Use the Energy Saving section to find out how much money you can save with Flygt Experior™ or other Flygt pump solutions, compared to your current pump system.
To make the complete cost calculations of your pump system, continue with the Life Cycle Cost (LCC) calculator section. The LCC formula used in this tool, is the industry standard formula for LCC calculations.
Default values are based on average global values. Would you have exact values, simply replace the default values.
The pump system characteristics are described by giving the ratio between the system's static head and total head.
A system with a lower ratio will give more energy savings with SmartRun™.
a: static head = 30m/ftb: total head = 100m/ftRatio: Static head/total head = 30/100 = 30%
%
Pumped media
Motor efficiency
Pump system A
Pump system B
Impeller type
Pump system A
Pump system B
2. Pump system upgraded with Flygt Experior™ features
N-Technology
Pump system A
Pump system B
SmartRun™
Pump system A
Pump system B
Premium efficiency motor
Pump system A
Pump system B
1. Base data for calculations
Lifetime in years
yrs
Inflation rate
%
Interest rate
%
Cost of electricity, annual increase
%
Cost per man hour
$/h
CO₂ factor (kg CO₂ equivalent per kWh)
kg CO₂ equivalent per kWh
2. Initial cost purchase price (Cic)
The initial costs will usually include the following items excluding the pump and control panel cost:
- engineering
- purchase order administration
- testing and inspection
- inventory of spare parts
- training
- auxiliary equipment
Total pump cost
Pump system A$
Pump system B$
Control panel cost
Control panel cost includes cost for drive, supervision and control cabinet.
Pump system A$
Pump system B$
Other costs
Pump system A$
Pump system B$
3. Installation and comissioning cost (Cin)
Installation and commissioning costs can include the following:
- foundation (design, preparation, concrete and reinforcing, etc.)
- setting and grouting of equipment on foundation
- connection of process piping, electrical wiring and instrumentation
- provisions for flushing or “water runs”
- performance evaluation at start-up.
Installation of control systems
Pump system A$
Pump system B$
Other costs
Pump system A$
Pump system B$
4. Energy cost (Ce)
Energy costs include calculated energy cost for system operation, including pump driver and controls.
Pump system A
Pump system B
5. Operation cost (Co)
Operation costs are labor costs related to the normal operation of the pumping system, not including energy and maintenance.
Annual labor cost
Pump system A$/year
Pump system B$/year
6. Maintenance and repair costs (Cm)
The maintenance and repair costs depend on the time and frequency of maintenance, cost of materials and other fixed costs. Maintenance and repair costs include both planned and unplanned maintenance. Unplanned maintenance usually occurs when the pump stops due to clogging.
Pump maintenance per year (planned cost)
Pump system A$
Pump system B$
Sump cleaning cost per year (planned cost)
Pump system A$
Pump system B$
Pump stops per year (unplanned cost)
This value is based on experience from the field. Since this estimated value depends alot on local conditions fill in your accurate value instead if known, to get a more accurate calculation.
Pump system A
Pump system B
Man hour per maintenance (unplanned cost)
Total number of man hour, note that it often is two people for a call out.
Pump system Ah
Pump system Bh
Fixed cost per maintenance (unplanned cost)
For example costs for spare parts, transportation, suction truck.
Pump system A$
Pump system B$/year
7. Downtime cost (Cs)
Downtime costs are linked to unexpected downtime and lost production.
Downtime hours per year
Pump system Ah/year
Pump system Bh/year
Cost per downtime hour
Pump system A$
Pump system B$
8. Environmental cost (Cenv)
Environmental costs are the costs of contaminant disposal during the lifetime of the pumping system. Environmental contamination can include overflowing of the station and costs for environmental inspection.
Environmental cost per year
Pump system A$/year
Pump system B$/year
9. Decomissioning/ disposal cost (Cd)
Decommissioning/disposal costs usually include disposal of pump and auxiliary services as well as restoration of the local environment.
