Professional Report 1/ V5.7.12.15251 / 13.12.2011 / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness.

Slides:

Advertisements

Similar presentations

HVAC523 Heat Sources.

Advertisements

Solar Water Heating.

Pre Sales Dept. HERCULES Solar 26 1 A Condensing floor-standing boilers with built-in solar circuit.

Institute of Energy & Sustainable Development De Montfort University

Stirling engine and high efficiency collectors for solar thermal

Absolicon Solar Concentrator AB Revolutionary development that opens a new era in solar energy Develops, produces and sells concentrating solar collectors.

© Fraunhofer IBP Auf Wissen bauen Energy vs exergy use in buildings Fraunhofer Institute for Building Physics (IBP) Department Energy Systems Christina.

` ACEEE HOT WATER FORUM ACT D’MAND KONTROLS® SYSTEM February 16 th 2015 PRESENTED BY LARRY ACKER “Designed for today, Dedicated to the Future®”. 1.

Active Solar Heating Components and Applications By: Peter Washer.

Ground Loop Design. Heat Sources Horizontal ground loops  Collector pipework laid horizontally  Requires large land area  Cost.

Gas ammonia out to turbine poor mixture water/ ammonia rich mixture water/ ammonia Gas Assisted Solar Absorption Heat Engine GASAHE heat Diffusion absorption.

Islamic Republic of IRAN

Solar Domestic Hot Water. Solar Basics Solar Spectrum.

1 Solar Thermal Systems ME 252 Thermal-Fluid Systems G. Kallio.

EDGE™ Solar Thermal System Concept Cornerstone Design.

SOLAR HEATING Solar energy can be used for Solar water heating Solar space heating Solar pool heating.

Chapter 12: Alternative Technologies To be used with the Guide to Building Energy Efficient Homes in Kentucky.

SOLAR TRACKING SYSTEM.

What size is your carbon footprint? Make your own solar heat collector Now it’s time for you to heat water using sunshine. You need to do this on a sunny.

Solar thermal energy Eng. Elamir Ahmed. Definition of solar thermal energy  Solar thermal energy is a renewable energy source.  Solar thermal uses technology.

 This presentation deals with solar water heaters.  There are two categories (passive, active)  There are two common types (conventional, vacuum tubes);

Heat Pumps triple dividend: low carbon, energy efficient & renewable Heat Pumps Low Carbon Solutions for Re-Energising the EU Thomas Nowak The European.

Solar Water Heating Bob Ramlow Chapter 5: Solar Water Heating Systems Bruce Hesher Engineering Technology Brevard Community College.

ECOScience 2011 / Public1 The intelligent energy centre of the future.

 Trudy Park  Chelsea Favors  Hector 1)Concrete is the best material for constructing earth-sheltered buildings. Not only is it strong, it is also.

Project number: DE3-COM Type of home : bungalow Usable floor area : 24,20 m² Rate of energy demand for heating : 14 kWh/m².

Energy Efficiency - Made in Germany February 16 th, 2011 Exportinitiative Energy Efficiency in Dutch Greenhouse Industry Hans-Jürgen Tantau on behalf of.

Solar Energy Systems in the Eco-Village at the University of Manitoba

IEA HPP Annex 28 Calculation of compact units Workshop IEA HPP Annex 28 8 th International Heat Pump Conference, Las Vegas, 30 May 2005 Thomas Afjei, Institute.

District Heating Technology Improvement of district heating systems efficiency starts at the consumer New calculation tools help consumer and district.

Boilers By: Jason Ng. Objectives Effectively compare and contrast different types of water heating systems in order to enlighten students about proper.

Energy Ecodesign and Energy Labelling of Heaters.

Solar Energy Part 1: Resource San Jose State University FX Rongère January 2009.

Tutorial 1: Energy context Q1. List 4 reasons (other than global warming) for taking action to reduce fossil fuel consumption. 1.poor air quality associated.

