a lot of a lot of ProMasses out there. Our endpoint was the first one, but, shortly after that, we released our ProMasses. And we’ve just been you know, we’ve we’ve had a lot of iterations, which I think is also part of the impressive thing in terms of innovation that Anderson Hauser continues to to to, do in terms of research and development on that. And the one that I always think about is is the the one that kinda looks like a UFO. That is our ProMASS X. It’s a high capacity, large diameter, Coriolis meter with four tubes in there. So it’s kind of bent two separate sys systems and then put together in one, large device, and I always I always think that one’s cool because it kinda looks like a like something out of Star Wars or something. Yep. Yep. So, yep, so I I think that’s that’s really, really cool. There’s a lot of new things that we’ve released, and this is, I mean, this is a short timeline of of some of the innovations that we have. But, you know, over the last year or so, we’ve we’ve definitely invested a little bit more, into specific applications, and that kind of leads us into our entire portfolio of Coriolis flow meters. We have 17 different sensors. So that is not a normal thing in the industry. I I think that to some people, it it can be confusing if you’re looking at them all at the same time, a little overwhelming. But I I think it’s really important that I that I kind of talk about this in terms of every application that we look at. We’re not trying to put one flow meter into that application. We’re taking the application and the requirements of that application and designing a device that’s meant for it. So, in certain applications, you may not have to choose between 17 different sensors. You really have probably two or three that you’re trying to to decide between and weigh, both pressure drop, accuracy, density specifications, things like that that that will ultimately give you the the best meter for that application. But we we don’t wanna take a an approach of trying to, cram a a sensor into an application. We would prefer to design the sensor in and meant for certain applications. So it does I guess there’s two questions on here. Why so many sensors? Well, because we wanna design our our sensors for specific applications. There’s a lot of different applications out there. Doesn’t that make it confusing? Well, of course, it makes it a little confusing if you’re looking at it from from the high level 17 different sensors. But, every application that we look at, we’re we’re trying to, there’s a lot of different requirements of of applications in oil and gas versus life sciences, and we wanted to design sensors that fit the market and fit the application that they’re supposed to go into. And in general, all of them work the exact same way. As a as a general rule of thumb, your Coriolis flow meter measurements are mass flow, density, and temperature as a as a starting point. We’ll talk about a couple of features that we’ve started adding to some of our flow meters that that, create more of a multivariable device. Instead of just measuring those three things, we can add viscosity or, we can do other things or concentration, things like that, with the meters. But in general, the mass flow is is using, the phase shift between your inlet and outlet pickup coils and taking that into account to relate it directly to the amount of mass that’s within those tubes. And then similarly, as the tubes are oscillating, a more dense fluid is going to have a lower resonant frequency. And based around resonant frequencies, we can understand how dense the fluid is inside of the, inside of those flow tubes. And then we also have on every single one of our Coriolis flow meters, PT 1,000, temperature probe that’s attached directly to the inside of the, the outside of the tube within the secondary containment, for additional values, additional multivariable, use uses. I mean, for for example, on a on a concentration measurement, really what you’re using is density and temperature in conjunction, to relate that to a concentration. So that’s something that that we would that that would add to the use cases for for a a Coriolis flow meter. And one of the the current biggest innovations that we’ve had recently is with our our ProMaths queue. The ProMaths queue is a a little bit of a different design than some of the other ProMasses that you may have seen on on some previous slides. We actually, have a little bit, longer tube that’s, has a more harsher bend in it. Mhmm. The reason for that is because what we’re trying to do is we’re trying to oscillate these two sensors or these two flow tubes at two at the same frequency, but in two different modes. So in multiple frequencies, at the same time. So, essentially, what we’re doing is our our historic use of a a pro mass meter is kind of in that that top visual where we’re oscillating in one frequency, and one one specific frequency depending on the fluid that’s going through it. And then on the at the bottom, we show an additional mode of oscillation, so an additional frequency that we’re oscillating at that gives us additional information for, specifically challenging applications. So in in in a lot of these cases, what we what we see in most of these applications is, a lot of whipped products, purposeful entrainment of of air into into, applications. So cement in general, let’s say, as an example, we can start there. Well cement, you’re it’s aerated all the time. So as you are are moving that cement around, air pockets can be filled in inside of that cement and can cause challenges as most things with air cause challenges, especially as as you’re moving into a multiphase fluid. Anytime you have one or more than one fluid phase within the the the meter, the meter can is it’s it’s almost like, the meter is kind of confused. It it’s not really sure what it’s supposed to be reading and what it is reading and why it’s reading that. So with with multi frequency technology, we can actually compensate internally compensate because we’re oscillating in two modes. We can compensate for the air that’s present and give a, a corrected mass flow and a corrected, density. So Right. A lot of milk milk applications, cream cheese, well cement, anything like that. Shawn Tierney (Host): That’s awesome. Could you back up one slide for a second? Sure. Lauton Rushford (E+H): Sure. Shawn Tierney (Host): I just I find this so interesting, but I I know that the audience, not everybody’s on the same page. So I think this would be a great slide. Could you just, like, vary what the basic the basic operation of a Coriolis flow meter is? Okay. We know we’re trying to measure typically the flow rate, the flow rate. Right? And, you know, there’s all these variables that go into it. But could you really just, you know, give us the the introductory, you know, how does this thing work? Lauton Rushford (E+H): Sure. So there are exciters, if if you will, or vibrating electronics that’s going to oscillate those flow tubes. Shawn Tierney (Host): Okay. Lauton Rushford (E+H): And they’re gonna if there’s no flow in it, the oscillation is going to basically be, very in line, in sync. Your tubes are going to move out and then move in. And, again, it’s these are a little exaggerated in terms of videos, but the actual tubes will will start vibrating, almost like a tuning fork or you hit a wine glass on the side of a table and you get the vibration out of the wine glass. That’s kind of the same vibration that’s happening. And now as we start flowing product through those flow tubes, we get these these waves that are created. And the inlet and outlet pickup coil are now not in sync, meaning that we’re using the Coriolis force or we’re essentially looking at a phase shift as those tubes start to create those waves, where where there’s a time difference between the inlet and the outlet pickup coil. And that time difference is ultimately what’s related to phase shift, which is ultimately what’s related to that mass flow that’s inside the tubes. Similarly, as we’re oscillating those tubes, if we have water going through that, those tubes, well, we know what the resonant frequency should be of water. We also know what the resonant frequency is of a more dense or a lighter, less dense fluid. So now we can start understanding what the density is specifically as well. So that’s where kind of the multivariable, measurements happen within the flow tube. But, essentially, all of it’s based around a time measurement. It’s all based around when does this, this pickup coil pick up this tube, and when does this pickup, outlet pickup coil pick up the the tube coming back. Yep. Shawn Tierney (Host): Yeah. And so we talked about the ProMASQ having two modes because when the liquids or, you know, like, the substance, like cement or dairy, you know, cream or whatnot, have a lot of ear in it, that could be a challenge. So you have this other mode. We also talked about having a, the temperature sensor thermocouple built in. Mhmm. Is is temperature always and I know I’m asking a lot of crazy questions here, but is temperature always a factor? Because I can see definitely products operate very differently than based on the temperature. Is temperature always a factor in, coming up with the calculation? Lauton Rushford (E+H): So, typically, temperature is going to affect not only the fluid. It’s also going to affect the properties of the tubes themselves. So that’s something that’s often overlooked. And and when when we’re when we’re looking at applications, yes, we care about what the the the temperature of the fluid is because, the density of that fluid may change. There may be more or less mass flow depending, on, how close a pump is. There’s a lot of installation effects as well. But, ultimately, the the as those tubes are oscillating, if you’re if the temperature is low enough or the temperature is high enough, those tubes are have the potential to move more or less Yeah. As you’re oscillating them. So that’s where temperature plays a really big factor, not only in in measuring temperature, that’s a great added value, but also in the, the thermal, properties of the actual tube’s material themselves. Shawn Tierney (Host): Thank you for taking my questions. I just find this interesting. Lauton Rushford (E+H): Yeah. Oh, that’s that’s great. That’s a great question. That is something that that isn’t really thought about, but, we always we always have to take that into account. And and that’s part of, ensuring that the the stated accuracy, their specifications of the device are met throughout the entire, temperature range of the meter’s specification. So if we know that we’re gonna be operating, this meter is rated for negative 40 degrees f to 300 degrees f, well, we have to make sure that we understand how the tubes will react throughout that entire range. And that’s that again goes back to that innovation that goes back to the research and development that goes into the design of these sensors. So, a lot of important things there. So with that, I guess there’s there’s another added value that that comes into play when, we talk about oscillating that Pro Mask Q at a, at two modes. There’s actually an additional effect that happens to the tubes, And as those tubes because of how long those tubes are, as the tubes start oscillating, at the end of their oscillation, at their maximum amplitude of oscillation, you get a slight twisting motion in the tubes themselves. And so we have a device that is called our ProMass I that directly measures, viscosity directly out of the meter. And that is using a similar, a similar technology in a torsional oscillation mode. Whereas the ProMAS Q, just by nature of design, actually has some slight twisting motions. So, you know, our our r and d g experts and geniuses over, over over overseas, they they came up with this idea. Well, why couldn’t we do a similar thing with our ProMask Q? Why couldn’t we look at how much shear we’re placing on the fluid or how much twisting we’re placing on the on the fluid and understand maybe a little bit more about the individual properties of that fluid that’s going through the meter? And that’s where the oscillation the the torsional oscillation or the rotational oscillation, of that that flow tube can give us a little bit more insight into the viscosity of the fluid itself. And so this is where kind of another innovation, which is on the ProMascue, the hydrocarbon viscosity monitoring. We do what’s called we stated it’s for hydrocarbon viscosity, and the reason for that is because hydrocarbons have a very known, viscosity profile across all different pressures and and temperatures. And so we can we can verify on water and ensure that the meter is going to react properly, and and maintain the accuracy that we stated it’s going to have. And, again, this is a monitoring point. It’s not necessarily a calibrated point. It is plus or minus 10% accuracy, which isn’t very high, but it’s it’s enough to where you can start seeing when you have the difference between a very heavy crude oil and water or a very light crude oil or, like, light hydrocarbon. And the repeatability is ultimately where where the the use case comes in. So this is one of the highlights that I wanted to to point out because I think not only on the monitoring side, it gives us more values, it gives us more information on on what’s happening inside the meter, without us having to open up the meter, and and or open up the the pipe and and look at it. So a couple of applications, typically you’re gonna see them both, in all parts of oil and gas, which is upstream, midstream, and downstream, all the way into, refining products. A lot of these applications, in in midstream, especially in pipelines, is going to be the addition of some sort of drag reducing agent. So we can understand as adding that as we start adding that drag reducing agent into pipelines, how much effect is it actually having? Are we changing the properties enough of the product, or is it, are we not changing it? Are we changing it too much? It gives us, more of a, a qualitative understanding of the product that’s going through the meter. So and, you know, I’d I’d mentioned earlier, you know, we do, a lot of industries, but, you know, I guess the two completely opposite industries would be something like oil and gas and, life sciences or pharmaceutical, And that kind of plays into this transition here into our, ProMASS U. This is our, is a relatively new product, that we’ve had out for less than a year at this point. But our ProMASS U is our single use Coriolis technology. In a lot of pharmaceutical applications, there’s a lot of challenges in terms of cleaning, in terms of making sure that there’s no risk of cross contamination. And the biggest thing with that is, the introduction of single use production. So taking cells, biology, all the way through to a, a marketed medicine or a product, but using all single use products. And that saves on risk for cross contamination, especially in large factories. And, it also actually does save some money because of the amount of chemicals and and cleaning that has to go on in a lot of these pharmaceutical companies. A single use technology kinda fits the need in in that industry very, very well. Shawn Tierney (Host): So what I’m looking at here is it looks like a a lab tabletop type device Yep. And the the u, right, the the the pipes is replaceable. So Yes. It looks like a cartridge where you would, like, you know, turn a lever. You could let’s say you ran product one and you ran that for a while and then you’re done. You would turn this lever, release the cartridge, pull it out, and those pipes don’t have to be cleaned. They can be disposed of. And now you put in your new one, and you can run a different product. And we all know, like, a few years ago, we all heard the horror stories of a pharmaceutical that makes two different batches of medicine, and it was like nightmares. Thank god. That never get out into the real world because only only god knows what would happen. So that’s that’s I like you can’t we can’t exclude that type of cross contamination just can’t happen in Yeah. The twenty first cent in the twenty first century. So but this this is so interesting. Is this c is this something that would be in a I’m just looking at such a nice looking desktop device. Would this be something that was only used in a lab or could it actually be used in a production line? Lauton Rushford (E+H): Yeah. So there’s there’s two versions. Okay. There is a tabletop, which is what you can kinda see on the screen where we have this chassis built around, the the there’s really three components