Decomissioning cost
Pump system A$
Pump system B$
Total savings Pump system A
CO₂ Savings
A carbon footprint is defined as: The total amount of greenhouse gases produced to directly and indirectly support human activities, usually expressed in equivalent tons of carbon dioxide (kg CO2 equivalent).
Energy cost savings
Life cycle cost calculations
Total net present life cycle cost
Life cycle energy consumption
Life cycle CO₂ emissions
Total savings Pump system B
CO₂ Savings
A carbon footprint is defined as: The total amount of greenhouse gases produced to directly and indirectly support human activities, usually expressed in equivalent tons of carbon dioxide (kg CO2 equivalent).
Energy cost savings
Life cycle cost calculations
Total net present life cycle cost
Life cycle energy consumption
Life cycle CO₂ emissions
Net present LCC
Annual accumulated LCC
Pump system A
N-Technology:
SmartRun™:
Premium efficiency motor:
Number of pumps:
Size of pump:
Pump system B
N-Technology:
SmartRun™:
Premium efficiency motor:
Number of pumps:
Size of pump:
Pump system A
Pump system B
msg_title^Flygt Experior™ Calculators~msg_nav_energy_savings^Energy Savings~msg_nav_lcc^Life Cycle Cost~msg_nav_results^Results~msg_index_title^Find your most cost efficient pump solution~msg_index_text^<div>Use the Energy Saving section to find out how much money you can save with Flygt Experior™ or other Flygt pump solutions, compared to your current pump system.<span style="font-size: 12px;"> To make the complete cost calculations of your pump system, continue with the Life Cycle Cost (LCC) calculator section. The LCC formula used in this tool, is the industry standard formula for LCC calculations.</span></div><div>Default values are based on average global values. Would you have exact values, simply replace the default values.</div>~msg_metric^Metric~msg_us^US~msg_get_started^Start~msg_energysavings_current_pump_system_data^1. Current pump system data~msg_rated_power_per_pump^Rated power per pump~msg_configuration_a^Pump system A~msg_configuration_b^Pump system B~msg_number_of_pumps_in_station^Number of pumps in station~msg_1_duty^1 duty~msg_2_duty^2 duty~msg_3_duty^3 duty~msg_1_1_duty^1 duty + 1 standby~msg_2_1_duty^2 duty + 1 standby~msg_3_1_duty^3 duty + 1 standby~msg_average_operating_time_per_duty_pump^Average operating time per duty pump~msg_hours_per_year^Hours/year~msg_cost_of_electricity^Cost of electricity~msg_static_head_total_head^Static head/total head~msg_pumped_media^Pumped media~msg_clean_water^Clean water~msg_screened_sewage^Screened sewage~msg_unscreened_raw_sewage^Unscreened raw sewage~msg_motor_efficiency_class^Motor efficiency~msg_ie1^Standard efficiency (IE1)~msg_ie2^High efficiency (IE2)~msg_ie3^Premium efficiency (IE3)~msg_impeller_type^Impeller type~msg_closed_single_vane^Closed single vane~msg_closed_two_vane^Closed multi vane~msg_screw^Screw~msg_vortex^Vortex~msg_n_technology^N-technology~msg_open_single_vane^Open single vane~msg_features^2. Pump system upgraded with Flygt Experior™ features~msg_smartrun^SmartRun™~msg_yes^Yes~msg_no^No~msg_premium_efficiency_motor^Premium efficiency motor~msg_to_results^To Results~msg_to_lcc^To Life Cycle Cost~msg_base_data_for_calculations^1. Base data for calculations~msg_life_time^Lifetime in years~msg_years^yrs~msg_inflation_rate^Inflation rate~msg_interest_rate^Interest rate~msg_yearly_increased_energy_cost_above_inflation^Cost of electricity, annual increase~msg_cost_manhour^Cost per man hour~msg_cost_per_man_hour_h^/h~msg_co2_factor^CO₂ factor (kg CO₂ equivalent per kWh)~msg_select_predefined_co2_factor^Select predefined CO₂-factor~msg_co2_factor_0537^Electricity, EU-15: 0,537~msg_co2_factor_0575^Electricity, EU-25: 0,575~msg_co2_factor_0588^Electricity, EU-27: 0,588~msg_co2_factor_0926^Electricity, Central Europe: 0,926~msg_co2_factor_0236^Electricity, Nordel: 0,236~msg_co2_factor_0804^Electricity, US: 0,804~msg_kg_co2_eq^kg CO₂ equivalent per kWh~msg_initial_cost_purchase_price^2. Initial cost purchase price (Cic)~msg_info_initial_cost_purchase_price^The initial costs will usually include the following items excluding the pump and control panel cost: - engineering - purchase order administration - testing and inspection - inventory of spare parts - training - auxiliary equipment~msg_total_pump_cost^Total pump cost~msg_control_panel_cost^Control panel cost~msg_other_costs^Other costs~msg_installation_and_comissioning_cost^3. Installation andcommissioning cost (Cin)~msg_info_installation_and_comissioning_cost^Installation and commissioning costs can include the following: - foundation (design, preparation, concrete and reinforcing, etc.) - setting and grouting of equipment on foundation - connection of process piping, electrical wiring and instrumentation - provisions for flushing or “water runs” - performance evaluation at start-up.~msg_installation_of_control_systems^Installation of control systems~msg_energy_cost^4. Energy cost (Ce)~msg_info_energy_cost^Energy costs include calculated energy cost for system operation, including pump driver and controls.~msg_operation_cost^5. Operation cost (Co)~msg_info_operation_cost^Operation costs are labor costs related to the normal operation of the pumping system, not including energy and maintenance.~msg_annual_labor_cost^Annual labor cost~msg_slash_year^/year~msg_maintenance_and_repair_costs^6. Maintenance and repaircosts (Cm)~msg_info_maintenance_and_repair_costs^The maintenance and repair costs depend on the time and frequency of maintenance, cost of materials and other fixed costs. Maintenance and repair costs include both planned and unplanned maintenance. Unplanned maintenance usually occurs when the pump stops due to clogging.~msg_pump_maintenance_per_year^Pump maintenance per year (planned cost)~msg_sump_cleaning_cost_per_year^Sump cleaning cost per year (planned cost)~msg_pump_stops_per_year^Pump stops per year (unplanned cost)~msg_man_hour_per_maintenance^Man hour per maintenance<div>(unplanned cost)</div>~msg_h_slash_year^h/year~msg_fixed_cost_per_maintenance^Fixed cost per maintenance<div>(unplanned cost)</div>~msg_downtime_cost^7. Downtime cost (Cs)~msg_info_downtime_cost^Downtime costs are linked to unexpected downtime and lost production.~msg_downtime_hours_per_year^Downtime hours per year~msg_cost_per_downtime_hour^Cost per downtime hour~msg_environmental_cost^8. Environmental cost (Cenv)~msg_info_environmental_cost^Environmental costs are the costs of contaminant disposal during the lifetime of the pumping system. Environmental contamination can include overflowing of the station and costs for environmental inspection.~msg_environmental_cost_per_year^Environmental cost per year~msg_decomissioning_disposal_cost^9. Decommissioning/disposal cost (Cd)~msg_info_decomissioning_disposal_cost^Decommissioning/disposal costs usually include disposal of pump and auxiliary services as well as restoration of the local environment.~msg_decomissioning_cost^Decommissioning cost~msg_to_energy_savings^To Energy Savings~msg_total_savings_configuration_a^Total savings pump system A~msg_co2_savings^CO₂ Savings~msg_kg_co2_equiv_slash_year^kg CO₂ equiv. /year~msg_energy_cost_savings^Energy cost savings~msg_energy_cost_savings_slash_year^$/year~msg_lcc_cost_calculations^Life cycle cost calculations~msg_total_net_present_lcc^Total net present life cycle cost~msg_lce_consumption^Life cycle energy consumption~msg_lc_co2_emissions^Life cycle CO₂ emissions~msg_kg_co2_equiv^kg CO₂ equiv.~msg_total_savings_configuration_b^Total savings pump system B~msg_net_present_lcc^Net present LCC~msg_cd^Cd (Decommission/disposal cost)~msg_cenv^Cenv (Environmental cost)~msg_cs^Cs (Downtime cost)~msg_cm^Cm (Maintenance and repair cost)~msg_co^Co (Operation costs)~msg_ce^Ce (Energy cost)~msg_cin^Cin (Installation and commissioning cost)~msg_cic^Cic (Initial cost purchase price)~msg_time_to_break_even^Annual accumulated LCC~msg_alternative_a^Pump system A~msg_alternative_b^Pump system B~msg_pump_configuration_a^Pump system A~msg_pump_configuration_b^Pump system B~msg_number_of_pumps^Number of pumps~msg_size_of_pump^Size of pump~msg_print^Print~msg_share^Share~msg_url^Industry standard formula~msg_energy_footer^The calculations and the results are based on your input values and general assumptions and provide only an estimated energy saving for the input data.No guarantee is made that the estimated savings will actually occur.~msg_lcc_footer^The calculations and the results are based on your input values and general assumptions and provide only estimations for the input data.No guarantee is made that the estimated life cycle cost over time is correct.~msg_share_header^Share your results~msg_share_title^Share the results~msg_share_text^Share the calculations and the results as a link. By opening this link the recipient will get full access to the tool with all entered data and settings. Please include your contact details and other important information in your personal message.~msg_share_thanks_title^Thank you~msg_share_thanks_text^Your message has been delivered.~msg_share_url_text^Direct link to your shared settings:~msg_share_close^Close~msg_share_input_name^Your name~msg_share_input_email^Recipient\'s e-mail address~msg_share_input_message^Personal message~msg_share_input_send^Send~msg_share_mail_text1^Click this link to see attached Cost Calculation:~msg_share_mail_from^From:~msg_share_mail_message^Message:~msg_share_mail_text2^To create your own calculation please visit:~msg_share_mail_text3^Powered by Xylem Inc:~msg_share_mail_url^www.xyleminc.com~msg_share_mail_subject^Flygt Experior Calculators~msg_net_present_life_cycle_cost^Net present Life Cycle Cost~msg_accumulated_net_present_cost^Accumulated net present cost~msg_year^Year~msg_info_pump_stops_per_year^This value is based on experience from the field. Since this estimated value depends alot on local conditions fill in your accurate value instead if known, to get a more accurate calculation.~msg_info_man_hour_per_maintenance^Total number of man hour, note that it often is two people for a call out.~msg_info_fixed_cost_per_maintenance^For example costs for spare parts, transportation, suction truck.~msg_h^h~msg_info_static_head_total_head_a^a: static head = 30m/ft~msg_info_static_head_total_head_b^b: total head = 100m/ft~msg_info_static_head_total_head_ratio^Ratio: Static head/total head = 30/100 = 30%~msg_info_static_head_total_head_text^<div>The pump system characteristics are described by giving the ratio between the system\'s static head and total head. A system with a lower ratio will give more energy savings with SmartRun™.</div>~msg_info_co2_savings^A carbon footprint is defined as: The total amount of greenhouse gases produced to directly and indirectly support human activities, usually expressed in equivalent tons of carbon dioxide (kg CO₂ equivalent).~msg_intro_currency^Currency~msg_intro_frequency^Frequency~msg_intro_units^Units~msg_intro_additional_pump^Pump systems to be analyzed~msg_motor_efficiency^Motor efficiency~msg_lifetime_in_years^Lifetime in years~msg_cost_of_electricity_annual_increase^Cost of electricity, annual increase~msg_cost_per_man_hour^Cost per man hour~msg_time_to_break_even_marking^Time to break even~msg_one^1~msg_two^2~msg_url_href^http://www.pumps.org/content_detail.aspx?id=2434