Solar Power. Table of contents 1)Sunbeams 2)Photovoltaics 3)Solar heat 4)Examples of photovoltaic constructions a.The bike station in Dorsten b.A private.

Solar Thermal Plants. Thermal Energy: Reliable source Reliable source Could potentially supply 10% U.S. energy demand Could potentially supply 10% U.S.

Solar Hot Water Heater. Flat Plate Collector Problem A flat plate solar collector is used as a solar hot water heater. The collector area equals 20 square.

By Brenda Ruedas && Coralann Stell. -- The gathering of solar energy by collectors that are used to heat water or heat a building … ACTIVE SOLAR HEATING.

Lecture Objectives: Finish with example modeling problems –Phase change thermal storage materials –Energy and airflow Interpret energy simulation results.

Professional Report 1/ V / / 12:12:49 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness.

Geothermal Heat Pumps Connecticut Geothermal Association John Sima, PE.

Solar Energy. How it Works  Solar thermal devices use direct heat from the sun, concentrating it in some manner to produce heat at useful temperatures.

Copyright © 2011 by Oxford University Press, Inc. Energy and the Environment James A. Fay / Dan S. Golomb FIGURE 8.5 The spectral distribution of the solar.

Solar Energy. Energy Sources Of The Earth Pros about solar energy  We use that kind of energy because it will never end  It‘s environmental friendly.

Chapter 13 Renewable Energy and Conservation. Overview of Chapter 13  Direct Solar Energy  Indirect Solar Energy  Wind  Biomass  Hydropower  Geothermal.

Solar Heating/Cooling/Dehumidifier Systems

Heat gas ammonia out to turbine generator or condenser poor mixture water/ ammonia rich mixture water/ ammonia Gas Assisted Solar Absorption Heat Engine.

Electricity production and consumption

Lecture Objectives: Analyze several modeling problems –Examples from the final project list Economizer Solar collectors Phase change thermal storage materials.

Solar Water Heating Bob Ramlow Chapter 3: Types of Solar Water Heaters Bruce Hesher Engineering Technology Brevard Community College.

Solar Energy SOLAR ENERGY A FEW FACTS Every day the earth receives thousands of times more energy from the sun than is consumed in all other resources.

Product Information Thermosyphon February 2012 Stefan Manglberger Head of Technical Services TiSUN GmbH HERZLICH WILLKOMMEN Welcome | Benvenuti | Bienvenue.

Case application: Insulation and glazing, The Netherlands Harry Vreuls, NL Agency Workshop: Harmonization in Energy Savings Calculation: How To Fit International.

Date of download: 6/27/2016 Copyright © ASME. All rights reserved. From: Determination of Heat Transfer Characteristics of Solar Thermal Collectors as.

CASE STUDY : Solar Powered air conditioning as a solution to reduce environmental pollution in Tunisia.

ACTIVE SOLAR DESIGN ALTERNATIVE ENEGRY SOURCES.

The nowadays increasing demand of energy and the shortage of resources Main reasons: To believe in a more sustainable development that allows to.

Specifics of multi-apartment building deep complex retrofitting

Date of download: 10/16/2017 Copyright © ASME. All rights reserved.

Comparison of THREE ELECTRICAL SPACE HEATING SYSTEMS IN LOW ENERGY BUILDINGS FOR SMART LOAD MANAGEMENT V. Lemort, S. Gendebien, F. Ransy and E. Georges.

Date of download: 10/22/2017 Copyright © ASME. All rights reserved.

Date of download: 11/1/2017 Copyright © ASME. All rights reserved.

11 September 2018 The most acceptable method of water heating for Badock – a University of Bristol Hall of Residence. A Thermal and Financial Model Naomi.

Date of download: 12/26/2017 Copyright © ASME. All rights reserved.

Heating and cooling demand in buildings

Natural Sciences Grade 7

Passive houses.