in this. There’s a a transmitter that’s kind of sitting at the top there. There is a base unit, which is where the sensor goes into, that has all the electronics, and then you have your disposable sensor. So the sensor is where all your fluid is gonna be flowing through. Shawn Tierney (Host): Mhmm. Lauton Rushford (E+H): The base unit is doing all of the, manipulation on the tubes themselves. So we talked about how a Coriolis meter works or oscillating those tubes. The base unit is actually doing that, and then the transmitter is taking all of that raw data, understanding it all jumbled up, and giving it out a flow rate, a very accurate flow rate. And there’s two different versions of this. There is a test desktop version and a panel mount version. So the panel mount version would be, you know, in a skid of some sort. Mhmm. That would be permanent, but then the the single use cartridge would be pulled out, disposed of, and then a a new one would be replaced there. And and that’s kind of kind of what we’re gonna get to too in a little bit once we start seeing some of the challenges in this industry. So this industry really is is it’s not new, but it is in terms of process instrumentation. There’s not a lot of manufacturers out there who who have single use flow technologies. So there’s a challenge from our perspective as as the the manufacturer to try and meet all of the requirements of the industry, while providing a robust, accurate, reliable sensor for these applications. And so that’s where our r and d kind of, hit a hit a snag at at one point almost because they’re they’re so used to making robust products that last ten, twenty, thirty years in process. Now we have to look at a product that we want to also do all of those things, but also be disposed of. And so there’s there’s some challenges there. Similarly, there’s a challenge of of calibration in a lot of pharmaceutical plants because certain products require calibration before they’re even installed. Certain products require calibration before they’re installed and while on-site. And then, if there’s ever a replacement that goes in, there’s an additional calibration that might have to happen. And so what we wanted to do was take all of those constraints, all of those challenges, and try and check the boxes of all of them. And I think that’s kinda where our single use landed. There are still some, you know, some certain applications that are challenged, but they’re always gonna be a challenge, until there’s some innovation that comes out that that truly meets that need. But, I guess, in general, really, if if you look at a high level, it’s a half a percent accurate device. We have four different sizes of of sensors that can go into the same base unit. We have an eighth inch, a quarter inch, a half inch, and a one inch sensor that will go into this base unit. They all fit into the same base unit. So as we talked about it with an example, using product A, maybe you’re only flowing at 10 liters per minute, but then product b, you’re flowing at 75 liters per minute. Well, technically, those should probably be two different flow meters, but we can just change the different cartridges out, and and there’s no risk of of contamination, and there’s no need to change anything other than the sensor itself. It is gamma sterilizable, especially in pharmaceutical. That’s really important to make sure that there’s no contamination at all from anything in production, from any anybody’s hands getting on it or anything like that. We don’t do it as a manufacturer. We would kind of rely on our OEMs, on our, tube set manufacturers to actually put these skids together, and part of that package would be to gamma sterilize all of the fittings, all of the tubing, as well as as well as the the flow sensors. And then we also talked about the different the different designs that we have. It is stainless steel tubes, which is different, and it’s polycarbonate flow splitter. So if you see that purple part on the screen, where our tubing would come into, that is a plastic or a polycarbonate product. And then the tubes themselves where we’re actually performing the measurements is a stainless steel, three sixteen l, material, which is different because at when you think about single use, you think about plastic. You think about, bags that are plastic, bioreactors that are plastic, because they’re easy to throw away and they they’re inexpensive. But we felt like in order to meet all of those challenges and all of those, constraints in terms of, current, sensor designs, we felt like the most robust way to do that would be to use stainless steel. And we have a long history of of manufacturing stainless steel devices, and so this is just, another way that we could, show our our expertise in in in products and in especially in Coriolis meters. So there are, as I mentioned, three components. You have your base unit or your single, single use disposable sensor. Down at the bottom there, you have your base unit, which is again where all your electronics are, and then you have your, and then you have your transmitter. And there’s a cable going from the the transmitter to the the base unit. There’s a couple of things I want to highlight on the inside of what the meter is and how it what it looks like. The first thing and probably the most important is that barcode scanner. So every single one of these disposable flow tubes gets calibrated at our factory and then gets imprinted a QR code on the inside of the flow meter. And that QR code, that two d barcode scanner actually scans that information. So it can it can accurately pull in the calibration information. It can pull in the serial number of the tubes. It can pull in the line size of the tubes. It can pull in a lot of information related to those tubes. And then it can relay that back to the transmitter, and the transmitter can check to make sure everything seems functional. And that kind of falls into where our heartbeat technology, conversation may come in in in just a little bit. And then again, all the electronics are our sensor electronics boards, our, ISCM or our sensor electronics module, all is based inside that base unit, inside this very large not not very large, but a a very heavy bodied base unit to ensure stability, across the board. And so here’s an example of what that QR code kinda looks like on the on the backside of that that flow tube, and then another, look into kind of what the the the inside of the base unit looks like. You see coil inlet one, coil inlet two, or coil outlet two. Similarly to kind of what we talked about before, we really care about what’s hap what’s going on in between those tubes, in between those those two coils. And so we’re magnetically oscillating the, the Coriolis flow tubes inside at that back piece, that back, what is that? It’s like a gray type ceramic piece in the back, and that’s ultimately giving us giving us that oscillation that we’re looking for. And then our inlet and outlet, pickup coils are also magnetically coupled to to the sensors, and, we can detect very small changes in those at that oscillations those oscillations. So very very cool, very innovative. It’s a product that we’ve had out for a while in, a while, less than less than a year, but long enough. And there’s been a lot of interest in in the pharmaceutical space, especially as people are trying to save costs, go closer to maybe a personalized medicine approach, where there’s gonna be smaller, amounts of product going through, more expensive amount of product going through. Accuracy is gonna be the most important there. And so this is where, we kinda talk about a little bit more about how to maintain that data trail, that automated data trail from the cal the calibration in the factory all the way into production. And so in this case, what we what we’re looking at is, here’s the process of what would happen in in in a in a system. We would calibrate the tubes at our factory. The tubes would go to a tube set manufacturer. The tube set manufacturer puts all of these pieces together. They double bag them in a class seven ISO, ISO class seven environment. Super clean area, no risk of contamination there. And then just to be even more safe, they’re going to gamma sterilize it there. Then they’re going to bring it on-site where they have their skid created, and they’re gonna plug everything in. And then once they plug everything in and turn the entire skid on, they’re gonna, they’re gonna notice that on the flow meter, it says, hey, we’re doing a function check right now. What does that mean? That’s ultimately what we call heartbeat technology, and that’s doing some advanced diagnostics behind the scenes. And it’s checking information like electronics in the bit in the base unit. It’s checking, tubes, making sure the tubes are aligned and weren’t damaged in shipping, and ensuring that the the factory calibration is still valid on the current device. So all of that is happening kind of behind the scenes before you, even start running product through it, to ensure that we are fully CGMP or, current good manufacturing practice and operation, on a production side. And that kind of maybe leans leads a little bit into, another product that we’ve recently released, which is our Anderson Hauser ProMASS k 10. It’s the first Coriolis meter, in the world that has IO Link as an output. And now IO Link, I I think it’s really important to start with a really good basis about what IO Link is, and IO Link is something I call it the three wire digital communication, but it it’s not a 100% accurate. So we’ll maybe dive into that a little bit and talk about what IO Link can do, and how it is, is being accepted in industries, specifically in farms, in in food and beverage and pharmaceutical industries. As a general rule of thumb, most large smart factories are using Ethernet based protocols. So that means that their their the devices that they have, the control system that they have is all digital, which means you can get a lot more data and get a lot of data. You can get so much data you have no idea what to do with. There’s also, these Ethernet switches that are typically either remote Ethernet switches or switches that are out in the plant that, that are pulling in a lot of this data and then sending it up to whether it’s their asset management system or a control system, and ultimately can give us the most amount of information about the health of the device, any sort of multivariable, values that we have coming out of the device. And then similarly, on the op on the right side here of this screen, you see an IO Link system. IO Link also does a very similar thing where you have a remote, what’s called an IO Link master. It’s connected to a flow meter or connected to a level switch or connected to, a temperature probe, and it pulls all that information in, and then it outputs that information back to their control system. And so historically, we’ve had a lot of Ethernet four wire devices, whether that’s Ethernet IP, PROFINET, Modbus, any sort of digital heart as a as an option as well. That’s historically been where our Ethernet four wire and two wire devices come from. Now IO Link hasn’t really been a focus for us, but because of our our diversity in different industries, we’ve had to look at IO Link as a feasible, cost efficient choice for basic process needs in under in in flow meters, in pressure transmitters, in a lot of devices, and a lot of a lot of different applications. And so there’s some benefits and pros and cons to both. Ethernet, you have a lot of process devices versus simple simple measurement points. The, the IO Link, you have a specific range in terms of distances. That’s only about 60 feet, which means it’s really, really good for those skid solutions, that are put out in into many, many factories and especially especially in food and beverage. The IO Link masters are really where the integration happens. And then the data that’s recorded and aggregated is happening inside that IO Link master where typically on a, Ethernet based system, you all have full transparency from, device level all the way up to your your control system, DCS system, throughout and anywhere throughout that system as well. There is uses for both even in the same plants. There’s uses for both in in similar applications, but I I think one of the benefits is being the first, Coriolis manufacturer to have a IO Link device. What does that mean? Really, what it means is we can get some very good data, not all the data, but in many cases, we don’t need all of the data, and we can be super accurate, extremely fast in terms of data data transmission, and, make things a little easier in terms of of integration and installation of the devices. So typically what a a system or a subsystem might look like with IO Link, you have your IO Link master, that’s where power is is brought to, and it’s also where our connection to that overarching enterprise system or DCS system is. So that IO Link master is a must. You have to have that. You also have to have a flow meter that is or any device that is capable of outputting in an IO Link protocol, in an IO Link communication method. And then there’s a specific three wire cable that goes from the device to the master. And there this is the often overlooked thing, but it’s an IODD. Essentially what that means is it’s an IO Link device driver. So that device driver is gonna tell the IO link master what and how is this device sending information to me. So it’s almost like a little roadmap for the IO Link master to understand what’s happening on the on the base the base level of, of that IO Link device. Ultimately, these are the four things to have that you have to have for, basic subsystem components. And then, as you start integrating it to into an overarching system, there’s a little bit more that would be needed as well, but this will at least get you started, and understanding kind of why there’s IO Link masters, and why there’s IO Link protocols and technology in the first place. So again, this is our Coriolis k 10, with our IO Link master. It’s a line size three eighths of an inch all the way up to three inch. It also has what we call heartbeat technology. It has, three a. It has all of our, approvals for hygienic applications, for food and beverage applications, for pharmaceutical applications as well, and gives us a little bit more flexibility in terms of what we can offer our customers that will meet the need of where they’re at, but also prepare them for for future, expansions and, and and large scale DCS turnarounds and things like that. So, there is a couple of things here, mass flow as a standard with density, temperature, and you get a standard totalizer one as an output. There is, again, food contact materials, eHedge three a, all hygienic process connections as well as standard process connections, available with this device. And then one other key factor here is when we’re in actually interacting with this device, there’s a couple of ways we can interact with it. We can, of course, use a a touch screen. We can push the device and and be right in front of it. There’s also a method for using a free app that we have on on the Android store and the Apple Apple Store. That’s called SmartBlue. That’s available for a lot of different devices, but it is using a Bluetooth technology to, tap into the device and configure, everything. And then the other option is using a, a device manager, with a CDI port that’s built inside the transmitter as well. So all different ways to to interact with the same device, even, interacting with it using IO Link is possible as well. So a lot of different functionalities, a lot of different, options, so we can meet the needs where meet the customers where their needs are, and then also where their they wanna get get to. So that kind of takes us into what heartbeat technology is. And we actually we talk about heartbeat technology as a story because I think if we start talking about what it is before we talk about the story, it’s, it’s it’s it’s hard to to wrap your head around. There’s a lot going into it. And part of that that discussion really starts with a a marketing phrase, which is called taking the pulse of your measurement. And what that really does is is it’s trying to understand how the device is operating currently, and how the device may be operating in the future based on current conditions. And so all all of that is is started with what our customers expect out of a flow meter, expect out of a pressure transmitter, expect out of a pH probe. All of our customers’ needs and our users’ needs are expanding. So not only do they need excellent measurement