Unusual file formats within your day-to-day document management and editing operations can create instant confusion over how to edit them. You may need more than pre-installed computer software for effective and quick file editing. If you need to adjust line in HWP or make any other basic change in your file, choose a document editor that has the features for you to work with ease. To deal with all the formats, such as HWP, choosing an editor that works well with all types of files will be your best choice.
Try DocHub for effective file management, irrespective of your document’s format. It offers potent online editing instruments that simplify your document management operations. It is easy to create, edit, annotate, and share any file, as all you need to gain access these features is an internet connection and an active DocHub account. Just one document solution is all you need. Don’t lose time switching between different applications for different files.
Enjoy the efficiency of working with an instrument created specifically to simplify document processing. See how straightforward it is to edit any file, even if it is the first time you have dealt with its format. Sign up a free account now and improve your entire working process.
hi friends welcome to a channel typing mantra today were going to discuss about the concept of line or pipe sizing method to calculate it various factors affecting it and also the procedure for calculating pressure drop due to friction and piping systems which plays an important role in pipe size decision so lets get started now before proceeding towards actual line size calculation first we need to learn about these basic terms affecting the line size the first one is continuity equation since the size of pipe line is related to the volumetric flow handled by the pipe line let us establish a relation between these two throw continuity equation as follows Q is equal to a B then Q is equals to PI by 4 d square into B which means Q is equals to 4 Q by 3.14 into P raised to the power 1 by 2 so to determine the pipe size that is d internal diameter of pipe we should know volumetric flow Q and the velocity V first from the continuity equation we can easily conclude that higher the veloci