1,736,978 research outputs found
Ant colony optimization based simulation of 3d automatic hose/pipe routing
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University.This thesis focuses on applying one of the rapidly growing non-deterministic optimization algorithms, the ant colony algorithm, for simulating automatic hose/pipe routing with several conflicting objectives. Within the thesis, methods have been developed and applied to single objective hose routing, multi-objective hose routing and multi-hose routing. The use of simulation and optimization in engineering design has been widely applied in all fields of engineering as the computational capabilities of computers has increased and improved. As a result of this, the application of non-deterministic optimization techniques such as genetic algorithms, simulated annealing algorithms, ant colony algorithms, etc. has increased dramatically resulting in vast improvements in the design process. Initially, two versions of ant colony algorithms have been developed based on, respectively, a random network and a grid network for a single objective (minimizing the length of the hoses) and avoiding obstacles in the CAD model. While applying ant colony algorithms for the simulation of hose routing, two modifications have been proposed for reducing the size of the search space and avoiding the stagnation problem. Hose routing problems often consist of several conflicting or trade-off objectives. In classical approaches, in many cases, multiple objectives are aggregated into one single objective function and optimization is then treated as a single-objective optimization problem. In this thesis two versions of ant colony algorithms are presented for multihose routing with two conflicting objectives: minimizing the total length of the hoses and maximizing the total shared length (bundle length). In this case the two objectives are aggregated into a single objective. The current state-of-the-art approach for handling multi-objective design problems is to employ the concept of Pareto optimality. Within this thesis a new Pareto-based general purpose ant colony algorithm (PSACO) is proposed and applied to a multi-objective hose routing problem that consists of the following objectives: total length of the hoses between the start and the end locations, number of bends, and angles of bends. The proposed method is capable of handling any number of objectives and uses a single pheromone matrix for all the objectives. The domination concept is used for updating the pheromone matrix. Among the currently available multi-objective ant colony optimization (MOACO) algorithms, P-ACO generates very good solutions in the central part of the Pareto front and hence the proposed algorithm is compared with P-ACO. A new term is added to the random proportional rule of both of the algorithms (PSACO and P-ACO) to attract ants towards edges that make angles close to the pre-specified angles of bends. A refinement algorithm is also suggested for searching an acceptable solution after the completion of searching the entire search space. For all of the simulations, the STL format (tessellated format) for the obstacles is used in the algorithm instead of the original shapes of the obstacles. This STL format is passed to the C++ library RAPID for collision detection. As a result of using this format, the algorithms can handle freeform obstacles and the algorithms are not restricted to a particular software package
Hose
A close view of a hose used for irrigation at University of Nebraska-Lincoln, East Campu
Constitution and by-laws, Phoenix Hose Co. No. 2, Gainesville, Texas. (1920).
A pamphlet outlining the Constitution of the Gainesville fire department.Cover title
Harnessing rain hose technology for water-saving sustainable irrigation and enhancing blackgram productivity in garden land
Blackgram, a protein-rich pulse crop (24%), is crucial for combating food insecurity, particularly in malnourished and economically weak countries. Enhancing blackgram production requires improved, input-saving management practices. Given the challenges of climate change and population growth, efficient water management is vital for increasing pulse productivity and water use efficiency with minimal investment. This study aimed to identify cost-effective irrigation methods to optimise blackgram yields. Experiments were conducted at the National Pulses Research Centre in Vamban, Pudukkottai, and the Agricultural College and Research Institute in Kumulur, Tiruchirappalli, during the kharif season of 2021 and 2022. The study compared different treatments of irrigation methods, such as check basin, raised bed, drip, sprinkler and rain hose irrigation. Results showed that the rain hose system maintained the highest soil moisture (23.93% at 10 cm depth and 19.71% at 20 cm depth). Even though drip irrigation resulted in a higher seed yield (1363 kg ha−1), the rain hose system proved to be more cost-effective, saving 27.09% in costs and achieving a 15.23% higher benefit–cost ratio. These findings suggest that the rain hose method, combined with current agronomic practices, is a viable low-cost technique for sustainable blackgram cultivation, optimising water use and maximising profits. This research provides valuable insights into water-saving irrigation methods for pulse crops
Sleepytime Trio, Hose Got Cable, and Four Hundred Years concert flier, Wilson Center, Washington, D.C., December 5, 1999
An advertising flier promoting a concert by the Richmond, Virginia-based punk rock bands Sleepytime Trio, Hose Got Cable, and Four Hundred Years. The concert occurred on December 5, 1999 at the Wilson Center in Washington, D.C
DIYmodify Factsheet: SKILLS NEEDED: Shower head on a flexible hose
Explains the skills you might need to install a hand held shower on a flexible hose. It also includes tips for how to do this yourself
A dynamic design and analysis of the flexible hose of the deepsea mining system
Climate change is a recurring topic in the news and goes side by side with the energy transition. The energy transition focuses on using clean energy generated by resources like wind and water. Due to the increasing demand for technology that focuses on generating and storing clean energy, the demand for metals grows. These metals are currently extracted from landbased locations but are also found on the bottom of the ocean. Three types of resources are found on the ocean floor: hydrothermal vents, cobalt crusts, and polymetallic nodules. To extract these resources from the ocean floor, a project called ”Blue Nodules was launched in 2020. This project addresses the challenge of creating a viable and sustainable value chain to retrieve the polymetallic nodules from the ocean floor. Royal IHC is one of the partners on this project and designed the seafloor nodule collector. The total mining system consists of a surface vessel, a vertical transport system, a flexible hose (jumper hose) and a seafloor nodule collector. In combination with a hose developing company, IHC designed the flexible hose. This design was projected on a prior design of the seafloor module collector. Since then, the seafloor module collector design has advanced, but the flexible hose design did not. Therefore the main objective of this master thesis is to design and analyse the flexible hose with its main focus on the dynamic behaviour.The methodology for this thesis is addressed in the following manner. The old design of the flexible hose was investigated, and all relevant parameters were addressed. A static model was built to verify the parameters that modelled the hose with these parameters. The parameters of interest were: the length of the hose, the distance between crawler and vertical transport system in height and width, number of buoyancy modules, number of buoyancy modules per hose section, starting position of buoyancy nodules. This static model was used to perform a parameter study, resulting in an optimal set of parameters tested against design criteria. The next stage was implementing the static design in a dynamic software packet called ”OrcaFlex”. Orcaflex is a software program for static and dynamic analysis of offshore systems. The static model is implemented end tested with this software. This resulted in a failure of the set of parameters and adjustment to the static model. After a redo of the parameter study, a new set of parameters wasextracted. This set is tested for an inline motion of the crawler compared to the vertical transport system and for a perpendicular motion. These motions expand in size until the flexible hose reaches its critical values. These tests resulted in a range around the VTS where the crawler could move in. Results show that the crawler can move in this range for a selected set of parameters. Throughout the research, it is shown that the parameter set needs further development to complete the flexible connection design. It is recommended that some disregarded motions, parameters and environmental forces are further investigated and that the failure criteria that test the hose need to be expanded.Offshore and Dredging Engineerin
[News Clip: Fire hose]
Video footage from the WBAP-TV television station in Fort Worth, Texas, to accompany a news story about pump races between firemen held at the State Fair of Texas
Hose Washer.
Patent for improvement in efficiency of hose washers. Patent helps to prevent accidental detachment of a hose via the use of a "resilient wire" designed to strengthen the connection. Citation: Calvert, Walter Riley. Hose-Washer., patent, April 27, 1915; [Washington D.C.]. University of North Texas Libraries, The Portal to Texas History, texashistory.unt.edu; crediting UNT Libraries Government Documents Department
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