performance from a device, they also need a reliable device. I I need to know when something’s going wrong. They also wanna be available. If the device itself isn’t always available, they can’t trust it. We want our customers to not only trust our device, but trust the measurement performance that they’re getting out of the device. And they also want it easy to easy to use. As we’ve seen in a lot of industries, the, the operations teams, the operators that are on on the plant floor are getting less and less, and maybe they’re moving more towards engineering. But there are a lot of plants that are running extremely lean. And so running lean means they have to run efficiently and they have to run effectively. And if our devices are not easy to use and easy to understand, we’re we’re kind of failing at at that point. So we also wanna make sure our devices are safe. We wanna make sure our devices are predictive, and we wanna make sure our devices potentially can be connected in the future. And so all of those together is now now we’ve got a difficult puzzle we’ve gotta try and solve, with any one of our measurement devices. And that’s where we think kinda heartbeat technology meets a lot of those needs and bridges the gap between, the excellent measurement performance and and all of these, needs that we have. So we split heartbeat technology into kind of three categories. We have diagnostics, which is, current, current status, current device diagnostics, advanced diagnostics. That’s the basis of everything. So if we don’t have a good basis of diagnostics, we can’t do verification. We can’t do monitoring. We can’t provide in, improved process insights, very effectively if we don’t have a good base unit. So that happens from that happens from the the design of our devices all the way down to the raw components that go into all of the devices as well. And then verification is kind of a what’s happening to my device right now, and can you give me a PDF printout of what that looks like. So that’s that’s part of the verification. And then again, monitoring how we look at certain values over time trended over time, so we can start understanding, predictively when certain process conditions or process upsets may happen or could happen, and how will they affect our measurements. So all of that together is really bridged on the diagnostic coverage. It’s based around how we can detect our, any alarms, alerts, failures, things that happen inside the device that weren’t expected. All of that needs to be, really, really important. And so our IO modules, our sensor electronic modules, our sensor, inlet and outlet pickup coils, and our divi our ex the entire excitation system that’s happening inside of a of a Coriolis meter, all are really, really important to understand the health of the device. If we can understand the health of individual components of the device, we can try and better understand the health of the entire device as a whole. Kind of the sum of, sum of equal parts or the sum of parts is is greater than the than the sum of the the system. So, that’s ultimately what we’re trying to do here. And what that means is that this value, the heartbeat sensor integrity parameter is always generated and can be used as a direct value for, understanding process related concerns as well as meter concerns. So in a similar way, we talked about, oscillation modes with our PROMAS Q, with our PROMAS I, and other flow meters as well. The frequency or the oscillation frequency that we’re actually doing for this HBSI value is a fixed diff distance from that frequency. And so at any one time, we’re we’re oscillating these tubes at one, two, almost, three every, three different frequencies every time. And so the part of this this parameter is ultimately giving us a little bit more information related to the health of the sensors, related to, even the health of the process as well. And we’ll talk about a couple of use cases on on how that, and what that means, and and can ultimately mean for you. So as a general rule of thumb, when we calibrate and design a new sensor, our HBSI value, is 0% at reference conditions, and that may fluctuate depending on if you’re operating at reference conditions or not. But right around zero, it could be negative point one to positive point one, percent, but there’s no no cause kind of for concern there. We do have kind of a stated bandwidth in which we expect the flow meter to operate well within its its factory calibration and well within its specification. But if that value shows very, very low, or values, like, right around zero as a reference condition, your HBSI value is related directly to sensor components that aren’t affected. So if our exciter current, if our pickup coils, if our, sensor tubes are not damaged, likely that HBSI value is going to remain at zero or right around zero. Now when we do have something like a wear mechanism, something like corrosion or erosion or abrasion inside the tubes, ultimately, there’s things that are going to be affected by that. Now how do we actually detect that? Well, that’s where using this HBSI value, we can actually understand individual components of the the flow meter, individual, components like the sensor tubes. For example, if we were to have a corrosion instance, your wall thickness of the tubes would change. And so what what would happen there is as we start oscillating these tubes, you would start to see that value increase because your tubes are moving moving more and more and more because we’re oscillating at the same frequency or at the at the same frequency, but the tubes is not our tubes are not as heavy. Right? So, that’s where that that HBSI value can give us information related to, kind of the health of all of our devices or all of our our components within the device. So there’s multiple ways to observe that HBSI value, and this is where trending comes into play, looking at something and trying to be predictive and preventative, in the long term. There’s no process interruption. This this entire thing happens. This entire, HBSI value is generated, automatically by the device itself. It remained the measurement remains completely available, continuously available, and it happens in situ behind the scenes, if you will, of a of your measurement. And then you’re gonna improve efficiency, obviously, and and reduce risk if you understand what’s happening and what’s going on inside the flow meter without you actually visually seeing what’s happening to the device. So, all of that to say, there’s a lot of ways to observe it, but there is also important ways, that we can use it. So, yes, knowing that the HVSI value is zero is just that’s great. That’s awesome. But what does that ultimately mean? And here’s a couple of examples. Here’s a couple of use cases. So we’ve had an application, in the past where, it was an abrasive fine slurry. And so anytime you have abrasive fine slurries, you have to be extra cautious of using bent tubes, and also the velocities in which you’re flowing those those those processes through there. So the initial one, they had was a dual bent tube that failed six months in the service, and they replaced it with a single straight tube. So they expected to see some abrasion, but because of the design of the flow meter, that HBSI parameter was taken over time, and it’s been installed for for four years now and shows a relatively flat line behavior for the the HBSI value, meaning there’s no wear mechanism going on inside that device, be because of the process. So that’s a that’s a use case there. Another use case that that we talk about a lot is is the presence of abrasion in general. We know that in some applications, there is going to be abrasion. And that’s on us as the manufacturer, that’s also on, the customer to understand what their levels and limits are, and are capable of handling. And if they don’t know, that’s that’s where we we should probably step back and say, hey, let’s let’s talk about this as a as a at a high level. What happens when something goes wrong? Do you just automatically remove the device? Is it are you down in terms of, not being able to produce properly? Things like that. And that’s where in this case we used, kind of predictive maintenance every ten, twelve, fifteen, eighteen months. We know we have to replace this device because of the abrasion, or we have to decrease our velocity, through the meter. So either way, that’s ultimately this use case and showing showing that there is a wear mechanism happening, and we need to understand at what point do we need to start replacing these devices. And lastly, here’s one that was an unexpected wear mechanism. So customer used a Coriolis flow meter, and for five days, everything was great. No worries. Everything was totally fine. Customer didn’t expect anything to be wrong, which is exactly what was shown. And then once they did a cleaning cycle with a new product a new cleaning product, they noticed that this value increased. And so over time, I mean, think about twenty five days, you’re increasing your HBSI value because you’re performing your regular scheduled cleaning. Well, that wasn’t understood, and that wasn’t, that didn’t the the customer didn’t know that was going to affect things. We didn’t know that was going to affect things, but this ultimately shined light on, here’s what’s happening. Now can we change cleaners, or can we use a material that’s more compatible with that cleaner, or can we just live with the the, the risk that the the values will last long enough for us to get really, really good good data, and then we can, and look at replacing it, things like that. So this was another, application where we weren’t expecting to see any sort of drift, but we did because of, the the wear mechanism that that wasn’t, very well known or or present at at the time. So, ultimately, I think, you know, using, something like heartbeat technology as a, a confidence boots booster in your measurement is is really the the key there. Because I think the more that we can increase confidence in our measurements, the more that our customers, will continue to want to to work with us and collaborate with us on on applications and and talk, about, different, industry applications and things like that. As as the working for a manufacturer is currently my my first my first job, I think I think, out of college, I think there’s a there’s a really cool benefit of of a privately owned company that continues to invest in research and development for the products that we have. And, I think that, you know, Anderson Hauser has has done a great job of, showing some innovations that we can within our Coriolis flow flow meter technologies. That’s all I got. Shawn Tierney (Host): Well, I thought that was very interesting, especially the HBSI, how you guys have in included that in your product so you can see that everything’s good, or if something is starting to go out of out of, you know, out of I don’t wanna say out of whack. You know, something’s starting to go out of alignment, you know, with Yeah. What you were expecting. And that example of cleaning, you know, nobody would have thought, you know, this, you know, this product is designed to run this fluid through it, but the cleaner, they’ll finding out that the cleaner was the problem. That’s priceless. Right? That’s priceless. And you can you like you said, there’s different options you can take to address that issue, but now that you know what the problem is. If you didn’t know there was a problem, then your values would be off over time, and that wouldn’t be good at all. Right. So Right. Just such an interesting topic to talk through. And I I appreciate you not only to take us through your products, but also taking us through some of the technologies that are built in the products and that make them work. And I you know, there’s a lot there between the, field bus, the PROFINET, and the Ethernet IP on your really high end, high accuracy, you know, type of installations versus maybe a smaller installation where you can use IO Link because it’s slower cost. We just had the IO Link folks on the podcast. If you guys missed that, just, check back, a podcast or two ago. We had the IO link guys on talking about what they do and how they do it, and I think you summarized it very well in this presentation. And so I think that makes a lot of people happy because in many cases, that’s a lower cost. Yeah. I mean, you’re not gonna get the same performance as you’re gonna get over Ethernet, but you’re it’s a lower cost, and it’s, you know, maybe enough information for your application. So it’s good to see that option there, especially for those skid manufacturers who can utilize those products. You know, with that, I I don’t have any other questions. Was there anything else you wanted to say before we close out the show? Lauton Rushford (E+H): No. All I have to say is thank you. I appreciate the the time and the the the platform. I think this is, awesome, and thank you for asking all the questions you did. I think there was a lot of a lot of really good information that you mentioned, as well there too. So, thank you. That’s all I have to say. Shawn Tierney (Host): Well, Lon, thank you for coming on. I, I just like the first time we had Anderson Hauser on, it was just really just so intellectually interesting. So it’s our pleasure to have you on, and we really appreciate you guys. Lauton Rushford (E+H): Thank you. Appreciate it. Shawn Tierney (Host): Well, I hope you enjoyed that episode, and I wanna thank Lawton for for coming on the show, not only to bring us up to speed on Coriolis flow meters, but also answering my questions because I know I interrupted there, especially at the beginning with a lot of questions. So really appreciate him, taking my questions and also bringing us up to speed on the technology. Now Now I also wanna thank E and H for sponsoring this episode so I could bring it to you ad free on all platforms. I don’t like ads, but, you know, you gotta pay the bills. And when a vendor comes in and they sponsor the show, it really underwrites our cost to edit it and publish it. So I’m super appreciative to them and to all our sponsors who do that. And please let them know if you see E and H anywhere out there, if you’re talking to one of their reps or you’re talking to, somebody from E and H, please let them know how much I appreciate and maybe you appreciate that they sponsored this episode. I also wanna mention that you may not know this, but I brought my other podcast back, the automation news podcast. I renamed the automation tech talk. And anytime I have an episode that is, one of my shorter episodes that I think will do good on audio, be a good listen. Right? I am publishing it on that automation tech talk podcast. And on this podcast, you probably notice every once in a while, I’m releasing an episode of the automation show. Some episodes of the automation show, there’s so much hands on that I don’t think they’d make a good audio addition, but some of them are like presentations and discussions. And I think those would make a good episode of the automation podcast. So I’m releasing them on this podcast channel, but I’m keeping the name, the automation show. So you know, hey. This is, originally was a video that was turned into a podcast. So give me feedback. If you don’t like those, I’ll stop doing it. But I thought because, some weeks we can’t always bring you a new episode, we may have an episode of automation show that I think would make a good listen. So I wanted to bring those to you on this platform as well. And, again, I always love your feedback, and I wanna thank everybody who’s given a five stars or thumbs up. You guys are great. I you know, last time I checked on it, you had so many people, had given us five stars. And that you know, that’s really how we find new vendors come out, like E and H and other vendors. Right? They specifically said you guys were such had such great feedback on the previous podcast that they wanted to come back on. So please take a moment. I know a lot of you listen while you’re driving. But when you get home or get to some place where you can look at your phone, please give us a thumbs up or a five star rating because that really helps us grow the audience and find new vendors to come on the show. And with that, I’m gonna end the show right there. I wanna wish you all good health and happiness. And until next time, my friends, peace. Until next time, Peace ✌️  If you enjoyed this content, please give it a Like, and consider Sharing a link to it as that is the best way for us to grow our audience, which in turn allows us to produce more content

We talk about crowdfunding vs pre-orders, how tired we were after Tabletop Scotland, and chat with Andreas of Nordlc Skalds, who reveals some exciting news that you can't afford to miss00.00.40: Introductions00.03.04: World of Gaming - Melsonian Arts Council gives up on crowdfunding sites; Planet of the Apes arriving; RipCrypt from Modiphius; our Tabletop Scotland report00.45.29: Interview: Andreas about Windheim Falling01.22.33: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Matthew needles Dave in this episode, plus we talk about Coriolis licenses, Tabletop Scotland, Windheim and NPC for Tales of the Old West00.00.40: Introductions00.03.26: World of Gaming - Coriolis the Great Dark 3rd party license released; TableTop Scotland approaches (next weekend!); Windheim Falling the second part of the Horn of Dawn, is on Kickstarter00.24.48: Essay and Discussion: Non-player characters in Tales of the Old West01.06.00: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Highly accurate and versatile, Coriolis flowmeters have become standouts for mass flow measurement, particularly for complex applications in the chemical, energy, life sciences and oil and gas industries. Micro Motion ELITE Coriolis flowmeters have been continually redefining what's possible for flow measurement, and Control talked with Jana Andreas, Senior Global Product Manager at Emerson, about how they're reinvigorating the possibilities for industrial processing.

I welcome Tomas Härenstam, the CEO of Free League Publishing , and the creator of the Year Zero Engine which has been used in many of their amazing games such as Tales from the Loop, Vaesen, Alien, Blade Runner and Coriolis - which recently launched a new version called - The Great Dark.Free League Publishing is a game studio and publisher dedicated to speculative fiction based in Stockholm, Sweden. Voted Fan Favorite Publisher at the ENNIES in 2020, 2021, 2023 and 2024 Free League has published a wide range of award-winning tabletop roleplaying games and acclaimed art books set in strange and wondrous worlds.For more information:https://freeleaguepublishing.comhttps://www.instagram.com/freeleaguepublishinghttps://www.facebook.com/FreeLeaguePublishinghttps://www.youtube.com/c/freeleaguepublishingOutside the box: How Sweden conquered the world of role-playing gameshttps://fandrake.com/produkt/outside-the-box/---------Fang Dungeon Bestiary Backerkit:https://www.backerkit.com/call_to_action/3381d640-ea27-40dd-9972-ee85087e1353/landingBug Busters Kickstarter:https://www.kickstarter.com/projects/diekugames/bug-bustersWeb Site:https://diekugames.comTo learn more about Dieku Games:https://diekugames.itch.iohttps://www.instagram.com/diekugames https://www.twitter.com/diekugameshttps://www.tiktok.com/@diekugameshttps://www.patreon.com/diekugameshttps://diekugames.blogspot.comhttps://discord.com/invite/mtP3nyUWZz#OSR #TTRPG #artinspiration

