| Current Path : /var/mail/ift-informatik.de/cgabriel/.Archive.XXX/cur/ |
Linux ift1.ift-informatik.de 5.4.0-216-generic #236-Ubuntu SMP Fri Apr 11 19:53:21 UTC 2025 x86_64 |
| Current File : /var/mail/ift-informatik.de/cgabriel/.Archive.XXX/cur/1543430377.zarafa.38832820181128:2, |
From 11123-10529-32497-3009-christian.gabriel=shortnote.de@mail.meshep.bid Wed Nov 28 19:39:37 2018 Return-Path: <11123-10529-32497-3009-christian.gabriel=shortnote.de@mail.meshep.bid> X-Original-To: cgabriel@ift-informatik.de Delivered-To: cgabriel@ift-informatik.de Received: by ift-informatik.de (Postfix, from userid 5555) id 709753D200074; Wed, 28 Nov 2018 19:39:37 +0100 (CET) X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on h2486555.stratoserver.net X-Spam-Level: ** X-Spam-Status: No, score=2.1 required=5.0 tests=BAYES_00,DKIM_SIGNED, DKIM_VALID,DKIM_VALID_AU,HTML_FONT_LOW_CONTRAST,HTML_MESSAGE, RAZOR2_CF_RANGE_51_100,RAZOR2_CF_RANGE_E8_51_100,RAZOR2_CHECK,RDNS_NONE, T_FRT_FREE autolearn=no autolearn_force=no version=3.4.0 Received: from flint.meshep.bid (unknown [50.3.72.183]) by ift-informatik.de (Postfix) with ESMTP id 3F8143D200051 for <christian.gabriel@shortnote.de>; Wed, 28 Nov 2018 19:39:35 +0100 (CET) DKIM-Signature: v=1; a=rsa-sha1; c=relaxed/relaxed; s=k1; d=meshep.bid; h=Mime-Version:Content-Type:Date:From:Reply-To:Subject:To:Message-ID; i=enlightenment@meshep.bid; bh=1sEDJ3lZnAQqHHu31C8ilmE6shs=; b=WMeRtXooEHSO1qdQNlozCl2DWJlrBRIR0OrtzEq6EWRbfJjFTzVR5hrzUTxWEL7yzTMzI9xgKgMA FHjGI0aniUmYo+9yPQHM54TF7KvCGfmeu0VN46deSJhz/G8eHCv6teT6PeVVVVFUgw9Kz1JmDxqz D96ClRp310W0RcFMAoY= DomainKey-Signature: a=rsa-sha1; c=nofws; q=dns; s=k1; d=meshep.bid; b=Mihp8zfd9BM+3OXv3so7Skugi1d1Gc6NSWb+egh0O70nHB6j6kTvs8j3+Wk/571FyrKvAMXkPyyt Igy9k9gk0jtyrGCFEP8oUtkfEFIrD+4P9VBQVcj8gbwjpP8IKABKaxG0y3a9+5T4xE7xvJfR8wEI oAnL+869k8efttTLRoE=; Mime-Version: 1.0 Content-Type: multipart/alternative; boundary="e15661b68cad911545cf09e35758f872_2921_7ef1" Date: Wed, 28 Nov 2018 19:38:55 +0100 From: "Survival Business Card" <enlightenment@meshep.bid> Reply-To: "Survival Business Card" <correspondence@meshep.bid> Subject: Prepper's Pocket Protector? To: <christian.gabriel@shortnote.de> Message-ID: <tyxxo2ipq38ajeuh-tdo77odhb3yaps2j-2921-7ef1@meshep.bid> --e15661b68cad911545cf09e35758f872_2921_7ef1 Content-Type: text/plain; Content-Transfer-Encoding: 8bit Prepper's Pocket Protector? http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300 http://meshep.bid/ey3m4j25uwDCGqfA1_KHipxI0rFo3MkMjnd_w2yGoxEGTqT3_32497_2921_257fc063_0300 The vapor-compression cycle is used in most household refrigerators as well as in many large commercial and industrial refrigeration systems. Figure 1 provides a schematic diagram of the components of a typical vapor-compression refrigeration system. Figure 1: Vapor-compression refrigeration The thermodynamics of the cycle can be analysed on a diagram as shown in Figure 2. In this cycle, a circulating working fluid commonly called refrigerant such as Freon enters the compressor as a vapor. The vapor is compressed at constant entropy and exits the compressor superheated. The superheated vapor travels through the condenser which first cools and removes the superheat and then condenses the vapor into a liquid by removing additional heat at constant pressure and temperature. The liquid refrigerant goes through the expansion valve (also called a throttle valve) where its pressure abruptly decreases, causing flash evaporation and auto-refrigeration of, typically, less than half of the liquid. Figure 2:Temperature–Entropy diagram of the vapor-compression cycle. That results in a mixture of liquid and vapor at a lower temperature and pressure. The cold liquid-vapor mixture then travels through the evaporator coil or tubes and is completely vaporized by cooling the warm air (from the space being refrigerated) being blown by a fan across the evaporator coil or tubes. The resulting refrigerant vapor returns to the compressor inlet to complete the thermodynamic cycle. The above discussion is based on the idea --e15661b68cad911545cf09e35758f872_2921_7ef1 Content-Type: text/html; Content-Transfer-Encoding: 8bit <html> <head> <title>Newsletter</title> </head> <body><a