Yasmin Simmons Tomer Hananel Tamás Álmos Vámi PCM

Slides:

Advertisements

Similar presentations

1.2 Transfer Processes Conduction Convection

Advertisements

G  Love: Heated Gloves* Kristin Brodie, Jeff Colton, Colin Galbraith, Bushra Makiya and Tiffany Santos Summary: The goal of this project was to create.

Phase Changes. Where is this used? Conditioning of buildings, such as 'ice-storage' Cooling of heat and electrical engines Cooling: food, beverages, coffee,

Utilization And Removal Of Heat Present Inside The House By Different Means Made By : Puneet Gupta Roll Number: 04HARBISO0906 School : Bright Scholar Senior.

NEW APPROACH FOR UNDERFLOOR HEATING WITH THE USAGE OF PHASE CHANGING MATERIALS Herman Yuval (Israel) Sorrentino Elisa (Italy) Mordechai Lihen (Israel )

Climate and Architecture Arch 331 Dr. Abdelrahman Elbakheit References العناصر المناخية و التصميم المعمارى, د. سعيد عبد الرحيم سعيد بن عوف.1 2. العمارة.

Generating Electricity Physics 1 GCSE ScienceChapter 10.

P2a (ii) Collecting Energy from the Sun You will learn about: Passive Solar Heating Wind Technology

Energy in Thermal Processes

14.4 Nuclear Energy FIGURE 16: Structure of the atom.

Electricity Consumers: LED Lighting

“Phase Changing Materials(PCMs) used as Building Material”

Phase Changing Material in Solar Thermal Energy Storage

Geothermal Energy David McArdle. What is it? Geothermal energy - The process of extracting power from underground heat that is produced by the earth’s.

ENERGY SOURCES. ALTERNATIVE ENERGY SOURCES Geothermal Energy comfort… savings... environment.

1 John Curley. 2 The opportunity 1) Cost Shift to lightweight architecture Increased heat loading within buildings Planning issues and outside space Energy.

Heating Oil By: Artem Khmelyov. Heating oil, or oil heat, is a low viscosity, flammable liquid petroleum product used as a fuel for furnaces or boilers.

Your School Energy Saving Plan Put in photos of people who did the audit on this slide Put your school logo here Date.

Who am I? Why am I here? What will I talk about? - The science of Climate Change - The Carbon Pollution Reduction Scheme (CPRS) - The Solution Green Loans.

3M Renewable Energy Division Window Films for Commercial Buildings Window films – solution to increase energy efficiency Making Windows Work for You! Agnieszka.

Water Phase Change Graph

Green Home By Joe Conran, Jake Hollingsworth, and Brad Greipp.

14-3 & 14-4 Thermal Energy & States of Matter Uses of Heat.

Phase Change Heat Pumps Josh MacCaull Objective: To impart a knowledge of the principles behind phase change heat pumps and their applications.

Geothermal Technologies Systems: Direct-use: A drilled well into a geothermal reservoir to provide a steady stream of hot water. Deep reservoirs to.

ENERGY CALCULATION PRACTICE UNIT 3. HOW MUCH ENERGY IS REQUIRED TO HEAT 200 GRAMS OF WATER FROM 25˚C TO 125˚C? HOW MUCH ENERGY IS RELEASED WHEN COOLING.

Why Buy It? Buying this house will show you the amount of money you could have in your wallet. Located in Boise, Idaho, it has an outstanding view of.

Solution to y11 q2 gases  (a)  At 20 o C V 1 =6000cm 3 P constant  At 70 o C V 2 =?  Use the combined gas equation with P canceling out 

The Power of the Future By: Brenna Schillinger Mari Toia Dan Francisco.

Technology Innovation for Reefer Trucks and Last mile distribution

Lecture Objectives: Discuss Project 1 Learn about thermal storage systems.

Lecture Objectives: Finish boilers and furnaces Start with thermal storage systems.

Chapter 3 Quiz By: Will Saunders & Chris Murray 8 th Block-LaFever-10/9/08.

10 Turn off Lights Not in Use Motion Sensors simple ways to go green

Earth’s Changing Environment Lecture 15 Energy Conservation.

Geothermal Heat Pumps Connecticut Geothermal Association John Sima, PE.

Solutions that can improve energy efficiency: - Loft Insulation - Cavity Wall Insulation - Solid Wall Insulation - Floor Insulation - Draught Proofing.

How Switched On Are You? HEAT Radiation Reflection Absorption

SOLAR WATER HEATERS GOODING EMTAGE. SOLAR COMPANIES IN BARBADOS Solar Dynamics Aqua Sol components LTD: -Over 3000 people have switched to their.

Study on the phase change cement based materials Min Li Southeast University, China Southeast University th International Conference on.

Living Green at [INSERT BUILDING NAME HERE]. Climate change is happening now.

Objectives: Provided with necessary materials and instruction, the students will be able to: 1.Define heat, specific heat, latent heat of fusion and latent.

By Hannah Vehrs. Older homes were not constructed to save energy or to improve the environment. In the 1970s, the average refrigerator consumed about.

Heating and Cooling Curves

3.3 Phase Changes What are six common phase changes?

By Christie DeVantier.  The discharge of carbon left to pollute the air  The sum of emissions of green house gases.

Energy for Heat Transfer. 1 st Law of Thermodynamics Whenever heat flows into or out of a system, the gain or loss of thermal energy equals the amount.

