User contributions for Tim
From Wiki2
- 16:43, 5 July 2012 diff hist +319 Tobin →reducing the costs of solar
- 16:36, 5 July 2012 diff hist +1,737 Tobin →discussion
- 16:06, 5 July 2012 diff hist +258 Tobin →summary of current design
- 15:59, 5 July 2012 diff hist +720 Tobin →summary of current design
- 15:44, 5 July 2012 diff hist +771 Tobin →summary of current design
- 15:28, 5 July 2012 diff hist +288 Tobin →summary of current design
- 15:18, 5 July 2012 diff hist +87 Tobin →summary of current design
- 15:16, 5 July 2012 diff hist +1,511 Tobin →design
- 14:51, 5 July 2012 diff hist +1 Tobin →design
- 14:31, 5 July 2012 diff hist +56 Tobin
- 11:38, 5 July 2012 diff hist +9 Tobin →takagi TH2-DV
- 11:36, 5 July 2012 diff hist +356 Tobin
- 11:02, 5 July 2012 diff hist +2 Tobin
- 11:00, 5 July 2012 diff hist +1 Tobin
- 10:58, 5 July 2012 diff hist +1,022 Tobin
- 13:44, 4 July 2012 diff hist +42 Tobin
- 13:41, 4 July 2012 diff hist −37 Tobin
- 13:35, 4 July 2012 diff hist +110 Tobin
- 13:22, 4 July 2012 diff hist +311 Tobin
- 00:53, 4 July 2012 diff hist +17 Tobin
- 00:50, 4 July 2012 diff hist +642 Tobin →This is a hard problem
- 00:15, 4 July 2012 diff hist +1 Tobin →OK so the spec represents a flow rate of 14gpm and a boiler side temp of 180 °. In an hour, does the mass of water that goes through the heat exchanger actually produce 220,000btu's? What's the &Detla;T of the heat exchanger?
- 00:14, 4 July 2012 diff hist −2 Tobin →OK so the spec represents a flow rate of 14gpm and a boiler side temp of 180 °. In an hour, does the mass of water that goes through the heat exchanger actually produce 220,000btu's? What's the &Detla;T of the heat exchanger?
- 00:13, 4 July 2012 diff hist +174 Tobin →OK so the spec represents a flow rate of 14gpm and a boiler side temp of 180 °. In an hour, does the mass of water that goes through the heat exchanger actually produce 220,000btu's? What's the &Detla;T of the heat exchanger?
- 00:08, 4 July 2012 diff hist +1 Tobin →OK so the spec represents a flow rate of 14gpm and a boiler side temp of 180 °. In an hour, does the mass of water that goes through the heat exchanger actually produce 220,000btu's? What's the &Detla;T of the heat exchanger?
- 00:07, 4 July 2012 diff hist +2 Tobin →calcs
- 00:05, 4 July 2012 diff hist +1 Tobin →calcs
- 00:05, 4 July 2012 diff hist 0 Tobin →OK so the spec represents a flow rate of 14gpm and a boiler side temp of 180 °. In an hour, does the mass of water that goes through the heat exchanger actually produce 220,000btu's? What's the &Detla;T of the heat exchanger?
- 00:03, 4 July 2012 diff hist 0 Tobin →calcs
- 00:02, 4 July 2012 diff hist +7 Tobin →OK so the spec represents a flow rate of 14gpm and a boiler side temp of 180 °. In an hour, does the mass of water that goes through the heat exchanger actually produce 220,000btu's? What's the &Detla;T of the heat exchanger?
- 00:01, 4 July 2012 diff hist +393 Tobin →calcs
- 23:37, 3 July 2012 diff hist +556 Tobin →This is a hard problem
- 23:35, 3 July 2012 diff hist 0 Tobin →This is a hard problem
- 23:34, 3 July 2012 diff hist +559 Tobin →calcs
- 23:28, 3 July 2012 diff hist 0 Tobin →Using techtanium specs and Assuming the ΔT rise produces water at 120 degrees, and knowing the heat exchanger water is kept at 180 °F then:
- 23:27, 3 July 2012 diff hist +64 Tobin →calcs
- 23:24, 3 July 2012 diff hist +17 Tobin →specs
- 23:22, 3 July 2012 diff hist −1 Tobin →This is a hard problem
- 23:22, 3 July 2012 diff hist +51 Tobin →This is a hard problem
- 23:20, 3 July 2012 diff hist +345 Tobin →This is a hard problem
- 23:10, 3 July 2012 diff hist +22 Tobin →calcs
- 23:09, 3 July 2012 diff hist +45 Tobin →This is a hard problem
- 23:05, 3 July 2012 diff hist +2 Tobin →This is a hard problem
- 23:04, 3 July 2012 diff hist +812 Tobin
- 22:39, 3 July 2012 diff hist +89 Tobin →design
- 21:07, 3 July 2012 diff hist +144 Tobin →design
- 17:45, 3 July 2012 diff hist −29 Tobin →uing Techtanium specs and Assuming the ΔT rise produces water at 120 degrees, and knowing the heat exchanger water is kept at 180 °F then ΔT is 60
- 17:44, 3 July 2012 diff hist +38 Tobin →If you know the continous flow at a a certain ΔT degree rise and the size of the tank can you figure how many btu's have been transferred to that water.?
- 17:40, 3 July 2012 diff hist −33 Tobin →calcs
- 17:35, 3 July 2012 diff hist +140 Tobin →calcs
