Post on 22-Jun-2015
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VISUALIZATION OF THE DESIGN PHASES AND ITS INFLUENCE ON EFFORT/EFFECT CAPABILITIES
1. STAY ON PD, AND SD2. VARIANT DESIGN
PROCEDURE AND IDD (INTEGRATED DESIGN DELIVERY) APPROACH
1. ENERGY ANALYSIS2. CFD3. BIM
REMAK ENERGY CONSULTINGREC
CHOOSING THE RIGHT DECISION FOR THE VERY GIVEN TASK
1. DELIVER THE CLIENT WITH ACCURATE AND WELL ARGUED INFORMATION THAT IS PROVIDED IN A LANGUAGE HE UNDERSTANDS, RESULT
AN INCREASE IN POTENTIAL TO MAKE A BUILDING GREENER
2. EACH PROJECT IS UNIQUE. IT IS USUALLY WRONG GRABBING SOLUTIONS FROM ONE PROJECT TOANOTHER UNLESS YOU’RE NOT SURE THE INPUT DATA AT SOME EXTENT ARE COMPARABLE, BUT IT IS IMPOSSIBLE
3. IT IS NECESSARY CAREFULLY INVESTIGATE SITE POTENTIAL PRIOR TO THINK ABOUT ACTIVE SYSTEMS CONCEPT. TAKE ADVANTAGE OF IT
4. ANALYZE THE OPTIONS. DO THE PARAMETRIC STUDY
5. USE TOOLS THAT ALLOW QUICKLY AND EASILY GET, SHARE AND ANALYZE THE INFORMATION
6. BE UPDATED
THAT’S HOW REMAK ENERGY CONSULTING FEELS
ASTRAPARK SHOPPING CENTER (RUSSIA). CASE STUDY
GROSS BUILT AREA 70,000 SQ.M
GLA 59,000 SQ.M
PARKING 2,400
PROJECT STATUS 2009 (CONCEPT DESIGN) – 2013 (ESTIMATED PUBLIC OPENING)
REMAK ENERGY CONSULTING INVOLVED
ASTRAPARK SHOPPING CENTER (RUSSIA). CASE STUDY (cntd)
1. THE CLIENT WANTS THE CHEAPEST SYSTEM. INVESTMENTS MAY BE FEASIBLE ONLY WITH PAYBACK NO MORE THAN 10 Y.
2. REC WAS INVOLVED BETWEEN THE DESIGN DEV AND CONSTRUCTION DEV PHASES. THAT GIVES HUGE OPPOSITION FROM THE GENERAL DESIGNER (GD) AND SECOND CONSULTANT (SC)
3. GD AND SC FORCINGLY PERSUADE THE CLIENT TO TURN TO THE CENTRAL SYSTEM (CH+FCU) GENERATING A LOT OF ADVANTAGES WHICH WERE NOT METRICS MOSTLY
4. WE’VE DONE ENERGY MODELLING USING ENERGYPLUS (BY US DOE) WITH SKETCHUP
5. INITIAL DATA PEER REVIEW WAS CONDUCTED AND SHOW HUGE SAVINGS POTENTIAL JUST BECAUSE OF WITHDRAWING SAFETY-TO-SAFETY FACTORS AND REVISING IAQ CRITERIAS
6. ADVANCED CLIMATE ANALYZE ALLOW CLIENT MORE FEASIBLY FIX THE OA DESIGN CONDITIONS (ASHRAE WEATHER DATA FROM 2013)
ASTRAPARK SHOPPING CENTER (RUSSIA). CASE STUDY (cntd)6. ENERGY MODELING ALLOW US FIND PARAMETERS WHICH DRIVE
THE BUILDING PERFORMANCE (PASSIVE OPTIMISATION)
7. THE RESPONSIBILITY DESIGN FRAMES WAS DEVELOPED TO SPECIFY RESTRAINTS FOR INSTALLATIONS BETWEEN TENANT AND LANDLORD
8. CONSIDERING VERY TIGHT TIME FRAMES WE WERE ABLE TO ANALYZE ONLY TWO BASIC CONCEPTS: CENTRAL WITH CH+FCU AND
DECENTRAL WITH RTU+VAV
ASTRAPARK SHOPPING CENTER (RUSSIA). CASE STUDY (cntd)
8. OBTAINING COST RELATED DATA FROM EXISTING CLIENTS CONTRACTS WE WERE ABLE TO MAKE SYSTEM INITIAL COSTS ASSESSMENT
CONSLUSION: CONSLUSION:CENTRAL SYSTEM: DECENTRAL SYSTEM:INITIAL COSTS 3,641,784.44€ INITIAL COSTS 2,296,962.09€ ANNUAL RUNNING COSTS 789,489.98€ ANNUAL RUNNING COSTS 958,291.97€
YEAR 1 EXPENSES 3,641,784.44€ YEAR 1 EXPENSES 2,296,962.09€ YEAR 2 EXPENSES 789,489.98€ YEAR 2 EXPENSES 958,291.97€ YEAR 3 EXPENSES 862,325.67€ YEAR 3 EXPENSES 1,004,231.21€ YEAR 4 EXPENSES 862,325.67€ YEAR 4 EXPENSES 1,004,231.21€ YEAR 5 EXPENSES 862,325.67€ YEAR 5 EXPENSES 1,004,231.21€ YEAR 6 EXPENSES 862,325.67€ YEAR 6 EXPENSES 1,004,231.21€ YEAR 7 EXPENSES 862,325.67€ YEAR 7 EXPENSES 1,004,231.21€ YEAR 8 EXPENSES 862,325.67€ YEAR 8 EXPENSES 1,004,231.21€ YEAR 9 EXPENSES 862,325.67€ YEAR 9 EXPENSES 1,004,231.21€ NPV 9 years 10,067,235.69€ NPV 9 years 9,837,159.68€
