Increase your competitiveness by giving you the ability to get the result in very short time, which increase your plant flexibility. Training your staff with all variables & its affect on the unit.Īdd for manufacturer the facility of making & design the custom made unit which match special customer requirements.Īllowing for the consultant and contractor the possibility of checking the unit operation conditions. Chiller selection: High efficiency chiller with a COP of 2 with a very good part load 5. Installed chiller capacity is 560 TR (280 x 3 nos., 2 working + 1 standby).
#CHILLER PLANT SIMULATION SOFTWARE SOFTWARE#
The equipment in this picture represent the type of equipment discussed. Chiller sizing: Use of dynamic energy simulation software for chiller plant sizing instead of simplified calculation based on static design conditions.
pipe rack, turning the two systems into a central chiller plant. Our long experience and professionalism of about 25 years has enabled us to develop software for all tasks related above field.Ĭatalogue at many different conditions water in, water Out, water flow rate & ambient temp. available software to re-create the same results. Expansion valves selection with thermostatic expansion valve and electronic expansion valve from Carel, Danfoss, Sporlan.Įvaporators or Condenser for Water Cooled Units : form Alfalaval, Onda, Thermokey, Standard, Swep, Gea and Packless and Flooded Evaporator from “Provides & H’STAR”.ĪppliedLab software contains database for all refrigerants : R454B, R22, R134A, R407C, R410A, R404A, R507A, R32, R1234ze, R1234yf, R407A, R407F, R449A, R448A, R450A, R513A, R744, R1270,R452A, R515B. Microchannel coils for condenser and/or evaporator coilsĪppliedLab software contains database for all brands like : compressors for Bitzer, Copeland Emerson, Hanbel, Danfoss, Refcomp, Frascold, Fusheng, Sanyo, Bristol, Siam, Dorin, Bock and Toshiba.įans for EBM, Zeihl Abegg, Nicotra & Comfri. Technical and details performance report with your client company logo.Ībility to select thermostatic expansion valve or electronic expansion valve.Ībility to select accessories like : Filter drier (Disposable, Replaceable Core), Solenoid Valve, Ball valve, Sight Glass, Check Valve, Regulators (Hot Gas by pass KVC, CPCE, Pressure Regulators, Crankcase regulators), Vessels (Liquid Receiver & Suction Accumulators in addition Reversing Valve. ) to be considered at starting of software User can select any measurements (kW, Btu/hr, C, F, m, inch, ……. Save & Open project with ability for editing Optimizing selection of all unit main components.īill of quantity with all components can consider standard and options.ĭx pipe sizing for discharge, liquid, mixture & suction with many fittings (elbow 90 short or long radius, bend 180, enlargement, contraction, shut off valve, solenoid valve, filter drier, check valve…etc) at request vertical (up word or own word) & horizontal distances. Commercial, residential, office) into consideration.AppliedLab Software is a complete R&D department for Design with a complete lab test for Simulation of Chillers, Roof Top Packages, Condensing Units, Precision Units, VRF Units and Freezing Units According to Eurovent & AHRI specifications with SEER, ESEER, SEPR, IPLV, NPLV & Eco design where applicable.Ĭooling and heat pump mode performance calculations.Īir Cooled and Water Cooled Design support with complete details.Īutomatic excel performance catalogue table for designed unit at different conditions with one click. Sizing and design new District/Industrial Park plant taking end-user demands (e.g. Retrofitting an existing District/Industrial Park finding the best configuration of the system for answering for CO2, Primary Energy Source consumption and Capital Expenditure reduction
#CHILLER PLANT SIMULATION SOFTWARE CODE#
In summary, the key features of our code are:Įnergy Dispatch by solving Unit Commitment Problem and Optimal Power Flow (Electricity, Cooling and Heating), for a given plant layout. In case that the user demands are unknown, our code will still be able to build the load, cooling and heating profiles on the basis of the size and of the typology of the industrial park. The optimal solution is obtained by minimizing an Objective Function that takes engineering technical feasibility, Capital Costs (CAPEX), Operation Costs (OPEX), CO2 Emissions and other aspects into consideration. By means of this procedure, once the user demands (load, cooling and heating) are known, the code will constraint the solution to match with such demands.
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