1A PLANNING AND DEVELOPMENT SHERIDAN COLLEGE GOES DANISH IMPLEMENTING THEIR DISTRICT ENERGY

Similar documents

EnerSmart Programs. enercase. Performance Contracting. contracting. Tired of. chasing capital for infrastructure upgrades?

District Cooling Best Practices Piping Systems

FLUXUS Energy. Manage energy effectively using non-invasive measuring technology. Heat usage, chilled flows and compressed air flow rate

Pump Maintenance - Repair

Loviisa 3 unique possibility for large scale CHP generation and CO 2 reductions. Nici Bergroth, Fortum Oyj FORS-seminar

Aquifer Thermal Energy Storage Application in Greenhouse Climatization

Riga Smart City Concept. Timurs Safiuļins Riga Energy Agency

Columbia University Master Planning & Optimization

Our Deep Geothermal Energy Potential: A Case Study in Saskatchewan with Application Throughout the Western Canadian Sedimentary Basin

Autoclave Design Considerations

CLIMATE CHANGE POLICY FRAMEWORK FOR REFRIGERATION AND AIR CONDITIONING SECTOR

Energy Strategic Plan Los Angeles Community College District Community College League Conference

Energy Saving Fact Sheet Energy Management

EnergySTEP (Sustainability Tiered Efficiency Program) Our Approach to Energy Efficiency

Passive & Active Design

Engineered Solutions

Location. Central Business District. Ataturk Airport IFC. Sabiha Gökçen Airport

Generating Current Electricity: Complete the following summary table for each way that electrical energy is generated. Pros:

Investigations of a Long-Distance 1000 MW Heat Transport System with APROS Simulation Software

Vandforsyningen i fremtiden. Lars Troldahl

Insourcing vs. Outsourcing. Bart Leung Senior Associate, Ehvert Mission Critical

Aurinkolämpömarkkinat Skandinaviassa ATY Aurinkoseminaari Jari Varjotie, CEO

FAS Training Course on Energy Efficiency / Renewable Energy

Pressure Testing Procedures for Building Services Piping

Detection of Pipe Leaks Connection of Pulse Monitoring System in Thermal Utilities

The city of Malmö, Sweden

SHELL HAUSWÄRME-STUDIE. Nachhaltige Wärmeerzeugung für Wohngebäude Fakten, Trends und Perspektiven

New technical solutions for energy efficient buildings

Roadmap to Energy Efficiency. for. Water and Wastewater Utilities

Greenhouse gas abatement potential in Israel

TES for Medical Center

Gas: the right choice for heating in Europe

Data Centers: Definitions, Concepts and Concerns

Sustaining Our Future

ENERGY MANAGEMENT SERVICE LEVEL AGREEMENT. 1.2 The Governing Body of School: the School. Main contact:, Headteacher

DISTRIBUTION PIPING MATERIALS: BUILDING HYDRONIC SYSTEM MANAGEMENT. Jim Riley, Texas A&M University February 10, 2015

ROTEX gas hybrid heat pump. A strong team.

Development trends in Finnish metal industry

school energy consumption assessment

Business Support

Efficient distribution of district heating and cooling. LOGSTOR pre-insulated pipe technology

Frequently Asked Questions

Engineering & Testing Services. Hydraulic Fitting Design and Hydro-Mechanical Testing

San Antonio College. Energy Systems Laboratory TEXAS ENGINEERING EXPERIMENT STATION TEXAS A&M UNIVERSITY SYSTEM

Training in Renewable Energy INFORSE-Europe proposal for implementation of the Renewable Energy Directive Draft 28/

NYC Department of Education Building Condition Assessment Survey BROADWAY EDUCATION CAMPUS - MANHATTAN, 26 BROADWAY, MANHATTAN, NY, 10004

Heat Trace Fundamentals. Monte Vander Velde, P.E. President, Interstates Instrumentation

The vision of the Ham Baker Group is to be the partner of

PLANT MAINTENANCE - PLUMBER & STEAMFITTER APPENDIX A D.O.T. CODE O*NET CODE WORK PROCESSES

WESLEY BRIAN HUTTON KNOXVILLE, TENNESSEE LICENSED MASTER PLUMBER. Dear: Human Resources

A World Class Manufacturer of Induction Bends

A knowledge-based system for Waste Heat Recovery. Richard Law

Hybrid Geothermal / Solar Thermal HVAC System: Part1 Design (OU Human Health Building)

CSP. Feranova Reflect Technology. klimaneutral natureoffice.com DE gedruckt

Making Your Home Ready For Solar Water Heating

POWER & RENEWABLE ENERGY SERVICES

New business segments for the energy saving industry Energy efficiency and decentralised energy systems in the building & housing sector

Solar Hot Water Heaters

Low-Temperature District Heating System. for Low-Energy Buildings

GE Oil & Gas. Air Cooled Heat Exchangers. Robust and reliable for all loads and applications

Drives and motors. A guide to using variable speed drives and motors in data centres Meeting your Carbon Reduction Commitment (CRC)

ABSTRACT DCMCCT PROJECT OVERVIEW

POWER & RENEWABLE ENERGY SERVICES

BEST 3, Atlanta, April 2012 Grahame E. Maisey, P.E.