This episode of the Oil & Gas Measurement Podcast features an interview with Landen Beckham from e9 Treatments. The discussion centers on e9's molecular coating, which is designed to reduce buildup and fouling on oil and gas measurement equipment, and how it can extend the operational life of meters. The conversation covers the benefits of this treatment, with a focus on its application for mag meters, Coriolis meters, and provers. Visit PipelinePodcastNetwork.com for a full episode transcript, as well as detailed show notes with relevant links and insider term definitions.

This episode of the Oil & Gas Measurement Podcast features an interview with Landen Beckham from e9 Treatments. The discussion centers on e9's molecular coating, which is designed to reduce buildup and fouling on oil and gas measurement equipment, and how it can extend the operational life of meters. The conversation covers the benefits of this treatment, with a focus on its application for mag meters, Coriolis meters, and provers. Visit PipelinePodcastNetwork.com for a full episode transcript, as well as detailed show notes with relevant links and insider term definitions.

De minimis; Diablo; deadly wuxia; DIE; Dungeons and Dyslexia; and detectives 00.00.40: Introductions00.03.59: World of Gaming - De minimus and US imports; Diablo rpg; Streets of Jade and its inspiration; DIE the TTRPG of the comic about TTRPGs is getting a Comic QuickStart; we got a great review; Tabletop Scotland 00.42.12: Interview with Paul Baldowski about Cork Bord01.29.03: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Miska Freeman is a full-time TTRPG cartographer and game designer from Finland. He founded the indie publishing label Ironspine Press in 2006 and started publishing TTRPGs mostly in Finnish. In 2015 he started creating maps and Miska's Maps was born.He is running Pathfinder 2E, Coriolis, and Delta Green campaigns.www.miskasmaps.comwww.ironspine.comThank you for listening to Weird Games and Weirder People!Please subscribe to the show to keep up with new episodes!SUPPORT THE SHOW!If you would like to support the show, leave a review and/or join the ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠Weirdos' Cool Club⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠! It will help keep the podcast going! It will help me pay collaborators! It will help me do this work more often and better! I will really help! ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://buttondown.com/old_skull/archive/join-the-weirdos-cool-club/⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠You can also support me buy buying one of my games!Kosmosaursgot released in print, and it is my RPG inspired by Saturday morning cartoons about Space Dinosaur Rangers defending the galaxy from evildoers!  Get your copy right here: ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://www.exaltedfuneral.com/products/kosmosaurs-pdf⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠Get other games of mine on Exalted Funeral: ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://www.exaltedfuneral.com/search?q=Diogo+nogueira⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠Or buy anything at DriveThruRPG using this link: ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://www.drivethrurpg.com/?affiliate_id=338514⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠Or buy something from my itch store:⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠ ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://diogo-old-skull.itch.io⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠SUBSCRIBE TO WEIRD TALES FROM THE OLD SKULL!The place where I share ideas, discoveries, weirdness, and the things I am developing, like new TTRPG books, zines, illustrations and a lot more. Lets get weird!Check out our latest post:⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠ ⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠⁠https://buttondown.com/old_skull⁠⁠

