Well sorry for the bare diagram because i just wanted to make it simple.I tried to size it but have few issues .Let em first define my systems parameters.
Water in Chilled water tank is at temperature of 5-6 C
Temperature of Water in Return Tank is aroudn 18 C in Summer and around 14-15 C...
Well i am currently working as a project engineer for utilities at my factory .This is my first installation of chilled water system.So would be requiring some help in sizing the Chilled water supply and return tanks.I am attaching the picture along so that the system is easily understandable.
A little more of correction or can say ease in question
Well sorry for the inconvenience wlel i have modified the image more maybe it could be of little more help
addition in daigram uploaded before so see the new diagram
there is a little inforamtion missing in the first diagram so i have added it in the second diagram attached now.
Homework Statement
As picture attached .We need to find the dimensions of all the parts that are Pin(A),Jaw(B and C), NUt (D) , Handle (E) .The jaw B is fixed and C is free to move towards B.There is a force T=1779.261 N on Jaw C.Secondly there is a human force involved in turning the handle...
Yeah man it is sensible but i have to confirm this with my lecturer let's see what he says about it.I am going to check with him today hope he co-operates.Thanx for help man
Hahaha thanks for a symmetrical idea man.Well i think its not possible if we divide the solution for case 1 by 2 to find the solutoin for tension in case 2.Still more solutions are welcomed.
well i have applied the follwoing principle and equations described in link http://www.du.edu/~jcalvert/math/catenary.htm over the first case but i am totally unsure abt the second case.
In my question i have a square cloth piece of dimension 8m*8m and the mass per area of the cloth is 0.5kg/m^2 .I need to find the reactions at 4 supports.IN first case Cloth is attached in such a way that first i attach one corner to one support then the other corner which is on a diagonal to...
As shown in the picture there is no force applied over the cable.The self weight of cable is 313.9N(32KG) .And there is a sag of 250mm in the middle .I need to find the tension in the supports.
The length of the complete cable is 11.31m .We r not give the length between two supports.
If you...