Carbon Management Plan

Gharbeya Water and Wastewater Company - Background

MC (Multi-Circulation) f o r S A G D a n d I n d u s t r i a l A p p l i c a t i o n s

SaskPower CCS Global Consortium Bringing Boundary Dam to the World. Mike Monea, President Carbon Capture and Storage Initiatives

Formulating an energy management action plan

National Fund for Environmental Protection and Water Management. activities in climate protection

Smart Cities. Integrated approach for innovative technologies. 2nd Annual Conference of the ETP on. Budapest, 6th May 2011

DECLARATION OF PERFORMANCE NO. HU-DOP_TN _001

ITER - business in fusion

SERIES ASM NEOPRENE/EPMD FLANGED SINGLE SPHERE CONNECTOR CONNECTORS. Pressures to 225 PSIG (15.51 barg) Temperatures to 230ºF (110ºC)

Cooking at the Speed of light!

Sustainability and the Small Business

LONSDALE DISTRICT HEATING. Connecting North Vancouver, one step at a time

Advanced Metering Management in a multi-energy environment

Optimization of Cleaning-In- Place (CIP) processes in bottled water industry

CLEAN ENERGY PROJECT ANALYSIS WITH RETSCREEN SOFTWARE

Challenges of District Cooling System (DCS) Implementation in Hong Kong

Steam System Best Practices Condensate System Piping

OEH Energy Efficient HVAC for Business Training Course

Smart District Heating

Energy'Saving,'Thermal'Comfort'and'Solar'Power'Information'Sheet'

Intelligent Solutions DTS Applications LNG Facilities

Transcription:

1A PLANNING AND DEVELOPMENT SHERIDAN COLLEGE GOES DANISH IMPLEMENTING THEIR DISTRICT ENERGY

AGENDA 1. Background up till now 2. District Energy on two campuses current work 3. System optimisation and some advantages 4. A little bit on Standards 5. Questions?

AGENDA 1. Background up till now 2. District Energy on two campuses current work 3. System optimisation and some advantages 4. A little bit on Standards 5. Questions?

SUSTAINABILITY AT SHERIDAN

TRIPLE SUSTAINABILITY Environment Better resource use (35 90% efficiency) Economy Two revenue sources Society Cheap waste heat Lower energy cost

INTEGRATED ENERGY & CLIMATE MASTER PLAN (IECMP) Sheridan Integrated Energy & Climate Master Plan (IECMP) Taskforce A comprehensive technical, investment and savings plan Active participation of students and faculty

IEMP Framing Objectives Energy Efficiency Gain At least 50% by 2030 below 2005 baseline Greenhouse gas emissions reduction At least 60% by 2030 Internal Rate of Return At least 7% on recommended investment Ensure energy supply reliability Create campus-wide energy culture Be a platform for new energy technologies Offer competitive energy and climate curricula National and Community Role Model

PROJECT PROCESS Development & feasibility Design & Engineering Tendering & Procurement Construction & Commissioning O&M

AGENDA 1. Background up till now 2. District Energy on two campuses current work 3. System optimisation and some advantages 4. A little bit on Standards 5. Questions?

DISTRICT ENERGY SYSTEM SHERIDAN COLLEGE Challenge Develop district energy for the two campuses Davis & Trafalgar What we do Owners engineer. Advise college on planning, technical and economic matters. Design district energy system. Effect Raise energy efficiency. Lower costs Future proof energy system.

DAVIS AND TRAFALGAR CAMPUS 11

WORK TO DATE AND IN PROGRESS WHOLE SYSTEM APPROACH Hydraulic optimization analysis using proprietary software, SR2, for both Davis and Trafalgar campus Heating for Davis Campus Heating and cooling for Trafalgar Campus Study for location of Trafalgar Energy Centre High level review of Davis Energy Centre Detailed piping design - distribution In ground, above ground, and in buildings Energy Centre design at Trafalgar Hybrid dual location design utilizing a new location and existing buildings to house the energy plant Energy Transfer Station (ETS) specifications tailored to each building s requirements

HYDRAULIC OPTIMIZATION Roughly 70% of investment is usually in the network Pressure ratings, design against surge, water hammer, cavitation and thermal fatigue System Rornet engineering tool

AGENDA 1. Background up till now 2. District Energy on two campuses current work 3. System optimisation and some advantages 4. A little bit on Standards 5. Questions?

PIPING DESIGN CHALLENGE Design Goals Low operating supply temperature for minimal heat/energy loss which in turn reduces operating costs Maximum delta T at energy transfer stations for maximum energy transfer, maximum value for pumping costs which in turn reduces operating costs Maximize pipe flow capacity to allow for smaller pipes which in turn reduces capital investment and heat losses

ENERGY TRANSFER STATION - ETS Each connection is hydraulically separate from the network Allows buildings to operate individually from the network Protects the network from building related issues EU ETS manufacturers coming to the Canadian market Each connection point is metered individually

SOME PICTURES FROM REAL LIFE IN CANADA

PREINSULATED PIPING ADVANTAGES Bending flexibility easier installation around bends which reduces installation costs Insulation retains heat/energy which reduces operating costs Leak alarm system detects and locates leaks which reduces operating costs For both heating and cooling pipes

AGENDA 1. Background up till now 2. District Energy on two campuses current work 3. System optimisation and some advantages 4. A little bit on Standards 5. Questions?

PIPING INSTALLATION - BEST OF BOTH CONTINENTS CSA, ASME VS EN STANDARDS O-Reg 220 (CSA B51, ASME B31.1, etc.) X-Ray not required Alignment to be within 2mm Hydrostatic pressure test to be 1.5 times the design pressure, held for 10 minutes, then reduced to design for leak test EN 13941 Design and installation of preinsulated bonded pipe systems for district heating X-Ray required on 10% of welds Alignment to be within 1mm Pressure test is not required, but weld leak tightness test of all welds is

THANK YOU Pernille M Overbye PMO@RAMBOLL.COM +1 289 834 4426 READ MORE ON OUR WEBSITE: WWW.RAMBOLL.COM/ENERGY