Old school podcasting! Hose rules for Coriolis the Third Horizon00.00.40: Introductions00.03.37: Thank you to our new Patron - D20 Raven00.05.12: World of Gaming - The One Ring starter set and 5e version; Dragonbane minis up on Kickstarter; Coriolis - The Great Dark official release date 12 August; new game Twilight Sword, by 2Little Mice & Free League; ENNIE wins. 00.32.56: A Vaesen tour of Uppsala01.13.25: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Having just received Coriolis: The Great Dark, Art decides to revisit The Third Horizon and go into the two books a little bit. A little warning... Art's initial impressions of The Great Dark lean a little more negative if that's not your thing.Join us on our Discord: https://discord.gg/tQGJVsrnNpFollow us on Blue Sky and X @BlackLodgeRPG and on Mastadon @ BLTNRecorded on 7/20/25 Coriolis: https://freeleaguepublishing.com/games/coriolis/Intro Theme: Dances and Dames by Kevin MacLeod.In session music provided by Tabletop RPG Music: www.patreon.com/tabletoprpgmusic00:00:00 Intro00:00:39 The Third Horizon00:46:03 The Great Dark01:00:02 Wrap Up

Is the Earth really messing with your shot? Host Seth Swerczek and Senior Ballistician Jayden Quinlan dig into the Coriolis and Eötvös effects to separate fact from fiction in long-range shooting. They bust the myths, crunch the numbers, and reveal what actually matters when Earth starts spinning.

Old school podcasting! Hose rules for Coriolis the Third Horizon00.00.40: Introductions00.02.03: Thank you to our new Patron - Paul Penna00.02.33: World of Gaming - Troll Lord games crowdfunding a factory; Green Ronin legal defence fund, crowdfunding legal costs: Cörk Bord, Paul Baldowski's Nordic police procedural/horror. 00.23.04: Old West News - our error00.35.29: Faith in the 3rd Horizon (Jim's blog)00.58.22: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Viajar hacia el este suele llevar más tiempo que hacia el oeste debido a la rotación de la Tierra. Cuando viajas hacia el este, te mueves en sentido contrario a la rotación de la Tierra, por lo que puede parecer que recorres más distancia. Este fenómeno, conocido como efecto Coriolis, afecta a la duración de los vuelos. El vuelo comercial más largo, de Singapur a Nueva York, puede durar unas 18 horas, recorriendo unas 9.000 millas. La velocidad más rápida que ha alcanzado un avión comercial es de aproximadamente 700 mph. Si alguna vez se encuentra en Nepal, notará su singular diferencia horaria de 45 minutos, que la adelanta en 15 minutos a la hora estándar de la India. Viajar está lleno de curiosidades fascinantes. Learn more about your ad choices. Visit megaphone.fm/adchoices

00.00.40: Introductions00.02.02: World of Gaming - The "punch a republikan" affair; Diamond Distribution claiming ownership of publisher's stock; Moria up for Ennies; Nations and Cannons RPG00.31.22: Od West News - Distribution; certain things are exclusive to our on-line store; catch up on stretch goals00.45.12: Feature - Coriolis, Great Dark, Great Questions01.10.20: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektap ★ Support this podcast on Patreon ★

Dave and Matthew talk about conceiving a child (not together)00.00.40: Introductions00.03.15: Thank you to our new patron: Sebastian Schmitt00.04.12: World of Gaming: FreeRPG day report and swag. D&D designers join Darrington press; Evil Hat cease development of the Tomb Raider RPG, citing creative differences with the licensor; Dave reads a book!00.38.55: Our shop is live! Buy direct from us, we are working on remaining stretch goals and Gold County 00.46.39: Feature - The Stork in the Old West (The Birth of Calamity)01.05.28: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

What did Dave say in his seminar at UK Games Expo00.00.40: Introductions00.03.39: Thank you to our new patrons Huscarl and Tobias Vahlston00.05.23: World of Gaming: Our UKGE reports; FL update on Bladerunner Replicant Rebellion; Outgunning Action Flicks 2 released; High Noon at Midnight from Monte Cooke Games; we are coming to Spelkongress 25.00.36.31: Feature: Writing and Design  - how to make your player happy 00.59.41: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

La Terre tourne pourtant très vite : à l'équateur, elle effectue un tour complet sur elle-même en 24 heures, soit une vitesse d'environ 1 670 km/h. Pourtant, nous ne ressentons ni ce mouvement, ni une quelconque sensation de déplacement. Cette absence de perception s'explique par plusieurs lois fondamentales de la physique et par la façon dont notre corps est conçu pour ressentir les mouvements.Un mouvement constant et régulierL'une des principales raisons est que la Terre tourne à vitesse constante. Il n'y a pas d'accélération perceptible, et c'est justement cela qui fait toute la différence. Selon la première loi de Newton, aussi appelée principe d'inertie, un objet en mouvement continue son mouvement à vitesse constante tant qu'aucune force extérieure ne vient le perturber. C'est pourquoi, à l'intérieur d'un avion en croisière, on peut marcher normalement : tout bouge à la même vitesse, nous y compris.Nous tournons donc avec la Terre, à la même vitesse qu'elle. L'atmosphère aussi tourne à la même vitesse. Il n'y a donc aucun frottement de l'air, aucun déplacement brutal, rien qui signale à nos organes sensoriels un mouvement particulier. La rotation est silencieuse, régulière, imperceptible.Un corps humain peu sensible aux mouvements lentsNotre corps est équipé d'un système vestibulaire, situé dans l'oreille interne, qui permet de détecter les mouvements, les accélérations et les changements d'orientation. Mais ce système ne réagit qu'aux accélérations. Il est incapable de détecter un mouvement uniforme et circulaire à grande échelle comme celui de la Terre. Ainsi, tant qu'il n'y a pas de variation de vitesse ou de direction, notre cerveau ne reçoit aucune alerte.La taille colossale de la TerreAutre point essentiel : la courbure de la Terre est immense. Même si nous tournons à grande vitesse, la trajectoire est très large et le rayon de courbure gigantesque. Cela rend la force centrifuge très faible — de l'ordre de quelques millièmes de g, bien trop peu pour être ressentie directement. À l'équateur, cette force réduit à peine notre poids apparent d'environ 0,3 %. Insuffisant pour créer un vertige.Une rotation prouvée, mais invisible au quotidienBien que nous ne la ressentions pas, la rotation de la Terre est détectable scientifiquement : par exemple avec le pendule de Foucault, ou à travers l'effet Coriolis qui influe sur les courants océaniques et la trajectoire des vents.En somme, nous ne ressentons pas la rotation de la Terre parce que tout tourne avec nous, à vitesse constante, sans heurt. Notre corps ne perçoit que les changements brutaux… pas les grandes mécaniques douces du cosmos. Hébergé par Acast. Visitez acast.com/privacy pour plus d'informations.

We talk about Greatships in the Great Dark00.00.40: Introductions00.02.51: World of Gaming: What we are doing at UKGames Expo; plus, New Dragonbane expansion; Invisible Sun, Bettin' Bullets; online retail coming soon; VTT coming later; our first game with proper rulebooks00.32.54: Old West News: US shipping notices being received, online retail coming soon; VTT coming later; our first game with proper rulebooks00.51.04: Feature: Building Greatships in the Great Dark01.18.10: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

We talk to Gabe Garcia of Firelock Games about the first expansion for the Year Zero Engine WWII RPG, War Stories...00.00.40: Introductions00.02.20: World of Gaming: Alien beta PDFs out, great to see we are still credited as authors on Hope's Last Day, Thomas is our new collaborator; Goodman Games kerfuffle; Dave's seminar at UKGE, would you like to see Tales of the Old West tees at UKGE?00.28.51: Old West News: US fulfilment update, pledge manager closing again00.38.01: Interview: Gabe Gacia on War Stories - the Pacific plus Market Garden 01.21.28: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

The much postponed group discussion of Coriolis: The Great Dark 00.00.40: Introductions00.04.43: World of Gaming: We were at Dragonmeet: Call to Adventure!; Windheim won all the awards; Epic Encounters Symbaroum Minis; Stonemeiiher games using the US government over tariffs; Realms of the Three Rings and its 5e version is out in print; new will be at UKGE 00.33.18: Old West news: Fulfillment continuing, Pledgemanager has reopened; acclaimed writer Adrian Tchaikowski said nice things00.43.55: Discussion: Reviewing our Coriolis - The Great Dark adventure01.51.08: Next time and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

Finally revenge for Lindesfarne! We interview Andreas Lundstrom about the viking apocalypse. 00.00.40: Introductions00.03.26: World of Gaming: Mongoose gets the rights to Dark Conspiracy; War Stories KS starts on the 16th; tariffs in the news; Free League were at Salute; we will be at UKGames Expo Old West News: 00.26.20: Old News West(?): Fulfillment has started, people posting pics and lovely comments, dice have arrived, we are bagging up and labelling, delivering to the distributor on Tuesday00.35.06: Interview: Andreas on Yggdrasil Burns01.16.08: Next time (The Great Dark) and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. The core rules are now available on DriveThru too.Put our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

We cover updates to the maps, improved accessibility of the books, refinement of the Panic & Stress rules, expansion of Stealth Mode and the work the put in to make the Cinematic Adventures easier for Game Mothers.  Rapture Protocol is a new cinematic adventure featuring Space Truckers! The new Starter Set will be streamlined and less expensive.  We also cover everyone's favorite topic, Tariffs and how Free League will be handling them. We also touch on Dragonbane, Coriolis, Vaesen &  the Invincible RPG.

We interview haul Dee Sanction Paul Baldowski into the torture chamber00.00.40: Introductions00.05.53: World of Gaming: Alien Evolved edition KS is live and doing very well: War Stories KS coming in April; our friend and TotOW artist Máté Cziner has a solo game A Practical Guide for the Amateur Exonaturalist out on DriveThru; The Dee Sanction Monad edition live on Kickstarter00.20.17: Old West News: PledgeManager almost complete, dice are in the air(mail); planning supplements 00.31.40: Interview: Paul on his Dee Sanction money grab!01.19.10: Next time (Adreas on Yggdrasil Burns) and Goodbye Effekt is brought to you by Effekt Publishing. Music is by Stars in a Black Sea, used with kind permission of Free League Publishing.Like what we do?Sign up for updates on Tales of the Old West via our new website and download Tales of the Old West QuickDraw available for free on DriveThru. Missed the KS? Pre-orders available on PledgeManagerPut our brand on your face! (and elsewhere)Buy pdfs via our DriveThru Affiliate linkLeave a review on iTunes or PodchaserFind our Actual Play recordings on effektapFind essay transcripts and other stuff on Matthew's, and Dave's blogs ★ Support this podcast on Patreon ★

Season 3 of our Coriolis campaign ends with some big problems surfacing. Some from decisions the players have made, some from the GM just being an asshole...We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

The crew go back to Amira, will they be able to sooth her anger? Or will they just make matters worse? You take a guess...We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

Our Coriolis campaign continues as the crew of the Crescendo/Diminuendo are trying to sell the information about the Nadir...We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

As the crew of the Crescendo plan their next move, secrets are shared...We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

The Asturban have been chased off the ship, but will the cost of this fight turn out to be too high...?We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

...and we're at it again! Taking back the Crescendo from the Asturban...We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

It would seem that the Crescendo is under attack again. Time to buckle up!We're an actual play podcast where professional actors in Sweden play the best of Swedish RPGs! Led by one of Swedens most experienced and appreciated podcast game masters we play Coriolis, a game published by Fria Ligan (Free League publishing).Starring: Anneli Heed, Ingela Lundh, Mattias Redbo, Amanda Stenback and Jakob Hultcrantz Hansson.Game master: Andreas LundströmCharacter art by: Moa Frithiofsson

Nassim Haramein was born in 1962 in Geneva, Switzerland. Haramein's father was a scholar at the University of Geneva completing a thesis under the guidance of the notable Jean Piaget, considered one of the fathers of child psychology. Although offered a position at the prestigious Piaget Institute, his father choose to accept a position at the child psychology department of the University of Montreal becoming the director of the orthopedagogy department. As a result, Nassim Haramein grew up in the Canadian environment and wilderness most of his childhood leading to an early successful career in the ski and mountaineering industry affording him a significant amount of time to observe and ponder the mechanics of the natural world. Starting in the early 1980's, Haramein developed a significant interest in sciences and philosophy, specifically in physics and the nature of the material world. This led him to a deep and dedicated self-study of both the foundation of general relativity and quantum theory. After some ten years of intensive study and exploration, Haramein started lecturing in various contexts both in Canada and the USA. This resulted in a first physics paper published in 2004 with co-author, prominent physicist, Dr. Elizabeth Rauscher "The Origin of Spin": a consideration of torque and Coriolis forces in Einstein's field equations and grand unification theory. Eventually Haramein published a seminal paper entitled “The Schwarzschild Proton” which described the proton as having equivalence energy and force structure to a mini-black hole due to quantum vacuum fluctuations. With the event of the holographic principle in physics, Haramein eventually published a series of papers describing the source of mass and the confining forces of subatomic particles being related to quantum vacuum fluctuations in a formalism dubbed the holographic mass solution. This peer-reviewed paper entitled “Quantum Gravity and the Holographic Mass”, published in 2013, employed a generalized holographic principle, relating the proton's charge radius and mass, and predicting a radius differing from the Standard Model by 4%. This proton radius was later validated through experiments at the Paul Scherrer Institute and is now the official CODATA value. From 2013 to present, Haramein publishes multiple papers addressing the nature of the electron and the so called missing mass issue in cosmology as well as a first paper on biophysics relating the structure of spacetime to the biological organizations of the brain entitled “The Unified Space Memory Network: from Cosmogenesis to Consciousness”. In September 2023, Haramein et al. pre-published a paper entitled “The Origin of Mass and Nature of Gravity” detailing the correlation functions related to the dynamic of the quantum vacuum and demonstrating that the mass and confining forces are the result of a screening mechanism of the density of the vacuum at the Planck scale. This initial paper is the first in a series that set the foundation for the unification of forces and physical constants which will follow.