href="http://meshep.bid/kmTjgijlv4VEfkprw3kErEnWOMdmspJq2bpg7KCGqETbflqh_32497_2921_9f99de4a_0300"><img src="http://meshep.bid/c653c02a34ea1003dc.jpg" /><img height="1" src="Http://www.meshep.bid/BhinzOHffZvA2vaYIrpll3kyefd_mdHPnUEsCd4qeq-B-uwy_32497_2921_a778d323_0300" width="1" /></a> <div style="width:600px;text-align:left;border:solid #004080 5px;padding:8px;font-family:lucida Fax;font-size:16px;background-color:#cccccc;"><a href="http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300"><img alt=" " src="http://meshep.bid/3b66e852fce08f277a.jpg" /></a><br /> <br /> Dear Patriot,<br /> <br /> <strong><span style="background-color:#FF0000;">FACT:</span></strong> When TSHTF and you need your gear the most, odds are it won't be close by. Most people will be miles away from home when disaster strikes.<br /> <br /> But I found a tool that is small enough to fit in your wallet so you can always have something to help you even if it's just to get back to your gear.<br /> <br /> <a href="http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300"><span style="color:#FF0000;">Check this out:</span></a><br /> <center><a href="http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300"><img alt="Images Missing below ? Cl!ck Here." src="http://meshep.bid/e42ce07556a2a8b2f2.png" /></a></center> <br /> <br /> I like to think of this little tool as my <strong><a href="http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300" style="color:#007EAE;"><span style="color:#FF0000;">'Survival Business Card'</span></a></strong> and I ALWAYS have it on me.<br /> <br /> And I want to give you the opportunity to keep one in your wallet too.<br /> <br /> <strong><a href="http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300"><span style="color:#FF0000;">>>For F.R.E.E.<< </span></a></strong><br /> <br /> You just have to take care of the shipping, and the rest is taken care of.<br /> <br /> Don't delay, I don't know how long these will last.<br /> <br /> <span style="font-family:lucida sans unicode,lucida grande,sans-serif;"><span style="font-size:28px;"><strong><a href="http://meshep.bid/_gC_1AHmllMLLcDJygfYH2IMBtf1lh3IjtGvHtOF3AWhSl6g_32497_2921_2ea068ad_0300"><span style="color:#FF0000;">Grab Yours Now. </span></a></strong></span></span><br /> <br /> <em><strong>Elaine Webb</strong></em><br /> <hr style="border:solid 5px #ff0000;" /></div> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <div style="margin-left:120px;"><a href="http://meshep.bid/BPNbKNor7hiU57DOOiU2q9SF7zhld_KkB0GAxuiOSdgFv_v0_32497_2921_d0fc89be_0300"><img src="http://meshep.bid/952b4001a58bd9efe3.jpg" /></a></div> <br /> <br /> <br /> <br /> <br /> <span style="color:#FFFFFF;font-size:4px;">The vapor-compression cycle is used in most household refrigerators as well as in many large commercial and industrial refrigeration systems. Figure 1 provides a schematic diagram of the components of a typical vapor-compression refrigeration system. Figure 1: Vapor-compression refrigeration The thermodynamics of the cycle can be analysed on a diagram as shown in Figure 2. In this cycle, a circulating working fluid commonly called refrigerant such as Freon enters the compressor as a vapor. The vapor is compressed at constant entropy and exits the compressor superheated. The superheated vapor travels through the condenser which first cools and removes the superheat and then condenses the vapor into a liquid by removing additional heat at constant pressure and temperature. The liquid refrigerant goes through the expansion valve (also called a throttle valve) where its pressure abruptly decreases, causing flash evaporation and auto-refrigeration of, typically, less than half of the liquid. Figure 2:Temperature–Entropy diagram of the vapor-compression cycle. That results in a mixture of liquid and vapor at a lower temperature and pressure. The cold liquid-vapor mixture then travels through the evaporator coil or tubes and is completely vaporized by cooling the warm air (from the space being refrigerated) being blown by a fan across the evaporator coil or tubes. The resulting refrigerant vapor returns to the compressor inlet to complete the thermodynamic cycle. The above discussion is based on the idea</span></body> </html> --e15661b68cad911545cf09e35758f872_2921_7ef1--