Lesson 7: Just A Phase Key Terms. Solid A solid has definite volume and definite shape. The particles in a solid are closely packed and vibrate in relation.

What is a Cryocar? It is a liquid nitrogen powered vehicle. Propulsion systems are cryogenic heat engines in which a cryogenic substance is used as a.

Bachelor Thesis Lisa Holzer November 2012

Geothermal Heating and Cooling Applications Rachel Kerekgyarto.

States of Matter Solids, Liquids, and Gases The Gas Laws Phase Changes.

Evaporation vs. Condensation, energy flow, Warming vs. Cooling

Design What is the first step in designing a high-performance building? Would it be: Identify synergies Select the correct HVAC system Design around human.

Geothermal Heat Pumps. How It Works Different from Geothermal Energy Uses the earth surface not center Finds an area at the earth’s surface that has a.

‘SOLAR WATER HEATING SYSTEM WITH PHASE CHANGE MATERIAL’

Page 1 Environmental Mainstreaming in Development Projects Cairo, March

Achieving Energy Independence Environmental Science 6.3.

 A. The air pressure is lower  B. The volume is lower  C. The volume is higher  D. The air pressure is higher.

Indian Institute of Science, Bangalore

AN-NAJAH NATIONAL UNIVERSITY BUILDING DEPARTMENT

COOL BUILDINGS Anne-Claire Streck.

GREEN BUILDING MODEL Prashant Motwani (13MST0021)

Energy and the Environment-Part 2 Sustainability and Energy Efficiency

How matter changes forms

What is a Zero Energy House?

How matter changes forms

Phase Change Materials (PCM)

States of Matter Solids, Liquids, and Gases The Gas Laws Phase Changes.

The Thermal Buffering Studies Of PCM Based Packaging

Presentation transcript:

Yasmin Simmons Tomer Hananel Tamás Álmos Vámi PCM How can we use Phase Change Materials to sustain house temperature without electricity?

Introduction Problems: climate crisis greenhouse gas emissions What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans Problems: climate crisis greenhouse gas emissions air pollution usage of finite resources

Introduction Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Introduction Green building Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

What are PCM’s? Solid Absorbs heat Liquid Releases heat Temperature is above melting point Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans Releases heat Solid Temperature is bellow melting point

Our Idea Storing PCM’s in the walls of the house The goal is to sustain a specific temperature range for human comfort Decreasing the usage of energy by replacing air conditioners Used for heating the house in winter and cooling in summer Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Our Idea PCM’s Organic Paraffins Non-Paraffins Non-organic Salt hydrate Metallics Eutectic Our Idea Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans Our solution is paraffins Formula: CnH2n+2

Paraffins Advantages: Disadvantage: Safety Reliability & Stability Predicability Low cost Non-corrosive Little volume change Disadvantage: Moderately flamability Non-compatible with all plastic Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Paraffins 𝑛 𝐶𝑂+ 2𝑛+1 𝐻 2 → 𝐶 𝑛 𝐻 2𝑛+2 +𝑛 𝐻 2 𝑂 How to produce: Fischer-Tropsch reaction: Using catalysis Cobalt catalysator 200 °C 200-300 bar (2*107 Pa) 𝑛 𝐶𝑂+ 2𝑛+1 𝐻 2 → 𝐶 𝑛 𝐻 2𝑛+2 +𝑛 𝐻 2 𝑂 Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Paraffins Heptadecane C17H36 Octadecane C18H38 Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans Octadecane C18H38

Paraffins Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Difficulties & Solutions Problems: Flamability Liquid phase Outside temperature Our solution: Polyacrylate layer inside Polystyrene layer outside Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

PCM Inside Outside Polystyrene Application Polyacrylate Introduction Wall structure Inside Polyacrylate PCM Polystyrene Outside Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans ~2 mm ~2 cm ~2 mm ~2 cm

Conclusion Use paraffins: Storage in walls Heptadecane Octadecane Polyacrylate layer encapsulating Polystyrene layer outside the PCM The PCM will function as a green heater or cooler with no use of electricity and no damage or pollution. Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Conclusion Total Cost per wall FINAL PRICE per house: 50kg of PCM → Octadecane 2100$ Heptadecane 8500$ 150kg of Polyacrylate → 225$ 130kg of Polystyrene → 195$ Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans FINAL PRICE per house: Octadecane 4∙2520$ Heptadecane 4∙8920$

Conclusion Avarage cost of electricty usage for heating/cooling a house: 5000$ per year Octadecane- profitable after 2 years Heptadecane- profitable after 8 years Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Thank you for listening! Future Plans Finding a PCM that has a melting point of 25°C with low costs Creating it using a mixture of paraffins Applying this method in houses around the world Saving energy!!!!!!!!!!!!!! Thank you for listening! Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans

Resources Introduction What are PCM’s? Our Idea Paraffins Pasupathy et al: Phase change material-based building architecture for thermal management in residential and commercial establishments, In: Renewable and Sustainable Energy Reviews (2008) Sánchez et al: Microencapsulation of PCMs with a polystyrene shell, In: Colloid Polym Sci (2007) http://www.chemicalland21.com/industrialchem/o rganic/n-OCTADECANE.htm http://www.chemspider.com/Chemical- Structure.11892.html A. Sharma et al. Review on thermal energy storage with phase change materials and application In: Renewable and Sustainable Energy Reviews 13 (2009) Introduction What are PCM’s? Our Idea Paraffins Difficulties & Solutions Application Conclusion Future plans