Design of Recuperative Heat Exchanger Presented by -- Jinying Zhu.

Slides:

Advertisements

Similar presentations

ENERGY CONVERSION MME 9617A Eric Savory

Advertisements

Analysis of heat exchangers: Use of the log mean temperature Difference LMTD Method: Q= (m cp ∆T) h = (m cp ∆T) c Q= U A F∆T lm A=N װ DL ∆ T lm = ∆T l.

P2.4 Central heating model © Pearson Education Ltd Copying permitted for purchasing institution only. This material is not copyright free. This document.

PARKER BOILER PARKER BOILER HOT WATER PIPING SYSTEM 1. 3 way valve and O.S.A. reset. 2. Single boiler piping schematic. 3. Single boiler with 3 way valve.

Peripheral Blood Flow Kit

SAFETY, TOOLS & EQUIPMENT, SHOP PRACTICES

Design Analysis of Plate Heat Exchangers

Chapter 3.2: Heat Exchanger Analysis Using -NTU method

1 Lec 24: Rankine cycle reheat, deviations, efficiency increases, viscosity, introduction to fluid flow.

MER Design of Thermal Fluid Systems

ENERGY CONVERSION ES 832a Eric Savory Lecture 11 – A small-scale power plant worked example Department of Mechanical.

1 Dept. of Energy Technology, Div. of Applied Thermodynamics and Refrigeration Tube diameter influence on heat exchanger performance and design. Single.

Double Pipe Heat Exchanger Jan. 22, Today’s Lecture Lab Teams and Schedules Double Pipe Heat Exchanger.

THERMOFLUID MHD for ITER TBM. CURRENT STATUS By UCLA Thermofluid MHD GROUP Presented by Sergey Smolentsev US ITER TBM Meeting UCLA May 10-11, 2006.

Our Atmosphere The Greenhouse Effect. The Sun The Sun provides the Earth with continuous heat and light.

Pharmaceutical Water Systems Alain Kupferman Manufacture of sterile medicines – Advanced workshop for SFDA GMP inspectors, Nanjing, November 2009.

Design of Recuperative Heat Exchanger Presented by -- Jinying Zhu.

Heat transfer in turbulent flow CL Aim To determine the overall heat transfer coefficient & the individual film transfer coefficient and verify.

NFPA 31 Standard for the installation of Oil- Burning Equipment

Group 17 Oceanic Thermal Energy Conversion Model - Lockheed Martin 1 Oceanic Thermal Energy Conversions Group Members: Brooks Collins Kirby Little Chris.

Outline (1) Heat Exchanger Types (2) Heat Exchanger Analysis Methods

MINIATURE JOULE-THOMSON CRYOCOOLERS FOR PROPELLENT MANAGEMENT TASK I: Thermodynamic Cycle Analysis and System Optimization Presented by  K.V.Krishna Murty.

M4 -Group 9 Teoh Jie Shun Dominic Cheong Johnny Yeung.

Indications of Chemical Reaction. Chemical Reaction A process by which one or more substances change to produce one or more different substances. A process.

Minimizing Structural Energy Loss Andrew Layman Lisa Phillips.

Andrew Layman Lisa Phillips. What is the primary source of energy loss in a house and what are some solutions to minimize this loss?

West input Rotated DN1000 standard valve Options: - small or large link - small link: small or large diameter by Nikhef team.

ME421 Heat Exchanger Design

Design of Recuperative Heat Exchanger Presented by -- Jinying Zhu.

Material Measurement Laboratory Cryogenic Engineering Conference :45 AM Single-phase ambient and cryogenic temperature heat transfer.

Structural and Thermal Calculation for Recuperative Heat Exchanger Recuperative Heat Exchanger Presented by -- Jinying Zhu.

Vacuum / cryo links Mechanical design issues Jo van den Brand, Martin Doets Nikhef Cascina March 4,

Manufacturing Engineering Natural Gas Heating Systems Copyright © Texas Education Agency, All rights reserved. 1.

safety Always: Wear goggles Wear lab gear Hair up Wear closed shoes

KNUDSEN PUMP. WHAT IS IT? Vacuum pump Principal of thermal transpiration temperature gradient causing the gas molecules to move from one side of the tube.

Radiation and Thermal Energy Our Model of the Atom Evolves.