PAYBACK 9 years -2%
ECO
NO
MIC
ASTRAPARK SHOPPING CENTER (RUSSIA). CASE STUDY (cntd)9. JUST INTERESTING FACT 1: TO PROPERLY MODEL ANNUAL ENERGY
CONSUMPTION FOR THE COOLING PLANT WE’VE GENERATED - COOLING CAPACITY FUNCTION OF TEMPERATURE CURVE- ELECTRIC INPUT TO COOLING OUTPUT RATIO FUNCTION OF TEMPERATURE CURVETHIS CURVES HAS CORRELATION COEFFICIENT NEAR 0.99. THIS ALLOW US TO SEE REAL SEER FOR THE GIVEN OUT AND IN CONDITIONS
10. JUST INTERESTING FACT 2: IF DRIVE FOR ROTATING THE ROTARY WHEEL (AHU) OPERATE 24/7 ANNUALLY IT CONSUMES NEAR 30% OF WHOLE COOLING ENERGY OF THE BUILDING
11. JUST INTERESTING FACT 3: ANNUAL BILLS FOR THIS PROJECT5. ANNUAL ENERGY CONSUMTION (incl. interior lighting) 5. ANNUAL ENERGY CONSUMTION (incl. interior lighting)ELECTRICITY ELECTRICITY
30809.33 GJ 736,000.66€ 37266 GJ 890,243.33€ GAS GAS
17379.56 GJ 53,489.32€ 22110.12 GJ 68,048.63€
RC
APROACH FOR SEER EVALUATION FOR SIMULATION
COOLING CAPACITY AS A FUNCTION OF TEMPERATURES: BIQUADRATIC CURVE CCAPACITY = A0 + A1*X + A2*X^2 + A3*Y + A4*Y^2 + A5*X*Y ENERGY INPUT RATIO (EIR) AS A FUNCTION OF TEMPERATURES: BIQUADRATIC CURVE EIR = A0 + A1*X + A2*X^2 + A3*Y + A4*Y^2 + A5*X*Y ! 0.9957 R Squared
Curve:BiquadraticHPCoolingCAPFTemp !- Name
1.4071404546 !- Coeffi cient1 Constant-0.0531353460 !- Coeffi cient2 x0.0026360201 !- Coeffi cient3 x**2
-0.0016726233 !- Coeffi cient4 y-0.0000077623 !- Coeffi cient5 y**2-0.0004445573 !- Coeffi cient6 x*y
13.89 !- Minimum Value of x22.22 !- Maximum Value of x29.44 !- Minimum Value of y46.11 !- Maximum Value of y
0.7964 !- Minimum Curve Output1.1653 !- Maximum Curve Output
Temperature !- Input Unit Type for XTemperature !- Input Unit Type for Y
Dimensionless !- Output Unit Type
Save Curve Objects to a File
SUMMARY:
1. APPROACH DESCRIBED ABOVE IS ESSENTIAL IF WE WANT TO KNOW AND CONTROL WHAT WE’RE EXACTLY DESIGNING
2. THE ONLY WAY TO UNDERSTAND THE BUILDING AND ITS PERFORMANCE IS ENERGY MODELLING
WHAT ABOUT OUR EQUIPMENT:
1. OUR AIM IS CREATED MORE SUSTAINABLE AND RELIABLE EQUIPMENT AND REC SERVES HERE AS EXCELENT ASSISTANT IN THIS CHALLENGE. NOW WE MAY PREDICT PERFORMANCE OF OUR EQUIPMENT IN THE GIVEN CONDITIONS PRIOR TO THE DELIVERY IT ON SITE. IN THIS WAY WE MAY ADAPT AND OPTIMIZE ITS CONFIGURATION CONSIDERING THE VERY CONDITIONS OF THE TASK.THAT’S COOL
GOOD NEWS:1. BUILDING CERTIFICATION.
BREEAM. OUR SERVICE GRADUALLY INCREASE POTENTIAL TO REACH RATING “OUTSTANDING” IN MORE FEASIBLE WAY. THE MAIN DRIVE FOR THAT IS ENE1, OPTION 1 (15 SCORES AVAILABLE). WITH REC YOU HAVE HERE POTENTIAL IN 1.5 TIMES BIGGER.LEED. OUR SERVICE GRADUALLY INCREASE POTENTIAL TO REACH RATING “PLATINUM” IN MORE FEASIBLE WAY. THE MAIN DRIVE FOR THAT IS EAC2, OPTION 1 (18 SCORES AVAILABLE). WITH REC YOU HAVE HERE POTENTIAL IN 3 TIMES BIGGER.
2. WE MAY HELP YOU TO FIND BETTER SOLUTION. BE SURE,
WE’RE ON THE GREEN SIDE
REMAK ENERGY CONSULTING