Solar nova scotia case study: Solar Thermal Halifax

Presentation transcript:

Professional Report 1/ V / / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness of the specifications and the results. Proyecto8bd: Agua caliente. 200 litros y 2 T8 S Location of the system Budaörs Longitude: ° Latitude: 47.45° Elevation: 142 m This report has been created by: Gustavo Martín Sicardo P.I. La Isla C/Río Viejo Dos Hermanas (Sevilla) Map section System overview (annual values) Total fuel and/or electrical energy consumption of the system [Etot] 2,128.2 kWh Total energy consumption [Quse]2,056 kWh System performance (Quse / Etot)0.97 Comfort demandEnergy demand covered

Professional Report 2/ V / / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness of the specifications and the results. Overview solar thermal energy (annual values) Collector area4.1 m² Solar fraction total63.3% Total annual field yield1,910.6 kWh Collector field yield relating to gross area461.5 kWh/m²/Year Collector field yield relating to aperture area505.5 kWh/m²/Year Max. fuel savings202.2 m³(Gas): [Natural gas H] Max. energy savings2,122.9 kWh Max. reduction in CO2 emissions491.6 kg Solar fraction: fraction of solar energy to system [SFn] Horizon line Meteorological data-Overview Average outdoor temperature10.9 °C Global irradiation, annual sum1,206.9 kWh/m² Diffuse irradiation, annual sum595 kWh/m²

Professional Report 3/ V / / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness of the specifications and the results. CollectorTermicol T8S Data Source Number of collectors 2 Number of arrays 1 Total aream²4.14 Total aperture aream²3.78 Total absorber aream²3.84 Tilt angle (hor.=0°, vert.=90°)°40 Orientation (E=+90°, S=0°, W=-90°)°0 Collector field yield [Qsol]kWh1,910.6 Irradiation onto collector area [Esol]kWh5,229.3 Collector efficiency [Qsol / Esol]%36.5 Direct irradiation after IAMkWh2,753.7 Diffuse irradiation after IAMkWh2,188.1 Hot water demandConstant Volume withdrawal/daily consumptionl/d150 Temperature setting°C45 Energy demand [Qdem]kWh2,172.1 Pump Solar loop pumpWilo-Star-ST 25/6 Circuit pressure dropbar0.012 Flow ratel/h151.2 Fuel and electrical energy consumption [Epar]kWh58 Storage tank 3200l potable water universal tank Volumel200 Heightm1.2 Material Stainless steel Insulation Rigid PU foam Thickness of insulationmm80 Heat losskWh246.7 Connection losseskWh137.7 Loop Solar loop Fluid mixture Propilenglicol Fluid concentration%33.3 Fluid domains volumel18.1 Pressure on top of the circuitbar4 Component overview (annual values)

Professional Report 4/ V / / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness of the specifications and the results. Solar thermal energy to the system [Qsol]kWh Heat generator energy to the system (solar thermal energy not included) [Qaux]kWh Solar fraction: fraction of solar energy to system [SFn]%

Professional Report 5/ V / / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness of the specifications and the results. Total fuel and/or electrical energy consumption of the system [Etot]kWh YearJanFebMarAprMayJunJulAugSepOctNovDec Solar thermal energy to the system [Qsol] kWh Heat generator energy to the system (solar thermal energy not included) [Qaux] kWh Heat generator fuel and electrical energy consumption [Eaux] kWh Solar fraction: fraction of solar energy to system [SFn] % Total fuel and/or electrical energy consumption of the system [Etot] kWh Irradiation onto collector area [Esol] kWh Electrical energy consumption of pumps [Epar] kWh Heat loss to indoor room (including heat generator losses) [Qint] kWh Heat loss to surroundings (without collector losses) [Qext] kWh Total energy consumption [Quse] kWh

Professional Report 6/ V / / 13:57:48 Vela Solaris AG, their distribution partners or SPF do not accept any liability for the correctness of the specifications and the results. Collector Daily maximum temperature [ °C] Energy flow diagram