Vacuum / cryo links Design issues Jo van den Brand, Martin Doets Nikhef Cascina Feb. 3,

MINIATURE JOULE-THOMSON CRYOCOOLERS FOR PROPELLENT MANAGEMENT

Reporter: Hsieh, Tsung-Lin. Question A wire with weights attached to each end is placed across a block of ice. The wire may pass through the ice without.

Boilers Present By: Jason Gillier 4M-H. OBJECTIVE: To provide the audience with a brief, but concise overview of what boilers are and there components.

Density & Convection Currents Above & Beyond. Application of Density to Atmospheric Energy Transfers… 1.Why do we need to study density? 2.Why do we need.

Residential Wiring Conductors, Regulating Bodies, & Diagrams.

The Sun the center of the solar system

Structure and Structural calculation for Recuperative Heat Exchanger Recuperative Heat Exchanger Presented by -- Jinying Zhu.

Product Introduction January 2009

Modeling Pressure Volume and Temperature of Gases Summary Table Review.

Matter – Properties and Changes 8/31/2009. MATTER Properties of Matter Matter Anything that has mass and volume Mass is a measure of the amount of matter.

Design of Recuperative Heat Exchanger Presented by -- Jinying Zhu.

Heat Exchanger Design Cooler E-100 Heater E-108.

Cooling Studies Gavin Leithall, RAL. Collaboration Meeting 28/03/062 Cooling Test Rig System to produce a controlled nitrogen gas flow with –Variable.

I Need A Space Heating System Let’s Look At A Central Steam Plant Option.

10-Jun-16S.Movchan Straw manufacturing and QC1 Straw manufacturing conditions and QC tape and straw parameters specification conditions of straw production.

Mechanical Engineering Department GOVERNMENT ENGINEERING COLLEGE, DAHOD. A PPT On Derivation of LMTD for Parallel flow Heat Exchanger Prepared By:

Target Systems and Monolith Design Update Rikard Linander Group Leader Monolith and Handling April 2, 2014.

Light Microscope.

Flow mal-distribution study in cryogenic counter-flow plate fin heat exchangers Geet Jain1, Sharad Chaudhary1, Prabhat Kumar Gupta2, P.K. Kush2 1Institue.

of coil pipe exhaust gas boilers

Xiaomin Pang, Yanyan Chen, Xiaotao Wang, Wei Dai, Ercang Luo

Influence on the performance of cryogenic counter-flow heat exchangers due to longitudinal conduction, heat in-leak and property variations Qingfeng Jiang.

Date of download: 12/22/2017 Copyright © ASME. All rights reserved.

Date of download: 3/4/2018 Copyright © ASME. All rights reserved.

Detector Technology Group

Plate Heat Exchanger (PHE)

Warm Up 70 Today is the vernal equinox. What does that mean?

Reading Materials: Chapter 9

R. B. Vilim Argonne National Laboratory

Asst. Lect. Shireen Hasan

12. Heat Exchangers Chemical engineering 170.

Presentation transcript:

Design of Recuperative Heat Exchanger Presented by -- Jinying Zhu

Calculation result: The diameter of channel will be about 120 micron after the material is fired. Duct number: 90×116 dT (K) T cold side out (K) T hot side out (K) effectiveness (%)

Calculation result:

Manufacture in 4 phases: 50 layer middle portion 50 layer middle portion + one header middle portion (minimum 75 layers) + two headers complete full-sized recuperator

Corresponding test: 1. Inspection of channels’ area (two options) a.using light source (equipment will be set up in the lab); b.using pin gauge 2. Microscopic inspection of channel surface(microscope is at hand) 3. Low temperature test (Nitrogen temperature) and large temperature gradient test of LTCC material (Nitrogen box is at hand) Phase 1 :

Corresponding test: Schematic of step 1 (Option a):

Corresponding test: Schematic of step 3: large temperature gradient test

Corresponding test: Phase 2: uniformity of flow: input alkaline gas or acidic gas, stick the test paper on the recuperator, and observe the color difference of spots on the paper. Slight difference means the relatively uniform flow.

Corresponding test: Phase 3: leakage Phase 4: Whole performance test Input two different inert gases from two inlets, and test the outlet gas components.

Test kit for the test phase 3 and 4: